NSALCASS," ""LABEL"""," ""NAME"""," ""AGE"""," ""DESCRIPTION"""," ""SOURCES"""," ""SYMBOL"""," ""OVERPRINT"""
103,Qtf,Modern tidal flat and estuarine deposits,"Quaternary, Holocene","Well-sorted, sub-tidal, stratified silt and some sand and local gravel deposited in shallow embayments","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
100,Qs,"Unconsolidated surficial deposits, undivided",Quaternary,"Mainly unsorted boulders, cobbles, gravel, sand, and silt produced, deposited, and reworked by action of wind, water, glaciers, and frost, including solifluction.  Includes deposits of present streams, colluvial and alluvial fans; glaciofluvial, glaciolacustrine, and deltaic deposits; unsorted material of morainal deposits; glacial-lake silt, clay, and muskeg deposits; and locally interstratified beach gravel, sand, and clay (Tysdal and Case, 1979; Nelson and others, 1985; Winkler and Plafker, 1993).  In the vicinity of the Drift River delta, this unit contains a significant proportion of volcanic debris derived from air fall, mudflows, and lahars from Mt. Redoubt and Iliamna Volcano (Till and others, 1993; Waythomas and Miller, 1999; F.H. Wilson, unpub. data).  Includes artificial fill at the Drift River and West Foreland oil production facilities on the west side of Cook Inlet (Riehle and Emmel, 1980; Till and others, 1993).  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
295,Qs,"Unconsolidated surficial deposits, undivided",Quaternary,"Mainly unsorted boulders, cobbles, gravel, sand, and silt produced, deposited, and reworked by action of wind, water, glaciers, and frost, including solifluction.  Includes deposits of present streams, colluvial and alluvial fans; glaciofluvial, glaciolacustrine, and deltaic deposits; unsorted material of morainal deposits; glacial-lake silt, clay, and muskeg deposits; and locally interstratified beach gravel, sand, and clay (Tysdal and Case, 1979; Nelson and others, 1985; Winkler and Plafker, 1993).  In the vicinity of the Drift River delta, this unit contains a significant proportion of volcanic debris derived from air fall, mudflows, and lahars from Mt. Redoubt and Iliamna Volcano (Till and others, 1993; Waythomas and Miller, 1999; F.H. Wilson, unpub. data).  Includes artificial fill at the Drift River and West Foreland oil production facilities on the west side of Cook Inlet (Riehle and Emmel, 1980; Till and others, 1993).  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
105,Qat,Alluvial and terrace deposits,Quaternary,"Flood-plain alluvium and stream terrace deposits.  Consists of poorly- to well-sorted silt, sand, pebbles, cobbles, and boulders.  Also includes abandoned channel deposits in outwash above modern floodplains or underfit stream channels, inferred to be relict glacial melt water channels; may include some glacial deposits (Detterman and Hartsock, 1966; Riehle and Emmel, 1980; Till and others, 1993; Richter and others, 2005; F.H. Wilson, unpub. data).  Rare natural levee deposits on deltaic or fan delta deposits occur on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
109,Qat,Alluvial and terrace deposits,Quaternary,"Flood-plain alluvium and stream terrace deposits.  Consists of poorly- to well-sorted silt, sand, pebbles, cobbles, and boulders.  Also includes abandoned channel deposits in outwash above modern floodplains or underfit stream channels, inferred to be relict glacial melt water channels; may include some glacial deposits (Detterman and Hartsock, 1966; Riehle and Emmel, 1980; Till and others, 1993; Richter and others, 2005; F.H. Wilson, unpub. data).  Rare natural levee deposits on deltaic or fan delta deposits occur on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
110,Qat,Alluvial and terrace deposits,Quaternary,"Flood-plain alluvium and stream terrace deposits.  Consists of poorly- to well-sorted silt, sand, pebbles, cobbles, and boulders.  Also includes abandoned channel deposits in outwash above modern floodplains or underfit stream channels, inferred to be relict glacial melt water channels; may include some glacial deposits (Detterman and Hartsock, 1966; Riehle and Emmel, 1980; Till and others, 1993; Richter and others, 2005; F.H. Wilson, unpub. data).  Rare natural levee deposits on deltaic or fan delta deposits occur on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
111,Qat,Alluvial and terrace deposits,Quaternary,"Flood-plain alluvium and stream terrace deposits.  Consists of poorly- to well-sorted silt, sand, pebbles, cobbles, and boulders.  Also includes abandoned channel deposits in outwash above modern floodplains or underfit stream channels, inferred to be relict glacial melt water channels; may include some glacial deposits (Detterman and Hartsock, 1966; Riehle and Emmel, 1980; Till and others, 1993; Richter and others, 2005; F.H. Wilson, unpub. data).  Rare natural levee deposits on deltaic or fan delta deposits occur on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
114,Qat,Alluvial and terrace deposits,Quaternary,"Flood-plain alluvium and stream terrace deposits.  Consists of poorly- to well-sorted silt, sand, pebbles, cobbles, and boulders.  Also includes abandoned channel deposits in outwash above modern floodplains or underfit stream channels, inferred to be relict glacial melt water channels; may include some glacial deposits (Detterman and Hartsock, 1966; Riehle and Emmel, 1980; Till and others, 1993; Richter and others, 2005; F.H. Wilson, unpub. data).  Rare natural levee deposits on deltaic or fan delta deposits occur on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
106,Qls,Landslide and colluvial deposits,Quaternary,"Unsorted, angular rock debris and mud in slumps, earth-debris flows, block glides, and debris avalanches, and poorly- to well-sorted silt to boulders in alluvial fans and cones, and unsorted rock talus (Riehle and Emmel, 1980; Waythomas and Miller, 1999; Richter and others, 2005; F.H. Wilson, unpub. data); in the vicinity of Mount Redoubt and Iliamna Volcano, may include some volcanic mudflow (lahar) deposits (Riehle and Emmel, 1980); in the Cordova quadrangle includes large (more than 10 km2) and small landslide deposits caused by the 1964 Alaska earthquake (Winkler and Plafker, 1981; Post, 1967).  On the west side of Cook Inlet solifluction deposits thought to be poorly sorted sand, silt, and clay derived from local upslope bedrock sources are found associated with plutonic rocks of the Alaska-Aleutian Range batholith (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
107,Qls,Landslide and colluvial deposits,Quaternary,"Unsorted, angular rock debris and mud in slumps, earth-debris flows, block glides, and debris avalanches, and poorly- to well-sorted silt to boulders in alluvial fans and cones, and unsorted rock talus (Riehle and Emmel, 1980; Waythomas and Miller, 1999; Richter and others, 2005; F.H. Wilson, unpub. data); in the vicinity of Mount Redoubt and Iliamna Volcano, may include some volcanic mudflow (lahar) deposits (Riehle and Emmel, 1980); in the Cordova quadrangle includes large (more than 10 km2) and small landslide deposits caused by the 1964 Alaska earthquake (Winkler and Plafker, 1981; Post, 1967).  On the west side of Cook Inlet solifluction deposits thought to be poorly sorted sand, silt, and clay derived from local upslope bedrock sources are found associated with plutonic rocks of the Alaska-Aleutian Range batholith (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
108,Qls,Landslide and colluvial deposits,Quaternary,"Unsorted, angular rock debris and mud in slumps, earth-debris flows, block glides, and debris avalanches, and poorly- to well-sorted silt to boulders in alluvial fans and cones, and unsorted rock talus (Riehle and Emmel, 1980; Waythomas and Miller, 1999; Richter and others, 2005; F.H. Wilson, unpub. data); in the vicinity of Mount Redoubt and Iliamna Volcano, may include some volcanic mudflow (lahar) deposits (Riehle and Emmel, 1980); in the Cordova quadrangle includes large (more than 10 km2) and small landslide deposits caused by the 1964 Alaska earthquake (Winkler and Plafker, 1981; Post, 1967).  On the west side of Cook Inlet solifluction deposits thought to be poorly sorted sand, silt, and clay derived from local upslope bedrock sources are found associated with plutonic rocks of the Alaska-Aleutian Range batholith (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
128,Qls,Landslide and colluvial deposits,Quaternary,"Unsorted, angular rock debris and mud in slumps, earth-debris flows, block glides, and debris avalanches, and poorly- to well-sorted silt to boulders in alluvial fans and cones, and unsorted rock talus (Riehle and Emmel, 1980; Waythomas and Miller, 1999; Richter and others, 2005; F.H. Wilson, unpub. data); in the vicinity of Mount Redoubt and Iliamna Volcano, may include some volcanic mudflow (lahar) deposits (Riehle and Emmel, 1980); in the Cordova quadrangle includes large (more than 10 km2) and small landslide deposits caused by the 1964 Alaska earthquake (Winkler and Plafker, 1981; Post, 1967).  On the west side of Cook Inlet solifluction deposits thought to be poorly sorted sand, silt, and clay derived from local upslope bedrock sources are found associated with plutonic rocks of the Alaska-Aleutian Range batholith (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
112,Qsl,"Lacustrine, swamp, and fine silt deposits",Quaternary,"Chiefly silt, clay, fine sand, peat, and other organic material generally of lacustrine origin (Riehle and Emmel, 1980; Richter and others, 2005; F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
113,Qsl,"Lacustrine, swamp, and fine silt deposits",Quaternary,"Chiefly silt, clay, fine sand, peat, and other organic material generally of lacustrine origin (Riehle and Emmel, 1980; Richter and others, 2005; F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
115,Qb,Beach deposits,Quaternary,"Sand, gravel, and cobbles of present and former beaches, beach ridges, spits, and tidal flats (Tysdal and Case, 1979; Winkler and Plafker, 1993; Detterman and Hartsock, 1966; Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  Wave-deposited, coarse-grained material and driftwood along seacoast; includes fine-grained sediment in mud flats of Copper River Delta; and uplifted marine terraces.  Successive spit-building episodes of progressive gradation are preserved in beach sequences along coastal lowland between Cape Yakataga and Bering Glacier (Richter and others, 2005).  Includes beaches uplifted by the 1964 Alaska Earthquake; most notably stranded beaches on southeastern side of Montague Island (Tysdal and Case, 1979)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages.",,
116,Qes,Estuarine deposits,Quaternary,"Fine-grained silt rich in organic material, mud, and peat (Winkler and Plafker, 1993).  Includes salt-marsh deposits of Detterman and Hartsock (1966) and grades into tidal flat deposits (Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  Also includes marine terrace deposits on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
117,Qes,Estuarine deposits,Quaternary,"Fine-grained silt rich in organic material, mud, and peat (Winkler and Plafker, 1993).  Includes salt-marsh deposits of Detterman and Hartsock (1966) and grades into tidal flat deposits (Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  Also includes marine terrace deposits on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
119,Qd,Eolian deposits,Quaternary,"Dunes consisting of well sorted, fine-grained sand and silt aligned in longitudinal ridges on the Cooper River delta (Winkler and Plafker, 1993).  Also includes dunes on top of river bluffs, windblown flats, and river bars (Richter and others, 2005).  Includes informally named Bremner sand dunes, a large barchan field, located at confluence of Bremner and Copper Rivers (Richter and others, 2005).  Includes cliff-head dunes in the northern Kenai quadrangle on Turnagain Arm (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
120,Qd,Eolian deposits,Quaternary,"Dunes consisting of well sorted, fine-grained sand and silt aligned in longitudinal ridges on the Cooper River delta (Winkler and Plafker, 1993).  Also includes dunes on top of river bluffs, windblown flats, and river bars (Richter and others, 2005).  Includes informally named Bremner sand dunes, a large barchan field, located at confluence of Bremner and Copper Rivers (Richter and others, 2005).  Includes cliff-head dunes in the northern Kenai quadrangle on Turnagain Arm (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
170,Qdl,Deltaic deposits,Quaternary,"Deltaic deposits, including outwash and alluvial deposits (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
123,Qgl,Glaciolacustrine deposits,Quaternary,"Largely ephemeral glacial lake and lake-related deposits.  Well-sorted, well-stratified clay, silt, and fine sand deposited in ephemeral glacial and postglacial lakes.  Thought to be typically covered by several feet of muck and peat (F.H. Wilson, unpub. data).  Includes stratified and locally foreset-bedded sand and gravel that occur below 125 m elevation on West Foreland and from Katchin Creek to Redoubt Point; these deposits are probable emerged delta and glaciolacustrine deposits (Riehle and Emmel, 1980).  Also includes active outwash fans (Riehle and Emmel, 1980).  On the Kenai Peninsula, includes hanging delta deposits in former proglacial lakes associated with the last glacial maximum (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
124,Qgl,Glaciolacustrine deposits,Quaternary,"Largely ephemeral glacial lake and lake-related deposits.  Well-sorted, well-stratified clay, silt, and fine sand deposited in ephemeral glacial and postglacial lakes.  Thought to be typically covered by several feet of muck and peat (F.H. Wilson, unpub. data).  Includes stratified and locally foreset-bedded sand and gravel that occur below 125 m elevation on West Foreland and from Katchin Creek to Redoubt Point; these deposits are probable emerged delta and glaciolacustrine deposits (Riehle and Emmel, 1980).  Also includes active outwash fans (Riehle and Emmel, 1980).  On the Kenai Peninsula, includes hanging delta deposits in former proglacial lakes associated with the last glacial maximum (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
125,Qm,Glacial deposits,Quaternary,"Glacial drift consisting of sand, gravel, and boulders.  Includes ground, recessional, end, medial, and lateral moraine deposits; as well as colluvium, talus, landslide debris, alluvium, and silt, locally (Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  As shown also includes active and recently active rock glaciers consisting chiefly rubble and coarse rock debris (F.H. Wilson, unpub. data) as well as fresh, poorly sorted, debris on surfaces of glaciers (Detterman and Hartsock, 1966; Winkler and Plafker, 1993).  In the vicinity of Mount Redoubt and Mount Iliamna, may include a significant component of ash and other air-fall debris from eruptions (F.H. Wilson, unpub. data)  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
126,Qm,Glacial deposits,Quaternary,"Glacial drift consisting of sand, gravel, and boulders.  Includes ground, recessional, end, medial, and lateral moraine deposits; as well as colluvium, talus, landslide debris, alluvium, and silt, locally (Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  As shown also includes active and recently active rock glaciers consisting chiefly rubble and coarse rock debris (F.H. Wilson, unpub. data) as well as fresh, poorly sorted, debris on surfaces of glaciers (Detterman and Hartsock, 1966; Winkler and Plafker, 1993).  In the vicinity of Mount Redoubt and Mount Iliamna, may include a significant component of ash and other air-fall debris from eruptions (F.H. Wilson, unpub. data)  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
127,Qm,Glacial deposits,Quaternary,"Glacial drift consisting of sand, gravel, and boulders.  Includes ground, recessional, end, medial, and lateral moraine deposits; as well as colluvium, talus, landslide debris, alluvium, and silt, locally (Riehle and Emmel, 1980; F.H. Wilson, unpub. data).  As shown also includes active and recently active rock glaciers consisting chiefly rubble and coarse rock debris (F.H. Wilson, unpub. data) as well as fresh, poorly sorted, debris on surfaces of glaciers (Detterman and Hartsock, 1966; Winkler and Plafker, 1993).  In the vicinity of Mount Redoubt and Mount Iliamna, may include a significant component of ash and other air-fall debris from eruptions (F.H. Wilson, unpub. data)  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
130,Qag,Drift of Neoglacial age,"Quaternary, Holocene","Neoglacial terminal, recessional, lateral, and ground moraine consisting of unsorted boulders, cobbles, gravel and sand deposited during retreat of glaciers.  Includes deposits of the Tunnel and Tustumena Stade (Detterman and Hartsock, 1966); Tunnel Stade moraines are barren deposits as much as 1.6 km in front of present glaciers.  Tustumena Stade deposits consist of partially dissected spruce and brush covered moraine 1.6 to 10 km in front of present glaciers (Detterman and Hartsock, 1966).  Includes on the Kenai Peninsula unmodified moraine deposits which may be mantled by loess, generally 2 to 6 feet thick (Karlstrom, 1964).  Locally includes kames and outwash proximal to present glaciers (Richter and others, 2005)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
131,Qao,Outwash of the Neoglacial age,"Quaternary, Holocene","Outwash deposits associated with modern and Holocene glaciers (Karlstrom, 1964; F.H. Wilson, unpub. data).  Consist of poorly- to well-sorted silt, sand, and gravel in terraces and outwash fan plains (Detterman and Hartsock, 1966; Riehle and Emmel, 1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
135,Qgn,Glacial deposits of the Naptowne and Brooks Lake Glaciations,"Quaternary, Pleistocene","Terminal, recessional, lateral, medial, and ground moraine and other deposits.  Moderately weathered moraine along Cook Inlet shoreline; heavily spruce and brush covered (Detterman and Hartsock, 1966; F.H. Wilson, unpub. data).  Internal contacts on west side of Cook Inlet reflect subdivisions of the Brooks Lake Glaciation; the Iliuk, Newhalen, and Iliamna advances.  On the east side of Cook Inlet, includes prominent and little modified morainal deposits, mantled by 2 to 6 feet of loess (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
136,Qgn,Glacial deposits of the Naptowne and Brooks Lake Glaciations,"Quaternary, Pleistocene","Terminal, recessional, lateral, medial, and ground moraine and other deposits.  Moderately weathered moraine along Cook Inlet shoreline; heavily spruce and brush covered (Detterman and Hartsock, 1966; F.H. Wilson, unpub. data).  Internal contacts on west side of Cook Inlet reflect subdivisions of the Brooks Lake Glaciation; the Iliuk, Newhalen, and Iliamna advances.  On the east side of Cook Inlet, includes prominent and little modified morainal deposits, mantled by 2 to 6 feet of loess (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
137,Qgn,Glacial deposits of the Naptowne and Brooks Lake Glaciations,"Quaternary, Pleistocene","Terminal, recessional, lateral, medial, and ground moraine and other deposits.  Moderately weathered moraine along Cook Inlet shoreline; heavily spruce and brush covered (Detterman and Hartsock, 1966; F.H. Wilson, unpub. data).  Internal contacts on west side of Cook Inlet reflect subdivisions of the Brooks Lake Glaciation; the Iliuk, Newhalen, and Iliamna advances.  On the east side of Cook Inlet, includes prominent and little modified morainal deposits, mantled by 2 to 6 feet of loess (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
138,Qgn,Glacial deposits of the Naptowne and Brooks Lake Glaciations,"Quaternary, Pleistocene","Terminal, recessional, lateral, medial, and ground moraine and other deposits.  Moderately weathered moraine along Cook Inlet shoreline; heavily spruce and brush covered (Detterman and Hartsock, 1966; F.H. Wilson, unpub. data).  Internal contacts on west side of Cook Inlet reflect subdivisions of the Brooks Lake Glaciation; the Iliuk, Newhalen, and Iliamna advances.  On the east side of Cook Inlet, includes prominent and little modified morainal deposits, mantled by 2 to 6 feet of loess (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
140,Qgno,Outwash and valley train deposits,"Quaternary, Pleistocene","Silt, sand, and gravel graded to moraines of Naptowne age (map unit Qgn) on the Kenai Peninsula (Karlstrom, 1964) and to Brooks Lake age moraines on the west side of Cook Inlet (F.H. Wilson, unpub. data)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
190,Qog,Older glacial deposits,"Quaternary, Pleistocene","Included here are the prominent, but modified morainal deposits of the Knik and Eklutna Glaciations.  These deposits are widely exposed north of Homer on the Kenai Peninsula (Karlstrom, 1964).  On the Kenai Peninsula, moraines of Knik and Eklutna age are terraced below approximately 228 m (750 ft), reflecting deposition in proglacial lakes.  Also includes pebble- and boulder-bearing diamicton observed at one upland location at West Foreland and in sea cliffs along West Foreland and from Katchin Creek south to near Redoubt Point (Riehle and Emmel, 1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
194,Qog,Older glacial deposits,"Quaternary, Pleistocene","Included here are the prominent, but modified morainal deposits of the Knik and Eklutna Glaciations.  These deposits are widely exposed north of Homer on the Kenai Peninsula (Karlstrom, 1964).  On the Kenai Peninsula, moraines of Knik and Eklutna age are terraced below approximately 228 m (750 ft), reflecting deposition in proglacial lakes.  Also includes pebble- and boulder-bearing diamicton observed at one upland location at West Foreland and in sea cliffs along West Foreland and from Katchin Creek south to near Redoubt Point (Riehle and Emmel, 1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
195,Qogo,Outwash associated with older glacial deposits,"Quaternary, Pleistocene","Silt, sand, and gravel graded to moraines of Knik and Eklutna age on the Kenai Peninsula (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
200,Qch,Moraine of the Caribou Hills Glaciation,"Quaternary, Pleistocene","Highly modified morainal deposits in the Caribou Hills and exposed as remnant deposits elsewhere on the Kenai Peninsula (Karlstrom, 1964).  These deposits are terraced below elevations of about 305 m (1,000 ft) and discontinuously mantled by proglacial lake sediment deposits (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
201,Qch,Moraine of the Caribou Hills Glaciation,"Quaternary, Pleistocene","Highly modified morainal deposits in the Caribou Hills and exposed as remnant deposits elsewhere on the Kenai Peninsula (Karlstrom, 1964).  These deposits are terraced below elevations of about 305 m (1,000 ft) and discontinuously mantled by proglacial lake sediment deposits (Karlstrom, 1964)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
560,Tkn,Kenai Group,"Tertiary, Pliocene to Oligocene","Coal-bearing clastic unit consisting of, in descending order, the Sterling, Beluga, and Tyonek Formations and Hemlock Conglomerate in the vicinity of Cook Inlet.  According to Calderwood and Fackler (1972) unit is at least 8,000-m-thick in the subsurface of Cook Inlet.  Calderwood and Fackler (1972) included, the West Foreland Formation within the Kenai Group; however, it was separated as a distinct unit by Magoon and others (1976).  Subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
540,Ts,Sterling Formation,"Tertiary, Pliocene and Miocene","Weakly lithified massive sandstone, conglomeratic sandstone and interbedded claystone; includes interbedded lignitic coals typically less than 1-m-thick in the upper part of the unit, but may be as much as 3-m-thick in the lower part of the unit (Calderwood and Fackler, 1972).  According to Flores and others (1997, cited in Bradley and others, 1999), sandstone grades upward from coarse- to very fine-grained in trough crossbedded sequences; siltstone is typically ripple-laminated and contains roots or burrows.  Bradley and others (1999) indicated that only the lowest 700 m of the more than 3,000-m-thick Sterling Formation is exposed at the surface, consisting of siltstone, mudstone, carbonaceous shale, lignite coal, and minor volcanic ash.  Triplehorn and others (1977) and Turner and others (1980) reported a number of K-Ar and fission-track age determinations from ash partings within coal beds within this unit (Table 1).  These dates range from 4.2ñ1.4 to 8.9ñ1.0 Ma; some older reported ages were interpreted to be contaminated by detrital material (Turner and others, 1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
545,Tb,Beluga Formation,"Tertiary, Miocene","Nonmarine, interbedded, weakly lithified sandstone, siltstone, mudstone, carbonaceous shale, coal, and minor volcanic ash (Bradley and others, 1999).  Calderwood and Fackler (1972) reported a distinctive feature of the Beluga Formation is its lack of massive sandstone beds and massive coal seams that characterize the underlying Tyonek Formation; however, lignitic to subbituminous coal seams can be as much as 4-m-thick in the upper part of the Beluga Formation.  The contact between the Beluga and overlying Sterling Formation may be an unconformity (Calderwood and Fackler, 1972), but in any case can be difficult to pinpoint (Calderwood and Fackler, 1972; Turner and others, 1980).  Triplehorn and others (1977) and Turner and others (1980) reported a number of K-Ar and fission-track age determinations from ash partings within coal beds in this unit ranging from 7.2ñ1.3 to 12.9ñ5.1 Ma (Table 1)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
600,Tty,Tyonek Formation,"Tertiary, Miocene and Oligocene","Nonmarine conglomerate and subordinate sandstone, siltstone, and coal within the map area as described by Bradley and others (1999).  However, in general, the Tyonek Formation is identified by the presence of massive sandstone beds and lignitic to subbituminous coal beds as much as 9-m-thick (Calderwood and Fackler, 1972).  Its contact with the overlying Beluga Formation is believed to be a disconformity where sandstone beds and coal beds become markedly thinner (Calderwood and Fackler, 1972).  Plant fossils comprising the Seldovian Stage of early and late Miocene age as well as plants representing the Angoonian Stage of Oligocene age provide age control for the unit (Wolfe and Tanai, 1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
630,Th,Hemlock Conglomerate,"Tertiary, Oligocene","Sandstone, conglomerate, and siltstone assigned to this unit, as defined by Calderwood and Fackler (1972) occur only in the vicinity of Harriet Point in the Kenai quadrangle on the west side of Cook Inlet.  On the basis of the description in Detterman and others (1976) these rocks are inferred to consist of fluvial conglomeratic sandstone and conglomerate containing minor interbeds of siltstone, shale, and coal.  Magoon and others (1976) mapped these rocks in a unit consisting of the combined Tyonek Formation and Hemlock Conglomerate whereas Detterman and others (1976) assigned these rocks to the Hemlock Conglomerate.  The Hemlock Conglomerate is lithologically transitional with the Tyonek Formation, leading to some confusion; the Hemlock Conglomerate is best known from the subsurface.  Plant fossils suggest an Oligocene age; Wolfe and Tanai (1980) suggested early Oligocene and Wolfe (cited in Detterman and others, 1996) suggested late Oligocene for rocks assigned to this unit south of the map area.  Wolfe and Tanai (1980) suggested the rocks at Harriett Point may be isochronous with beds considered typical of the Tyonek Formation","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
855,Twf,West Foreland Formation,"Tertiary, Eocene and Paleocene","Exposed only on the west side of Cook Inlet, thin unit consists of tan to light-yellow-brown cobble conglomerate interbedded with lesser sandstone, laminated siltstone, and silty shale (Detterman and Hartsock, 1966).  Thin coal beds are interbedded with the siltstone and shale.  Detterman and Hartsock (1966) also describe a lenticular bed of ""carbonaceous ashstone breccia"" that may have been referred to as obsidian by Martin and Katz (1912).  However, Detterman and Hartsock (1966) indicate that along with quartz and feldspar grains and probably glass shards, the bed also contains plant fragments and is clearly of sedimentary origin.  Clasts in conglomerate are mainly rounded to sub-rounded quartz diorite, volcanic rock, argillite, sandstone, siltstone, quartzite, tuff, and coal fragments.  Intrusive and volcanic rock fragments each make up about 35 percent of the clasts in conglomerate.  Medium- to coarse-grained arkosic sandstone forms the matrix of the conglomerate as well as distinct lenticular beds.  The siltstone and shale interbedded with conglomerate is a very fine-grained sub-arkosic equivalent of the sandstone.  Originally mapped as the Kenai Formation by Detterman and Hartsock (1966); Calderwood and Fackler (1972) raised this unit to group status and subdivided it into a number of formations.  The rocks here were assigned to the West Foreland Formation.  The West Foreland was assigned an Oligocene age by Kirschner and Lyon (1973) and later reassigned an early Eocene and late Paleocene age by Magoon and others (1976).  Recent dating of zircon from an interbedded tuff about 1-m-thick from north of the map area yielded a 43-Ma-age (middle Eocene) (P.J. Haeussler and D.W. Bradley, USGS, oral commun., 2005).  The West Foreland Formation was removed from the Kenai Group because it was separated by a major unconformity from the overlying Hemlock Conglomerate (Magoon and Egbert, 1986).  Lower contact of these rocks was described by Detterman and Hartsock (1966) as an angular unconformity with the Upper Jurassic Naknek Formation; subsequent work by Magoon and others (1980) showed there to be a nonmarine Upper Cretaceous sedimentary unit between the rocks of the West Foreland and Naknek Formations.  Those Cretaceous rocks are shown here as map unit Ksm","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1961,Ksm,Saddle Mountain section of Magoon and others (1980),"Upper Cretaceous, Maastrichtian","Nonmarine sandstone, conglomerate, and minor siltstone and coal found northeast of Chinitna Bay in a section 83-m-thick (Magoon and others, 1980).  Consists dominantly of fine- to medium-grained sandstone that becomes finer grained upward.  Unit is generally massive though some crossbedded sections are present.  It is soft and friable except where calcite cemented.  Conglomerate contains volcanic and plutonic rock boulders as much as 30 cm in diameter in a sandy matrix.  Coal beds, which tend to occur in the upper part of the section are as much as 2.7-m-thick and locally has underclay (""undersoils"", Magoon and others, 1980).  Siltstone is most abundant in the middle part of the section.  Sporomorphs Cranwellia striata (Couper) Srivastava, Balmeisporites spp., Wodehouseia spinata Stanley, Proteacidites spp., Aquilapollenites bertillonites Funkhouser, A. reticulatus Mtchedlishvili, A delicatus Stanley (Magoon and others, 1980) were recovered from the unit, indicating a Maastrichtian age.  This unit was assigned in the Kaguyak Formation by Bradley and others (1999), but is separated here because its lithology and depositional environment are distinctly different from the Kaguyak Formation.  This map unit overlies the Jurassic Naknek Formation with angular unconformity and is in turn overlain by rocks of the West Foreland Formation with angular unconformity","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3014,Jnp,"Naknek Formation, Pomeroy Arkose Member","Upper Jurassic, Kimmeridgian and Oxfordian?","Massive light-gray, medium- to coarse-grained arkose containing many interbedded thin beds of dark-gray to brownish siltstone and pebble conglomerate (Detterman and Hartsock, 1966).  The sandstone is rich in quartz (40-45 percent) and sodic feldspar (30-35 percent) and also contains 15-20 percent hornblende and tourmaline.  Volcanic lithic fragments make up 2-3 percent of the rock.  Grains are sub-angular to sub-rounded.  The matrix is generally clay, but locally, is tuffaceous.  The siltstone is mineralogically distinctive from the arkose and resembles the graywacke of older units according to Detterman and Hartsock (1966); we interpret this to indicate it contains a higher proportion of volcanic- and sedimentary-sourced components.  Detterman and Hartsock (1966) indicated that most sections of the Pomeroy Arkose Member have a 70- to 350-foot-thick (21 to 113 m) gray, medium-bedded to massive, arenaceous siltstone horizon, usually in the lower part of the member.  The Pomeroy Arkose is sparsely fossiliferous, containing Lytoceras, Phylloceras, and Buchia concentrica, suggesting an age no younger than early Kimmeridgian.  Detterman and Hartsock (1966) suggested that the nearby Jurassic part of the Alaska-Aleutian Range batholith was the source for this unit and the subangular character of the easy-to-destroy grains (hornblende, tourmaline, and feldspar) indicate short transport and rapid burial","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3013,Jnst,"Naknek Formation, Snug Harbor Siltstone Member","Upper Jurassic, Kimmeridgian and Oxfordian","Dominantly massive to thin-bedded, dark-gray to black siltstone; calcareous gray sandstone beds are minor part of the unit (Detterman and Hartsock, 1966).  Hard gray limestone concretions and lenses are locally abundant; rare thin layers of volcanic ash and tuff are found locally (Detterman and Hartsock, 1966).  Deposited in moderately deep water, well below wave base and above carbonate compensation depth, in a basin having restricted circulation (Detterman and others, 1996).  It is the lowest abundantly fossiliferous member of the Naknek; main fossils present are Buchia, including Buchia concentrica as well as the ammonites Amoeboceras, Phylloceras, and Perisphinctes","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3012,Jnn,"Naknek Formation, Northeast Creek Sandstone Member","Upper Jurassic, Oxfordian","Light-gray, thin-bedded to massive arkosic sandstone, graywacke, and siltstone.  Originally called the ""lower sandstone member"" by Detterman and Hartsock (1966) who considered this unit to have only local significance.  Later work on the Alaska Peninsula (Detterman and others, 1996) showed that the lateral equivalent of this unit, which they named the Northeast Creek Sandstone Member, is present along the entire length of the Alaska Peninsula.  According to Detterman and Hartsock (1966), some beds have a tuffaceous matrix, zones of small pebbles, as well as thin beds of arenaceous siltstone.  Fossils are most common in the lower part of this unit and include ammonites, particularly Cardioceras, but also include Phylloceras and Lytoceras.  Detterman and Hartsock (1966) assigned a latest Callovian and early Oxfordian age to this unit based on the presence of Cardioceras martini in the lower part of the member and its association with Cardioceras distans, which then without Cardioceras martini continues to the top of the member.  Detterman and others (1996) assigned only an Oxfordian age to the unit based on reinterpretation of the available information.  Pelecypods including Pleuromya, Quenstedtia, Oxytoma, Thracia, and Astarte are present but not common as are gastropods, echinoids, and belemnites (Detterman and Hartsock, 1966).  Lower contact of member intertongues with the Chisik Conglomerate Member.  Upper contact is gradational with the overlying Snug Harbor Siltstone Member","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3016,Jnc,"Naknek Formation, Chisik Conglomerate Member","Upper Jurassic, Tithonian to Oxfordian","Consists of massive to thick-bedded conglomerate and interbedded, crossbedded, quartzose sandstone.  Clasts, as large as 2 m, are mainly granitic rocks, but up to 20 percent metamorphic and volcanic rocks are present (Detterman and others, 1996).  The unit in the map area is mainly restricted to the area adjacent to Iniskin and Tuxedni Bays.  A K-Ar age determination (Table 1, sample 62Ale 6e) on a quartz diorite cobble yielded a protolith age of 156.6 Ma on biotite and 159.7 on hornblende (Detterman and others, 1965)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3020,Jcp,"Chinitna Formation, Paveloff Siltstone Member","Middle Jurassic, Callovian","Consists of massive dark-gray arenaceous siltstone in the upper part and a thick sandstone unit at its base (Detterman and Hartsock, 1966).  Large ellipsoidal concretions and lenticular beds of limestone occur throughout the unit and thin interbeds of sandstone occur in the siltstone.  A few siltstone beds contain abundant finely disseminated pyrite, causing the beds to weather rusty brown.  The siltstone is well-indurated and the uppermost part is thin-bedded and fractures into angular fragments.  The graywacke sandstone of the lower unit is "".thin bedded to massive, locally lenticularly bedded, fine to coarse grained, gray to greenish gray"" (Detterman and Hartsock, 1966, p. 43).  Limestone concretions and interbeds are common and on fresh surfaces are very dark-gray, but weather buff to cream colored.  Locally the limestone is bioclastic (Detterman and Hartsock, 1966).  Many non-diagnostic pelecypods and gastropods have been collected from the lower sandstone (Detterman and Hartsock, 1966), whereas a wide variety of ammonites have been collected from the siltstone and limestone concretions higher in the section.  Many genera of ammonites, including Cadoceras, Stenocadoceras, Pseudocadoceras, Kepplerites, Kheraiceras, and Lilloettia, have been collected from the unit (Detterman and Hartsock, 1966), indicating a Callovian age, although the uppermost zone of the Callovian has not been identified.  The Paveloff Siltstone Member is the age equivalent of the Shelikof Formation of the Alaska Peninsula; the Shelikof contains a higher proportion of coarse volcanic debris (Detterman and others, 1996)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3030,Jct,"Chinitna Formation, Tonnie Siltstone Member","Middle Jurassic, Callovian","Massive dark-gray to brownish-gray arenaceous siltstone, which weathers brownish-gray to red-brown (Detterman and Hartsock, 1966).  Numerous small yellowish-brown weathering limestone concretions occur in parallel bands and randomly throughout the section.  The limestone concretions are generally ovoid and as much as 12-13 cm in diameter.  They are extremely hard and commonly fossiliferous (Detterman and Hartsock, 1966).  Thin fine-grained, greenish-gray sandstone interbeds occur in the siltstone and a more massive sandstone unit is found at the base of the section.  The sandstone interbeds are compositionally similar, but coarser grained than the siltstone.  The thick (6-30 m) sandstone bed present at the base of the unit is medium-bedded to massive, fine- to medium-grained and grayish-brown.  On Chisik Island, a thick (65 m) channel conglomerate, consisting mainly of volcanic rock cobbles and boulders, is present at the base of the section.  ""The Chisik Island section also contains numerous thin beds of volcanic ash (Detterman and Hartsock, 1966, p. 41).""  The Tonnie Siltstone is abundantly fossiliferous, yielding many mollusks, particularly ammonites.  Paracadocreas, Pseudocadoceras, Phylloceras, Lilloettia, Kheraiceras, Kepplerites, and Xenocephilites are among the collections as are numerous pelecypods and rare belemnites, gastropods and brachiopods allowing an age assignment of early Callovian (Detterman and Hartsock, 1966)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3181,Jtb,"Tuxedni Group, Bowser Formation","Middle Jurassic, Callovian and Bathonian","Heterogeneous assemblage of sandstone, conglomerate, shale and siltstone characterized by rapid facies changes (Detterman and Hartsock, 1966).  Massive light- to dark-gray sandstone and conglomerate are the dominant lithologic types on the Iniskin Peninsula.  The sandstone and the conglomerate matrix are coarse-grained and composed of angular fragments of feldspar and quartz, having biotite, augite, and magnetite as common accessory minerals.  Light-gray sandstone is commonly calcareous and contains numerous coquina beds composed almost entirely of the pelecypods Retroceramus (formerly most Middle Jurassic Alaska inoceramids were referred to the genus Inoceramus) and Trigonia and is also interbedded with dark-gray sandstone.  Clasts in the conglomerate are dominantly felsic volcanic rocks and basalt, but include about 10 percent granitic rocks.  Siltstone beds are massive to thin-bedded, medium- to coarse-grained, dark-brownish gray, weathering to light-brown.  Siltstone beds as much as 100-m-thick are interbedded with the conglomerate and sandstone and north of Chinitna Bay occurs in units as much as 250-m-thick, where the siltstone forms the dominant lithology of the Bowser Formation.  Lenticular limestone concretions containing ammonites are common north of Chinitna Bay.  The formation ranges in overall thickness from 380 to 560 m.  Abundantly fossiliferous, containing ammonites and pelecypods, this formation can be divided into two faunal zones that occur on either side of the break between Callovian and Bathonian.  The lower faunal zone immediately overlies the unconformity with the Twist Creek Siltstone and contains the ammonites Cranocephalites, Arctocephalites, Siemiradzkia, Cobbanites, and Parareineckia and is middle Bathonian in age.  The upper faunal zone contains the ammonites Xenocephalites, Kheraiceras, and Kepplerites of Callovian age","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3182,Jtt,"Tuxedni Group, Twist Creek Siltstone","Middle Jurassic, Bajocian","Soft, poorly consolidated, thin-bedded to massive siltstone and silty shale as much 125-m-thick (Detterman and Hartsock, 1966).  The siltstone is dark-gray, weathers to dark-rusty brown, and contains many thin beds of volcanic ash that weather a bright-orange color.  Small, commonly fossiliferous,  limestone concretions are common throughout the unit.  The Twist Creek Siltstone has an abundant ammonite fauna which includes Oppelia (Liroxyites), Megasphaerceras, Leptosphinctes, Lissoceras, and Normannites (Dettermanites), but which is restricted to the contained limestone concretions","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3183,Jtc,"Tuxedni Group, Cynthia Falls Sandstone","Middle Jurassic, Bajocian?","Massive to thick-bedded graywacke sandstone and pebble conglomerate about 200-m-thick (Detterman and Hartsock, 1966).  The sandstone is medium- to coarse-grained, greenish-gray to dark-green, has graded bedding and weathers mottled light-gray due to the presence of zeolites.  The sandstone consists mainly of angular fragments of feldspar and volcanic rocks in a compositionally similar silt-size matrix.  The pebble conglomerate occurs in thin lenticular beds within the sandstone and is well sorted within individual beds.  Clasts consist of ""red and green felsitic volcanic rocks, aphanitic igneous rocks, and a few metasedimentary rocks that are primarily dark-gray quartzite"" (Detterman and Hartsock, 1966, p. 32).  Coarse-siltstone is interbedded with the sandstone and may contain a few limestone concretions.  Siltstone makes up 10 to 20 percent of the formation.  Like the underlying Fitz Creek Siltstone and Gaikema Sandstone, the Cynthia Falls Sandstone is coarsest grained in the vicinity of Gaikema Creek and finer grained away from this area.  Fossils are relatively uncommon in this unit, thought in part due to rapid deposition in a nearshore environment.  The sparse fauna includes the ammonites Chondroceras and Stephanoceras, as well as the pelecypods Retroceramus (formerly Inoceramus) sp. and Mytilus sp.","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3184,Jtf,"Tuxedni Group, Fitz Creek Siltstone","Middle Jurassic, middle Bajocian","Thick sequence (up to 400-m-thick) of massive, bluish dark-gray, arenaceous, coarse- to fine-grained siltstone that commonly weathers rusty orange and contains many small limestone concretions (Detterman and Hartsock, 1966).  Fine-grained sandstone and, locally, conglomerate is interbedded.  In the upper part of the unit the siltstone could possibly be called silty shale.  The unit is coarsest in the vicinity of Gaikema Creek and rapidly becomes finer-grained in all directions away from the Gaikema Creek section.  This unit is abundantly fossiliferous and is the lowest unit of the Tuxedni Group where ammonites are more numerous than pelecypods.  A few non-diagnostic brachiopods are also present.  The ammonites include Normannites, Teloceras, and Chondroceras and many other genera; pelecypods include Retroceramus (formerly Inoceramus) and Pleuromya, both in forms distinctly different than those found in the lower parts of the Tuxedni Group","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3185,Jtg,"Tuxedni Group, Gaikema Sandstone","Middle Jurassic, lower middle Bajocian","Resistant, cliff-forming, massive to thin-bedded graywacke sandstone and cobble conglomerate 150- to 260-m-thick (Detterman and Hartsock, 1966).  Sandstone commonly occurs in graded beds up to 3-m-thick, whereas conglomerate is well-sorted within individual beds and rarely shows grading (Detterman and Hartsock, 1966).  Conglomerate is confined to the Iniskin Peninsula; clasts in it consist of ""red and green felsitic volcanic rocks, aphanitic igneous rocks, and minor metasedimentary rocks"" (Detterman and Hartsock, 1966, p. 26), all thought to be derived from the Talkeetna Formation.  Rare granitic clasts in the Gaikema Sandstone are the first appearance of rocks presumably derived from the Alaska-Aleutian Range batholith.  Siltstone, occurring mainly as thin interbeds in sandstone, is thin-bedded to massive, generally coarse-silt to sandy, gray to olive-gray, and brownish to rusty brown weathering.  In general, siltstone constitutes less than 10 percent of the unit, though, locally it can constitute as much as 40 percent.  Siltstone apparently does not occur in close proximity to the conglomeratic parts of the formation (Detterman and Hartsock, 1966).  Unit is fossiliferous throughout, containing pelecypods Meleagrinella, Trigonia, and Retroceramus (formerly Inoceramus) and ammonites Witchellia(?), Stephanceras and locally, Sonninia (Papilliceras), Lissoceras, and Emileia","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3250,Jtk,"Talkeetna Formation, undivided",Lower Jurassic,"Bedded volcanic rocks widely distributed in the Seldovia and Kenai quadrangles west of Cook Inlet.  Where undivided, unit consists of flows, breccia, tuff, and agglomerate and locally interbedded minor sandstone and shale, all typically somewhat altered or metamorphosed (Detterman and Hartsock, 1966; Detterman and Reed, 1980).  Detterman and Hartsock (1966) formally divided unit into three members.  Within the map area, the Talkeetna Formation is locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3251,Jtkh,"Talkeetna Formation, Horn Mountain Tuff Member",Lower Jurassic,"Bedded tuff and tuffaceous feldspathic sandstone, locally containing porphyritic andesite flows.  Bedded tuff is tan, red, green, purple, or mottled-color, thin-bedded to massive and fine- to coarse-grained (Detterman and Hartsock, 1966).  Locally, tree stumps are preserved within the tuff beds, suggesting subaerial deposition.  However, thin-bedded laminated units that have graded bedding and contain rare belemnite fragments indicate some parts of the unit are marine.  Measured thickness is as much as 870 m (Detterman and Hartsock, 1966).  The above mentioned belemnites and plant fragments occur near the top of the unit; the fossils are not age diagnostic.  In the Talkeetna Mountains north of the map area, fossils in the upper part of the Talkeetna Formation, which is considered correlative to the rocks of the Horn Mountain Tuff Member, indicate a late Pliensbachian and Toarcian (Early Jurassic) age (Arthur Grantz, oral commun., 1963, cited in Detterman and Hartsock, 1966)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3252,Jtkp,"Talkeetna Formation, Portage Creek Agglomerate Member",Lower Jurassic,"Reddish fragmental volcanic debris, primarily rounded volcanic bomb-like fragments and lapilli tuff grading to fine-grained tuff, clastic sedimentary rocks and flows northward in the map area (Detterman and Hartsock, 1966).  Interbedded flows, tuff, and sedimentary rocks are thicker than in the underlying Marsh Creek Breccia Member, suggesting to Detterman and Hartsock (1966) a decrease in violent volcanism in the source area.  These rocks are generally more felsic, although commonly described as andesitic (Detterman and Hartsock, 1966), than those of the Marsh Creek Breccia Member and their distribution suggests a separate source (Detterman and Hartsock, 1966).  The estimated thickness of this unit is between 685 and 870 m.  No fossil control is known for this map unit","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3253,Jtkm,"Talkeetna Formation, Marsh Creek Breccia Member",Lower Jurassic,"Massive dark-green to green volcanic breccia having a tuff matrix (Detterman and Hartsock, 1966).  Consists of angular fragments of aphanitic pink and green volcanic rocks ranging in size from 1 cm to nearly 1 m and in general, fine upward.  Interbedded flows of andesite and basalt, thought to be partly submarine, are common, and increase in abundance and thickness southward (Detterman and Hartsock, 1966; Detterman and Reed, 1980).  Bedded tuff is locally important, thickest in the southern exposures of the unit, and coarser in the more northern exposures.  This member has an estimated minimum overall thickness of 1,000 m although no complete section has been measured and the sections that have been measured are cut by extensive faulting.  Locally this member has obscure contact relationships with plutons of the Alaska-Aleutian Range batholith or has been assimilated into the Holocene magma chamber under Iliamna Volcano (Detterman and Hartsock, 1966).  No fossils are known from this unit in the map area and its age is only inferred based on correlations with rocks in the Talkeetna Mountains type area","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3265,Jp,"Pogibshi formation of Kelley (1980), undivided","Lower Jurassic, Sinemurian to Hettangian and older?","Informally named Pogibshi formation of Kelley (1980) is exposed on east side of Cook Inlet and consists of volcaniclastic rocks interbedded with small amounts of limestone, coal, and tuffaceous argillite.  Kelley (1980) divided the unit into three members on the basis of rock type, modal composition, and depositional texture.  His stratigraphically lowest member, the Dangerous member, consists of volcaniclastic breccia, conglomerate, and sandstone and is in depositional contact with his informal Port Graham formation (^pg herein).  Locally tuffaceous dark-gray sedimentary rocks in the Dangerous member make it hard to distinguish from the Port Graham formation.  The July member consists of dacitic pyroclastic rocks, tuffaceous sandstone, granule conglomerate, and mudstone.  Kelley (1980) indicated that the high quartz content and abundance of glassy debris help to distinguish this unit from other parts of his Pogibshi formation.  The uppermost member, the Naskowhak, consists of greenish-gray tuffaceous mudstone and siltstone, and tuff.  Locally, the basal part of the Naskowhak member includes laterally extensive coal-bearing units.  The presence of these coal-bearing units helps to distinguish the Pogibshi formation of Kelley (1980) from the otherwise lithologically similar Talkeetna Formation on the west side of Cook Inlet.  The Pogibshi formation of Kelley (1980) is reportedly intruded by the tonalite of Dogfish Bay (^dt) and possibly by the diorite of Point Bede (^dt); if so the recently determined Triassic age on the diorite (D.C. Bradley, oral commun., 2007) may indicate that the Pogibshi is, in part, significantly older than the Talkeetna Formation.  Martin (1915) and Martin (1926) reported a diverse Lower Jurassic fauna along the coast southwest of Seldovia.  Bradley and others (1999) erroneously attributed these Jurassic collections by Martin (1915) to the Port Graham formation of Kelley (1980); however, those collections were from localities within the outcrop area Bradley and others (1999) assigned to the Talkeetna Formation, which we reassign back to the Pogibshi formation of Kelley (1980).  Fossils noted in the two Martin reports (1915; 1926) included several species of scleractinian corals, numerous bivalves (mostly pectinaceans), gastropods, and ammonites.  A brief visit by R.B. Blodgett (written commun., 2007) to a section of early Sinemurian age exposed about 3 km west of Seldovia showed it to contain numerous pectinacean bivalves, gastropods, and several species of scleractinian corals.  The bivalves were found both as articulated and disarticulated specimens, and most appear to belong to the genus Weyla, an Early Jurassic index fossil found primarily along the western coast of North and South America.  Lower Jurassic ammonites from these same rocks were discussed and, in part, illustrated in Imlay (1981), who recognized both Sinemurian and Hettangian fossil assemblages.  A fossil determination by A.K. Armstrong of a collection made by J.S. Kelley yielded poorly preserved Permian corals (sample 75JK-151B, www.alaskafossil.org).  Due to the poor state of preservation of the coral material, we tentatively discount this collection until further material can be collected and identified from this locality.  Connelly (1978) and Connelly and Moore (1979) suggested correlation of these rocks with the Upper Triassic Shuyak Formation of the Afognak Island which is intruded by the Afognak pluton of Triassic age (see also Wilson and others, 2005)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
4019,Trpg,Port Graham formation of Kelley (1980),Upper Triassic; Norian,"Dominantly dark-gray, carbonaceous limestone and silty limestone containing varying amounts of silica cement (Kelley, 1980).  Fine-grained, dark-gray siliceous to limy mudstone, silty sandstone, and dark-gray to dark-olive-gray, thin- to medium-bedded chert having mudstone partings are also common lithologies according to Kelley (1980).  Limy beds tend to be most common in the lower (middle Norian) part of the unit (R.B. Blodgett, written commun., 2007 and unpublished data of Humble Oil Company [now Exxon-Mobil] reported by R.B. Blodgett); whereas the upper part (of late Norian age) is composed of considerably more volcaniclastic fragment-rich and shaly beds.  The volcaniclastic fragment-rich beds contain a diverse, but uncommon molluscan fauna consisting of both bivalves and gastropods, while the shaly beds tend to have a monotaxic fauna of monotid bivalves.  Fossils are locally abundant, as reported by Kelley (1980) these are mostly thin-shelled mollusks, but also include corals, echinoids, ammonites, and trace fossils.  Martin and others (1915) and Martin (1926) reported the bivalves Halobia cf. H. superba Mojsisovics, Pseudomonotis subcircularis Gabb (this species is now referred in the genus Monotis), Nucula?, as well as the coral Astrocoenia? sp.  The Halobia cf. H. superba was suggested by Martin to possibly indicate a Carnian age (this species was later re-identified as belonging to middle Norian age species of Halobia by Silberling and others, 1997), while the Monotis subcircularis was noted to indicate a late Norian age.  Silberling and others (1997) provided a detailed analysis of the known Late Triassic bivalve fauna known from the Port Graham area and reported that the middle Norian age Halobia lineata and H. dilitata were found in collections reported by Martin (1915; USGS Mesozoic localities 6380 and 6382, respectively).  Two different species of Late Triassic Monotis were reported from these rocks by Silberling and others (1997):  Monotis (Pacimonotis) subcircularis and Monotis (Monotis) alaskana, as well as the late middle Norian ammonite Steinmannites.  Kelley (1984) and Bradley and others (1999) assigned an upper age limit of Early Jurassic to this unit, although no fossils of this age are found in this unit.  Fossils of this age do occur in the upper part of the overlying Pogibshi formation of Kelley (1980)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
5220,JPk,Kakhonak Complex,"Jurassic, Triassic, and Permian(?) or older(?)","The Kakhonak Complex, defined by Detterman and Reed (1980) is a lithologically diverse and complex assemblages of metamorphosed mafic plutonic, volcanic, and sedimentary rocks found on the west side of Cook Inlet.  Detterman and Hartsock (1966) mapped ""metalimestone"", argillite, quartzite, metatuff, greenstone, and phyllite from this unit.  Detterman and Reed (1980) described the unit as largely consisting of roof pendants within the Alaska-Aleutian Range batholith and believed that the Kakhonak Complex represents, in part, the metamorphic equivalent of Upper Triassic and Lower Jurassic rocks, the Kamishak and Talkeetna Formations, of the vicinity.  However, quartzite and quartz-mica schist occurring within the Kakhonak Complex have no direct equivalent within the sedimentary rocks of the vicinity, indicating other protoliths may have contributed to the complex.  As Permian rocks were known from Puale Bay, south of the map area, a possible Paleozoic age was not excluded by Detterman and Reed (1980).  Internal contacts are typically faults, resulting in a tectonic mix of lithologies.  Although most of the rocks of this complex are at greenschist facies, the rocks range from nonmetamorphosed to granulite facies.  No age control is known from the Kakhonak Complex","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
300,Qv,"Volcanic rocks, undivided",Quaternary,"Andesite, dacite, and basalt lava flows, volcanic breccia, lahar deposits, and debris-flow deposits.  Includes air-fall tuff, volcanic dome deposits, block-and-ash-flow deposits, ash-flow tuffs, volcanic-rubble flows, debris flows, and hot-blast avalanche deposits.  Also includes tephra-rich colluvium in the vicinity of and west of Redoubt Volcano where these deposits both mantle and are incorporated into deposits of Holocene glaciation (Till and others, 1993; F.H. Wilson, unpub. data).  Lava flows and clasts are porphyritic, typically glassy, gray to black, and commonly vesicular.  Andesite is dominant composition and probably constitutes 60 percent or more of rocks.  Unit typically forms volcanic edifices.  Rocks of this unit mapped at Redoubt and Iliamna Volcanoes include Holocene rocks which cap ridges and include massive lava flows, agglomerate, and lahar deposits.  May include Tertiary volcanic rocks as mapped by Magoon and others (1976).  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
305,Qv,"Volcanic rocks, undivided",Quaternary,"Andesite, dacite, and basalt lava flows, volcanic breccia, lahar deposits, and debris-flow deposits.  Includes air-fall tuff, volcanic dome deposits, block-and-ash-flow deposits, ash-flow tuffs, volcanic-rubble flows, debris flows, and hot-blast avalanche deposits.  Also includes tephra-rich colluvium in the vicinity of and west of Redoubt Volcano where these deposits both mantle and are incorporated into deposits of Holocene glaciation (Till and others, 1993; F.H. Wilson, unpub. data).  Lava flows and clasts are porphyritic, typically glassy, gray to black, and commonly vesicular.  Andesite is dominant composition and probably constitutes 60 percent or more of rocks.  Unit typically forms volcanic edifices.  Rocks of this unit mapped at Redoubt and Iliamna Volcanoes include Holocene rocks which cap ridges and include massive lava flows, agglomerate, and lahar deposits.  May include Tertiary volcanic rocks as mapped by Magoon and others (1976).  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
311,Qv,"Volcanic rocks, undivided",Quaternary,"Andesite, dacite, and basalt lava flows, volcanic breccia, lahar deposits, and debris-flow deposits.  Includes air-fall tuff, volcanic dome deposits, block-and-ash-flow deposits, ash-flow tuffs, volcanic-rubble flows, debris flows, and hot-blast avalanche deposits.  Also includes tephra-rich colluvium in the vicinity of and west of Redoubt Volcano where these deposits both mantle and are incorporated into deposits of Holocene glaciation (Till and others, 1993; F.H. Wilson, unpub. data).  Lava flows and clasts are porphyritic, typically glassy, gray to black, and commonly vesicular.  Andesite is dominant composition and probably constitutes 60 percent or more of rocks.  Unit typically forms volcanic edifices.  Rocks of this unit mapped at Redoubt and Iliamna Volcanoes include Holocene rocks which cap ridges and include massive lava flows, agglomerate, and lahar deposits.  May include Tertiary volcanic rocks as mapped by Magoon and others (1976).  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
312,Qdf,Debris-flow deposits,"Quaternary, Holocene","Volcanic debris-flow and mudflow deposits from Redoubt Volcano in the Crescent River valley.  Includes several small (older?) deposits in the upper valley and a 3,500-year-old debris flow in the lower valley (F.H. Wilson, unpub. data).  The older deposits are from multiple debris flows off the west and southwest flanks Redoubt Volcano.  Oldest(?) deposit is derived from west flank of Redoubt.  Next oldest deposit appears to be derived from presently glaciated valley draining to the southwest off Redoubt.  These older deposits are of relatively limited extent.  They may have dammed the North Fork of the Crescent River, creating a temporary lake in the valley.  Deposits of the youngest, most extensive, and probably most fluid debris flow derived from southwest flank of Redoubt Volcano.  Flow was apparently derived from the only presently glacier-free valley draining south from Redoubt.  This debris flow has been dated at 3,500 yrs. BP (Riehle and others, 1981), young enough to possibly explain the lack of glaciers in the source valley, as all surrounding valleys have extensive glaciers and glacial deposits.  This debris flow extends to the coast of Cook Inlet and back flowed up the main fork of the Crescent River, creating Crescent Lake.  Also includes mudflow deposits in the Drift River valley draining north and east from Redoubt Volcano (Till and others, 1993) of Holocene age; many of which are historic including 1966 and later flows","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
313,Qdf,Debris-flow deposits,"Quaternary, Holocene","Volcanic debris-flow and mudflow deposits from Redoubt Volcano in the Crescent River valley.  Includes several small (older?) deposits in the upper valley and a 3,500-year-old debris flow in the lower valley (F.H. Wilson, unpub. data).  The older deposits are from multiple debris flows off the west and southwest flanks Redoubt Volcano.  Oldest(?) deposit is derived from west flank of Redoubt.  Next oldest deposit appears derived from presently glaciated valley draining to the southwest off Redoubt.  These older deposits are of relatively limited extent.  They may have dammed the North Fork of the Crescent River, creating a temporary lake in the valley.  Deposits of the youngest, most extensive, and probably most fluid debris flow derived from southwest flank of Redoubt Volcano.  Flow was apparently derived from the only presently glacier-free valley draining south from Redoubt.  This debris flow has been dated at 3,500 yrs. BP (Riehle and others, 1981), young enough to possibly explain the lack of glaciers in the source valley, as all surrounding valleys have extensive glaciers and glacial deposits.  This debris flow extends to the coast of Cook Inlet and back flowed up the main fork of the Crescent River, creating Crescent Lake.  Also includes mudflow deposits in the Drift River valley draining north and east from Redoubt Volcano (Till and others, 1993) of Holocene age; many of which are historic including 1966 and later flows","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
314,Qdf,Debris-flow deposits,"Quaternary, Holocene","Volcanic debris-flow and mudflow deposits from Redoubt Volcano in the Crescent River valley.  Includes several small (older?) deposits in the upper valley and a 3,500-year-old debris flow in the lower valley (F.H. Wilson, unpub. data).  The older deposits are from multiple debris flows off the west and southwest flanks Redoubt Volcano.  Oldest(?) deposit is derived from west flank of Redoubt.  Next oldest deposit appears derived from presently glaciated valley draining to the southwest off Redoubt.  These older deposits are of relatively limited extent.  They may have dammed the North Fork of the Crescent River, creating a temporary lake in the valley.  Deposits of the youngest, most extensive, and probably most fluid debris flow derived from southwest flank of Redoubt Volcano.  Flow was apparently derived from the only presently glacier-free valley draining south from Redoubt.  This debris flow has been dated at 3,500 yrs. BP (Riehle and others, 1981), young enough to possibly explain the lack of glaciers in the source valley, as all surrounding valleys have extensive glaciers and glacial deposits.  This debris flow extends to the coast of Cook Inlet and back flowed up the main fork of the Crescent River, creating Crescent Lake.  Also includes mudflow deposits in the Drift River valley draining north and east from Redoubt Volcano (Till and others, 1993) of Holocene age; many of which are historic including 1966 and later flows","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
402,Qad,Andesite and dacite domes,"Quaternary, Pleistocene","Composite dome complex of Double Glacier Volcano consisting of medium- to coarsely porphyritic hornblende andesite and dacite.  Three K-Ar andesite whole-rock ages were determined on these domes, two are considered minimum ages at 627ñ24 and 763ñ17 ka on sample 78AR 290 and one, on sample 90AR 99, yielded 887ñ15 ka (Reed and others, 1992, Table 1 herein)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1000,Tvu,Lava flows,middle? to late? Tertiary,"A small exposure of dark-blue-gray to black, cryptocrystalline to vesicular basalt and andesite occurs on the mainland northwest of Chisik Island (Detterman and Hartsock, 1966) and is one of a number of scattered exposures in their map area.  As described, the flows are slightly altered and locally contain irregular veins of hematite and malachite in altered zones along shear planes.  The flows unconformably overlie an exposure of the Talkeetna Formation.  Detterman and Hartsock (1966) inferred the flows were of middle(?) or late(?) Tertiary age on the basis of their degree of dissection and correlation with flows in the Lake Iliamna region where they overlie sedimentary rocks of known Tertiary age","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1660,TKgd,Granodiorite,Tertiary and [or] Cretaceous,"Medium-grained, hypidiomorphic granular, seriate granodiorite.  Biotite tends to more abundant than hornblende.  Occurs in the northwest corner of the Kenai quadrangle west of the Lake Clark fault and also in the adjacent Lake Clark quadrangle (Reed and Lanphere, 1972, 1973; Magoon and others, 1976; Detterman and others, 1976).  K-Ar ages on biotite and hornblende range between 65.1ñ1.9 and 70.5ñ2.0 Ma (Reed and Lanphere, 1972; 1973; Magoon and others, 1976; Detterman and others, 1976)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2430,Kqd,Quartz diorite,Cretaceous,"Locally foliated, largely medium-grained hornblende-biotite quartz diorite, but includes hornblende-pyroxene gabbro and diorite, quartz diorite, tonalite, and minor granodiorite (Magoon and others, 1976; Nelson and others, 1983; Reed and others, 1992).  Located in the northwest part of the map area, east of the Lake Clark fault, these rocks were mapped as Tertiary or Cretaceous by Magoon and others (1976).  Biotite-hornblende ratio is quite variable although color index remains constant.  Deuteric epidote is common.  On the basis of K-Ar dates on biotite and hornblende between 67.2ñ1.9 and 74.4ñ2.2 Ma (Reed and Lanphere, 1972), they are shown as Cretaceous here (Age recalculated using constants of Steiger and Jager, 1977)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2900,KJg,Quartz monzodiorite,Cretaceous and (or) Jurassic,"Medium-gray, medium-grained, hypidiomorphic granular hornblende-biotite quartz monzodiorite containing variable amounts of clinopyroxene located in the extreme northwest part of the Kenai quadrangle.  Flow structures locally present and hornblende and plagioclase are aligned in a north-northeast direction.  Two samples from outside the map area yielded strongly discordant K-Ar biotite and hornblende ages between 58.8 and 97.5 Ma (Nelson and others, 1983).  Part of the Alaska-Aleutian Range batholith of Reed and Lanphere (1969, 1972)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3380,Jtr,"Alaska-Aleutian Range batholith,Trondhjemite",Late Jurassic,"Medium- to coarse-grained, seriate, leucocratic trondhjemite containing 10 percent muscovite and about 5 percent interstitial, perthitic potassium feldspar.  Occurs in two bodies in the Kenai quadrangle immediately west of Redoubt Volcano and in the headwaters of Big River north of Double Glacier (Reed and others, 1983).  It also comprises a large body in the central part of the batholith in the Iliamna quadrangle west of Chinitna Bay.  A single K-Ar age on muscovite from the Iliamna quadrangle was 148 Ma (Reed and Lanphere, 1972, analytical error not reported)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3404,Jg,"Alaska-Aleutian Range batholith, Quartz diorite, tonalite, and diorite",Jurassic,"Locally foliated medium-grained quartz diorite and tonalite; this is by far the dominant map unit of the Alaska-Aleutian Range batholith in this area.  Hornblende is the primary mafic mineral, biotite increases in proportion to the presence of quartz and potassium feldspar.  Detterman and Reed (1980) reported that the rocks of this unit grade to diorite but they did not observe it grading into quartz monzonite or granodiorite of their unit Jqm.  As mapped here, this unit includes that quartz monzonite unit which consists of medium-grained, pinkish light-gray quartz monzonite and whitish-gray, medium-grained, biotite granodiorite containing minor hornblende and accessory primary muscovite.  The quartz monzonite and granodiorite unit is exposed only on the eastern margin of the batholith within the map area.  Potassium-argon ages generally range from 146ñ4.3 to 183 Ma for the batholith; a number of samples yielded younger ages which were considered suspect or reset by younger plutonism.  Within the map area the maximum reported age is 174 Ma (Table 1).  Two small exposures of gabbro and diorite are included in unit","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
4310,Trdt,Quartz diorite and tonalite,Late Triassic,"In the Seldovia quadrangle, this unit includes the diorite of Point Bede and the tonalite of Dogfish Bay of Bradley and others (1999), both on the east side of Cook Inlet.  The diorite of Point Bede of Bradley and others (1999) is fine- to medium-grained nonfoliated quartz diorite that Bradley and others (1999) assumed to be of Jurassic age based on correlation with a quartz diorite pluton in the Barren Islands, just south of the Seldovia quadrangle that yielded a K-Ar hornblende age of 191ñ1.3 Ma (Cowan and Boss, 1978, age recalculated using constants of Steiger and Jager, 1977).  However, a Triassic age was recently determined on zircon from the diorite (D.C. Bradley, oral commun., 2007).  The tonalite of Dogfish Bay of Bradley and others (1999) is medium-grained nonfoliated tonalite which shows chloritic alteration similar to that found in the diorite of Point Bede and hence was assigned a Jurassic age by Bradley and others (1999); we have shown the diorite and tonalite as a single map unit to which we have assigned a Triassic age.  Bradley and others (1999) also mapped a light-gray, fine-grained to aphanitic felsite body south of the tonalite of Dogfish Bay.  This felsite is undated and is tentatively assigned a Triassic age due to its proximity and similar setting to the tonalite and diorite of this map unit.  Bradley and others (1999) suggested the felsite could be early Tertiary in age; however, no other rocks of Tertiary age are reported in this vicinity.  Kelley (1980, 1984) mapped an intrusive contact between the diorite and his informal Pogibshi formation (Jp); however, the newly determined Triassic zircon date from the diorite and the Jurassic fossils from the Pogibshi indicate that there is some error in interpretation of the available data.  Possible scenarios include an incorrectly mapped contact, a wider range of age for the Pogibshi formation of Kelley (1980), or inheritance in the zircon","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3610,Jsch,Seldovia metamorphic complex,Early Jurassic,"Marble, quartzite, garnet-mica schist, and glaucophane-bearing amphibolite whose protoliths were interpreted to consist of limestone, chert, argillite, and greenstone by Bradley and others, (1999).  This unit occurs as narrow fault slices within the Border Ranges fault zone south of Seldovia and has been correlated with the Raspberry Schist of Roeske and others (1989) to the southwest and the Schist of Liberty Creek and Schist of Iceberg Lake of Winkler and others (1981) to the northeast.  All these units preserve mineral assemblages representing blueschist facies metamorphism.  Carden and others (1977) reported a series of 10 K-Ar ages on micas (including chlorite) and amphiboles from this unit ranging from 158.3ñ8.3 to 197.1ñ11.0 Ma and Bradley and Karl (2000) reported 40Ar-39Ar plateau ages on mica of 191.1ñ0.3 and 191.7ñ0.3 Ma and on hornblende of 191.9ñ0.6 Ma.  Dating of the blueschist facies metamorphism of this metamorphic complex appears to support a pattern of decreasing age from west to east as originally suggested by Sisson and Onstott (1986)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
565,QTy,Yakataga Formation,"Quaternary, Pleistocene to Tertiary, Miocene","""Consists of diverse marine and glaciomarine clastic rocks more than 1,670-m-thick on Kayak and Wingham Island and at least an additional 1,200-m-thick on Middleton Island (Plafker and Addicott, 1976).  Much of the continental shelf between Middleton Island and Kayak Island also is underlain by the Yakataga [Formation] (Plafker and others, 1975b).  Interbedded gray to dark-gray and greenish-gray siltstone, mudstone, and sandstone predominate in lower third of formation.  Till-like diamictite is interbedded with siltstone and sandstone in all but the lowest part of the formation and is the dominant rock type in the upper part of the formation, particularly on Middleton Island.  Conglomerate is a minor lithology throughout the formation and scattered clasts-presumably dropstones-are present in all lithologies.  Sandstone and conglomerate combined constitute about 10 percent of the section on Kayak Island and about 12 percent on Middleton Island"" (Winkler and Plafker, 1993).  In most exposures the Yakataga Formation is conformable and gradational to the underlying Poul Creek Formation but in some areas there is an angular unconformity of up to 15 degrees (Plafker and Addicott, 1976).  Age control derived from abundant mollusks and foraminifers, although most are identical to living species (Winkler and Plafker, 1981; Plafker and Addicott, 1976).  Foraminifera are typical of the lower or middle Miocene Saucesian or Relizian Stages of Washington (Rau and others, 1977).  Paleomagnetic and biostratigraphic dating indicate the upper part of the formation on Middleton Island was deposited during the Matuyama reversed polarity epoch (Plafker and Addicott, 1976)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
675,Tr,Redwood Formation,"Tertiary, Pliocene to Oligocene?","Marine mudstone, siltstone, sandstone, and conglomerate (Winkler and Plafker, 1981).  ""Lower unnamed sandstone member consists of about two-thirds thick-bedded sandstone and one-third silty sandstone and siltstone.  Upper Puffy Member is more diverse and consists of about 50 percent siltstone, mudstone, and claystone, 30 percent conglomeratic mudstone and conglomerate, and 20 percent sandstone.  Characteristic conglomeratic beds show complete gradation from coarse-grained, clast-supported conglomerate to matrix-supported conglomeratic mudstone and sandstone where coarse-grained clasts are suspended in the matrix.  Siltstone, mudstone, and claystone are similar in appearance to parts of the underlying Poul Creek Formation but contain few or no concretions, no glauconitic or volcanic beds, and are sandier and more resistant to erosion"" (Winkler and Plafker, 1993).  ""The fauna and lithology of the Redwood Formation indicate deposition below wave base in cold water at depth from neritic to probably bathyal.  The well rounded character of clasts in the conglomerate indicates that the coarser clastic material was thoroughly abraded before being resedimented in the marine environment.  The sparse and poorly preserved molluscan fauna from the formation suggests a correlation with the upper Galavinian (""Lincoln"") and Matlockian (""Blakeley"") Stages of the Pacific Northwest, or a range in age from late Eocene through Oligocene (Addicott and others, 1978).  Foraminiferal control is extremely sparse, but suggests that the upper part of the formation may be as young as late Miocene (Rau and others, 1977); however, the USGS has accepted an age of late Oligocene(?) through early Pliocene for the unit Plafker (1987).  Thus, the Redwood Formation in the Don Miller Hills apparently correlates with the upper part of the Poul Creek Formation and the lower part of the Yakataga Formation exposed on Kayak and Wingham Islands"" (Winkler and Plafker, 1981)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
680,Tps,"Poul Creek Formation, Sedimentary rocks","Tertiary, early Miocene to late Eocene","""Concretionary, pyritic, glauconitic, reddish-weathering, dark-gray to greenish-gray siltstone, claystone, and sandstone; subordinate dark-brown, laminated shale that is rich in organic material, silty shale, and gray calcareous sandstone; locally includes thin interbeds of basaltic tuff"" (Winkler and Plafker, 1993).  Thickness is approximately 1,600 m (Miller, 1975).  ""Deposited in cool neritic to bathyal marine environment, mostly below wave base.  Occurrence of shales as much as 244-m-thick with high organic carbon contents (to 7.57 percent), extractable petroleum (0.8 gallons per ton), abundant glauconite, and common pyrite are suggestive of deposition in part under conditions of restricted bottom circulation.  Intercalated basaltic fragmental rocks and less common pillow basalt (map unit Tpv) indicate episodic submarine mafic volcanism in the basin (Plafker, 1974).  Mollusks indicate a range in age from late Eocene (Galvinan or ""Keasey"") through much of the Oligocene (Matlockian or ""Blakeley"") (Addicott and others, 1978).  In general, foraminifera from the same localities indicate slightly younger ages, ranging from late Eocene through early Miocene (Refugian, Zemorrian, and Saucesian Stages) (Rau and others, 1977)"" (Winkler and Plafker, 1981)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1080,Tpv,"Poul Creek Formation, Volcanic rocks","Tertiary, early Miocene to late Eocene","""Basaltic pyroclastic and flow rocks, including minor pillowed lava flows; locally interbedded with marine sedimentary rocks, including tuffaceous or glauconitic strata, probably related genetically to mafic dikes, sills, and plugs unit (Tm)"" (Winkler and Plafker, 1993).  Winkler and Plafker (1981) reported a K-Ar whole rock date of 31.2ñ1.3 Ma on a sample from the mafic dike unit (Tm) intruding unit Tps on the southeast side of Kayak Island, providing a minimum age for the unit","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
810,Tt,Tokun Formation,"Tertiary, Eocene","""Consists predominantly of concretionary siltstone and lesser, variable amount of interbedded sandstone, chiefly in lower part of formation.  Thick sandstone beds exposed near Point Hey and on Kayak and Wingham Islands presumably correlate with lower part of formation to the north but were closer to the sediment source.  Siltstone generally is medium to dark gray and nearly massive; locally, thin beds and lenses of lighter gray, brown-weathering calcareous siltstone and silty limestone are found within darker siltstone.  Spheroidal calcareous concretions as much as 1 m in maximum dimension are distributed randomly or along bedding surfaces in siltstone.  Near Bering Lake, thin beds of glauconitic sandstone are found near top of formation.  Interbedded sandstone in Tokun, which generally is lighter gray than the siltstone, is micaceous, feldspathic, and brown weathering.  Isolated, intertidal outcrops of coarse- to fine-grained, brown-weathering feldspathic sandstone on Wessels Reef, which are exposed only at low tide, may correlate with the Tokun Formation"" (Winkler and Plafker, 1993).  ""Lithology and megafauna indicate general deposition under quiet bottom conditions seaward of the surf zone in tropical to warm temperature water (Miller, 1975)"" (Winkler and Plafker, 1981).  Gradational with the underlying mostly non-marine Kulthieth Formation and has gradational to abrupt contact with the overlying Poul Creek Formation (Winkler and Plafker, 1981).  Represents a transgressive marine sequence approximately 1,070-m-thick (Winkler and Plafker, 1981).  Fossil crabs are abundant, especially in the upper part of the formation and occur intact in concretions (Winkler and Plafker, 1981).  Sparse mollusks indicate middle and upper Eocene ""Tejon"" and ""Keasey"" Stages of the Pacific Coast standard section (Addicott and others, 1978)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
860,Tkt,Kulthieth Formation,"Tertiary, Eocene","""Includes at least 1,500 m of interbedded, massive to thin-bedded, coal bearing arkosic sandstone, dark-gray to black carbonaceous siltstone and shale, and minor coal.  Sandstone to shale ratios in measured sections of the Kulthieth Formation (Martin, 1908) average about 1:1.  Sandstone varies from massive intervals as much as 150-m-thick to thin-bedded and shaly intervals.  Bituminous to semi-anthracite coal in beds as much as 3-m-thick is conspicuous, but minor part of sequence.  Commonly intensely deformed into imbricated stacks of fault-bounded chevron folds displaying shearing and structural thinning and thickening of coal beds"" (Winkler and Plafker, 1993).  ""Mostly nonmarine, with minor tongues of transitional marine strata lithologically similar to the underlying Stillwater Formation (Tsu [in their report, Tsw herein]) and overlying Tokun Formation (Tt).  Represents major progradational cycle into an otherwise marine lower Tertiary sequence"" (Winkler and Plafker, 1981).  Age control derived from widespread fossil plant collections and single mollusk collection near the top of the section (Winkler and Plafker, 1981).  Mollusk collection indicates a late Eocene (Tejon) age, whereas fossil plant collections indicate wider range from lower Ravenian (late middle Eocene) to lower Kummerian (early Oligocene) (Winkler and Plafker, 1981; Wolfe, 1977); however, the accepted age for the unit is Eocene","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
820,Tsw,Stillwater Formation,"Tertiary, Eocene","""Primarily consists of dense hard dark-gray siltstone.  Where siltstone is carbonaceous, it has a coal-like appearance; where it is calcareous, it may be variegated from reddish brown to pale green and usually contains foraminifers"" (Winkler and Plafker, 1993).  Lithology and microfauna of lower section indicate marine deposition in neritic to upper bathyal depths (Tysdal and others, 1976; Winkler and Plafker, 1981); in ""*** exposures north of the Bering River, which may constitute a higher part of the formation, ***"" lithology and megafauna indicate regressive shallow marine deposition (Winkler and Plafker, 1981).  Grades upward into the non-marine rocks of the overlying Kulthieth Formation (Miller, 1951; MacNeil and others, 1961).  ""Dominantly marine strata of the Stillwater Formation in the map area may be coeval with the nonmarine lower part of the Kulthieth Formation 65 km to the east in the Bering Glacier quadrangle (Miller, 1961; MacNeil and others, 1961)"" (Winkler and Plafker, 1981).  ""The Stillwater Formation is complexly deformed and is characterized by tight folds and shearing in incompetent strata; hence its thickness can be estimated only crudely to be at least 1,500 m (Plafker, 1971)"" as reported in Winkler and Plafker (1981).  Age control derived from poorly constrained ages of forams and mollusks.  ""According to W.W. Rau, the foraminifera indicate a range from possibly the Paleocene and early Eocene Bulitian Stage to the middle Eocene Ulatisian Stage.  The mollusks indicate a younger age, late middle or early late Eocene (F. S. MacNeil in Wolfe, 1977)"" (Winkler and Plafker, 1981)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
950,Tos,"Orca Group, Sedimentary rocks, undivided","Tertiary, early middle Eocene to late Paleocene","Thin- to thick-bedded graywacke sandstone, siltstone, mudstone, slate, and locally, minor conglomerate, which display abundant sedimentary structures, such as graded bedding, crossbedding, and ripple marks, along with flute, groove, and load casts, indicating deposition from turbidity currents (Tysdal and Case, 1979; Nelson and others, 1985).  Graywacke sandstone is more abundant than finer-grained rocks (Tysdal and Case, 1979).  Bioturbated limestone lenses and concretions are found locally, and along with conglomerate, are characteristic of sedimentary rocks belonging to the Orca Group (Moffat, 1954; Tysdal and Case, 1979; Nelson and others, 1985).  Lenticular matrix-supported conglomerate and pebbly mudstone and sandstone lenses are widespread, and contain clasts of intrabasinal and extrabasinal sedimentary rocks, felsic igneous rocks, and quartz  (Winkler and Plafker, 1993).  Thin-section petrography indicates that most of the sandstone is feldspathic to feldspatholithic (Nelson and others, 1985) and contains abundant monocrystalline quartz, indicating a plutonic provenance (Dumoulin, 1987, 1988).  Winkler and Plafker (1993) reported unit is metamorphosed to zeolite or prehnite-pumpellyite facies in the Cordova and Middleton Island quadrangles; Nelson and others (1985) reported alteration ranges from diagenetic recrystallization of the matrix to low greenschist facies metamorphism.  In the Seward and Blying Sound quadrangles, this unit also includes rocks mapped as siltstone by Tysdal and Case (1979).  Their siltstone unit is locally tightly folded and metamorphosed to slate; medium-gray and green lenses of micritic limestone as much as 2-m-thick are present locally.  At several places in the islands south of Knight Island Passage Tysdal and Case (1979) describe locally folded and contorted sequences of siltstone and isolated greenstone blocks mixed in with sandstone and siltstone within otherwise uniformly layered sections.  Tysdal and Case (1979) thought these sequences were olistostromes.  Tysdal and Case (1979) reported the same sedimentary rock types are included in their sedimentary rock-greenstone map units containing basalt sills (Togs) and pillow basalt (Tops) which are herein assigned to units Tosv and Tov, respectively.  Fossils reported by Nelson and others (1985) include:  Alnus (Alder) pollen; foraminifers: Globogerina sp., G. senni, Globogerina sp. (hispid), and Globorotalia sp.; and echinoids:  Holaster sp., ?Hypsopygaster sp., and Nucleopygus","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
952,Toc,"Orca Group, Conglomerate","Tertiary, early middle Eocene to late Paleocene","""Ranges from matrix-supported pebbly mudstone and sandstone to massive clast-supported pebble, cobble, and boulder conglomerate"" (Nelson and others, 1985).  Generally well-rounded clasts consist primarily of extrabasinal felsic volcanic and igneous rocks (felsic porphyry and tuff, granitic rocks, and white quartz); and intrabasinal sedimentary and mafic rocks (greenstone, sandstone, siltstone argillite, and limestone (Nelson and others, 1985; Winkler and Plafker, 1993; Winkler and Tysdal, 1977; Moffit, 1954).  Usually occurs as lenses 90- to 210-m-thick within flyschoid rocks; though the thickest lens, located in Miners Bay, measured 900-m-thick (Nelson and others, 1985).  Matrix-supported conglomerate and pebbly mudstone may have been formed by sub-marine landslides on unstable slopes, whereas inversely and normally graded clast-supported conglomerate beds are channel fill deposits in feeder and distributary channels (Winkler and Tysdal, 1977).  Fossils reported by Addicott and Plafker (1971, cited in Nelson and others, 1985) include a crab, Branchioplax washingtoniana, and a pelecypod, Acila decisa which suggest an age assignment of Paleocene(?) to late Eocene","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2700,Kvs,"Valdez Group, Metasedimentary rocks, undivided",Upper Cretaceous,"Dark-gray, thin- to thick-bedded, laumontite to mid-greenschist facies metamorphosed, moderately to poorly sorted sandstone, siltstone, and mudstone flysch; sandstone is fine- to coarse-grained and mainly composed of plagioclase, quartz, and igneous rock fragments (Tysdal and Case, 1979; Dumoulin, 1987).  Unit is a thick sequence of rhythmically alternating, multiply-deformed, metamorphosed sandstone-siltstone turbidites having beds generally ranging from a few centimeters to a few meters thick and locally, massive beds as much as tens of meters thick (Winkler and Plafker, 1981; Nelson and others, 1985; Winkler and Plafker, 1993; Bradley and others, 1999).  Point count analysis by Dumoulin (1987) showed Valdez Group sandstone contains between 6 to 30 percent quartz, 23 to 45 percent feldspar, and 28 to 68 percent lithic fragments; lithic fragments are dominantly volcanic rocks.  Proportion of lithic fragments decreases from west to east, as feldspar and quartz increases (Nelson and others, 1985).  Conglomeratic sandstone containing clasts of quartzite, intermediate and felsic volcanic rocks, and rare sandstone, limestone, and granitic rocks is uncommon but widely distributed, occurring at base of some sandstone beds (Bradley and others, 1999; Bradley and Miller, 2006).  In some places, primary sedimentary structures such as graded bedding, current-ripple cross-lamination, convolute bedding, and sole markings are preserved (Nelson and others, 1985; Winkler and Plafker, 1993).  Inoceramus kusiroensis, Inoceramus ulrichi, and Inoceramus concentrica of Maastrichtian or Late Cretaceous age have been reported (Tysdal and Plafker, 1978; Tysdal and Case, 1979; Nelson and others, 1985; Bradley and others, 1999).  A K-Ar date on biotite semischist of 51.5ñ1.5 Ma was reported by Nelson and others (1985).  D.C. Bradley (USGS, oral commun., 2007) reported 70 Ma detrital zircons from unit near Anchorage","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2702,Kvvs,"Valdez Group, Interbedded metavolcanic and metasedimentary rocks",Upper Cretaceous,"Approximately equal portions of interbedded metavolcanic and metasedimentary rocks (Winkler and Plafker, 1981; Nelson and others, 1985; Winkler and Plafker, 1993).  Metavolcanic rocks include semischistose volcanic breccia, tuff, tuffaceous sediment, and minor pillow basalt; metasedimentary rocks include slate and phyllite, although metamorphosed sandstone, siltstone, and chert are interbedded in many places (Winkler and Plafker, 1981; Nelson and others, 1985; Winkler and Plafker, 1993).  Unit crops out in two locations; in the north central Cordova quadrangle, and on the east side of the Resurrection Peninsula in the Seward quadrangle.  Winkler and Plafker (1993) report unit tends to be  ""variably metamorphosed regionally from zeolite to lower greenschist facies, although near Cordova, Woodworth, and Schwan Glaciers rocks are transitional to amphibolite facies""","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2705,Kvv,"Valdez Group, Metavolcanic rocks, undivided",Upper Cretaceous,"Tholeiitic metabasalt, massive greenstone, and basaltic metatuff, including local pillow lava, pillow breccia, and gabbroic dikes and sills (Winkler and Plafker, 1993) in the Cordova quadrangle.  Metabasalt forms rugged, nearly massive outcrops, whereas semischistose metatuff forms more subdued outcrops (Winkler and Plafker, 1993)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2706,Kvt,"Valdez Group, Aquagene tuff",Upper Cretaceous,"Metamorphosed aquagene tuff is green to dark-gray, fine-grained, and finely laminated containing plagioclase phenocrysts; metamorphosed to chlorite and biotite zones of greenschist facies; chlorite, epidote, and locally, actinolite are abundant; remnants of glossy shards are present (Tysdal and others, 1977; Tysdal and Case, 1979).  Whole rock age for metatuff on Fox Island of 54.4 ñ2.7 Ma was interpreted by Miller (1984) as possibly reset during a thermal event; alternatively, the metatuff on Fox Island (formerly Renard) is closely associated with the ophiolitic rocks of the Resurrection Peninsula, now considered to be of Eocene age.  In any case, a whole-rock age determination on a metamorphosed rock must be considered suspect","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2710,Kvgs,"Valdez Group, Schist",Upper Cretaceous,"In the Valdez Group, schistose metamorphic rocks are found in two general modes of occurrence.  In the Cordova quadrangle, Winkler and Plafker (1993) describe a ""chiefly homogenous pelitic schist and minor amphibolite; [unit which] also includes spotted biotite-plagioclase-quartz (ñmuscovite) schist containing porphyroblasts of cordierite, andalusite, garnet, and staurolite in several places.  Common banding probably represents original layering inherited from protoliths; transitional into gneissose rocks to the east and into greenschist-facies rocks of the metasedimentary rocks unit (Kvs) to the west.""  In contrast with these rocks, in the Seward and Blying Sound quadrangles, Tysdal and Case (1979) describe a schist unit as consisting ""interbedded siltstone, graywacke, and less abundant tuff, tuffaceous sandstone, and basalt (pillow basalt?) ***.""  These rocks are primarily localized on the west side of the Placer River fault and ""*** metamorphosed chiefly to biotite zone of greenschist facies, but locally to chlorite zone; typical metamorphic-mineral assemblages of biotite zone are biotite-muscovite-chlorite-quartz-epidote-calcite-albite ***"" (Tysdal and Case, 1979).  Nelson and others (1985) chose to not distinguish the schistose rocks mapped by Tysdal and Case (1979) as a distinct map unit because they reported them to be only semi-schistose and interlayered with rocks that have no penetrative deformation; Nelson and others (1985) reported that rocks such as these were common throughout the Valdez Group, especially near faults and in areas of finer-grained sedimentary protolith.  However, we have retained the belt of schistose rocks along the Placer River fault by Tysdal and Case (1979), which they reported as being conspicuously schistose and the only extensive area of schistose rocks in their map area.  Nelson and others (1985) reported other areas of schistose rocks are common in the Valdez Group, yet none been distinguished on maps to date except for areas on Fox [Renard] Island and the Resurrection Peninsula by Tysdal and Case (1979); the Resurrection Peninsula occurrence is included in map unit Kvs here, following the mapping of Bradley and Miller (2006)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2715,Kvgg,"Valdez Group, Gniess",Upper Cretaceous,"""Muscovite-biotite-quartz-plagioclase (ñ sillimanite and garnet) schist, banded gneiss, and migmatitic gneiss; potassium-feldspar-bearing segregations in migmatite; many local intrusive stringers, dikes, and sills of granodiorite and granite; transitional into schistose rocks to the north, south, and west"" (Winkler and Plafker, 1993).  Nelson and others (1985) describe the unit as a paragneiss of ""predominantly metasedimentary rocks with well-developed gneissic foliation consisting of alternating quartz and feldspar-rich layers with biotite-rich layers.  *** Locally some layers in the paragneiss contain 1-in.-long [2.5 cm] porphyroblasts of andalusite.""  Unit contains as much as 10 percent cream colored or light-gray, coarse-grained orthogneiss that locally grades into normal textured granitic rocks containing abundant inclusions of country rock (Nelson and others, 1985).  Metamorphic grade ranges from middle to upper amphibolite facies (T.L. Pavlis and V.B. Sisson, written commun., 2002).  Hornblende and biotite ages of 51.5ñ2 and 46.7ñ respectively were reported by Hudson and others (1979).  Unit is a gneissic equivalent of the Valdez Group found along the Wernicke Glacier","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2708,Kvm,"Valdez Group, M‚lange of Iceworm Peak of Kusky and others (1997)",Upper Cretaceous,"Tectonic m‚lange consisting of blocks of graywacke in a phacoidally cleaved matrix of slate having a Valdez Group protolith for both matrix and blocks (Bradley and others, 1999; Bradley and Wilson, 2000).  Mapped only in the Seldovia and Kenai quadrangles but may be more extensive along the McHugh Complex and Valdez Group contact (Kusky and others, 1997).  Intruded by Paleocene dikes (Kusky and others, 1997) not shown here","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2190,KMm,McHugh Complex,Cretaceous to Mississippian,"""M‚lange of siltstone, sandstone, mud-chip sandstone, conglomeratic sandstone, tuff, and less abundant gabbro, serpentinite, bedded chert, and pillow basalt; fine-grained sedimentary strata commonly streaked out; sedimentary and igneous rocks are broken and discontinuous; metamorphic minerals include muscovite, epidote, calcite, chlorite, albite, and veinlets of prehnite"" (Tysdal and Case, 1979).  Paraphrasing Clark (1981), the McHugh Complex is a heterogeneous, chaotic assemblage that includes metamorphosed clastic and volcanic rocks of diverse ages.  Clastic rocks, which are the most abundant, comprise thick, fault-bounded sequences of weakly metamorphosed graywacke, arkose, siltstone, and conglomeratic sandstone.  Bedding is rarely seen and commonly discontinuous.  Volcanic rocks in the McHugh Complex, also in fault-bounded sequences, are greenstone, mostly of basaltic composition, and are associated with radiolarian metachert, metasiltstone, and argillite.  Clark (1981) thought the volcanic rocks represent oceanic crust and that the clastic sedimentary rocks were deposited in an oceanic trench.  Sedimentary rocks of the matrix of the m‚lange have yielded Early Cretaceous (Valanginian) fossils, whereas protolith ages on blocks in the m‚lange have yielded radiolarians of Cretaceous (Albian-Aptian), Jurassic, and Triassic age (Bradley and others, 1999; Winkler and others, 1981), Permian conodonts and fusilinids (Bradley and others, 1999), and Mississippian to Pennsylvanian conodonts (Nelson and others, 1986).  D.C. Bradley (USGS, oral commun., 2007) reported 70 Ma detrital zircons from metasandstone within the McHugh Complex collected along Turnagain Arm in the Anchorage quadrangle to the north of the map area.  Bradley and others (1999) locally subdivided the McHugh Complex into distinct lithologic packages","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2198,KJms,"McHugh Complex, graywacke and conglomerate","Early Cretaceous to Early Jurassic, Pliensbachian","Consists of fault-bounded blocks of massive conglomerate and graywacke that range up to several kilometers in structural thickness (Bradley and others, 1999).  Bradley and others (1999) reported that deformation has generally obliterated primary sedimentary features; they interpreted the conglomerate and massive graywacke to be of turbiditic origin and locally noted the presence of thin- and medium-bedded turbiditic graywacke.  Graywacke is matrix-supported, poorly sorted, and has clasts consisting primarily of chert and volcanic rock fragments (Bradley and others, 1999).  Bradley and others (1999) reported Pliensbachian radiolaria in conformably underlying ribbon chert at one locality and considered this McHugh Complex unit to range in age regionally from Early Jurassic, Pliensbachian to as young as Early Cretaceous","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2199,KTrmc,"McHugh Complex, basalt and chert","Early Cretaceous, Albian to Middle Triassic, Ladinian","""Pillow and massive basalt, depositionally overlain by complexly folded and faulted radiolarian chert"" (Bradley and others, 1999).  Bradley and others (1999, citing a C.D. Blome, USGS written commun. of 1994) reported radiolaria in bedded chert ranging in age from Middle Triassic, Ladinian to Early Cretaceous, Albian","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
4880,Mzg,"McHugh Complex, Gabbro",Mesozoic,"Dark-green, medium- to coarse-grained gabbro and minor leucogabbro and plagiogranite (Bradley and others, 1999).  Occurs as fault-bounded bodies in the McHugh Complex; following Bradley and others (1999), only the larger bodies are shown here; others are too small to map.  Associated with McHugh Complex basalt and chert unit (K^mc), which Bradley and others (1999) suggested may indicate a genetic relationship and therefore they thought may indicate a Triassic to mid-Cretaceous age.  However, they assigned an undifferentiated Mesozoic age to the unit.  Bradley and Karl (2000) reported a concordant U-Pb zircon age of 227.7ñ0.6 Ma from this unit","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
4890,Mzu,"McHugh Complex, Ultramafic plutonic rocks",Mesozoic,"Predominantly layered, variably serpentinized dunite containing rare to locally abundant layers of chromite and pyroxenite and fault slices of garnet pyroxenite and serpentinite (Bradley and others, 1999).  Bradley and others (1999) reported at least 7 fault-bounded bodies, all associated with the McHugh Complex.  Most bodies are bounded by low angle thrust faults.  This was originally suggested for the Red Mountain body, but as discussed in Bradley and others (1999), it is not a klippe as interpreted by Magoon and others (1976), but rather is bounded by late stage, sub-vertical faults.  However, Bradley and others (1999) did suggest a thrust may bound the Red Mountain body at depth.  They also inferred that the gabbro (}g) and ultramafic rocks, while not spatially associated are comagmatic and therefore by extension may be of Triassic to mid-Cretaceous age; nonetheless, they assigned a Mesozoic to these rocks","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1053,Tdc,Dacite of Cape Saint Elias,"Tertiary, Pliocene or Miocene","Described by Winkler and Plafker (1993) as follows:  ""Prominent very pale gray dacite plug complex that forms Cape Saint Elias and Pinnacle Rock at the southwestern end of Kayak Island (Plafker, 1974).  Dacite is very dense and hard and is conspicuously jointed.  Unit has a microgranitic and porphyritic texture and consists of about 35 percent plagioclase, 35 percent quartz, 25 percent orthoclase, and 5 percent relict brown hornblende and biotite.  Unit has sharp, nearly vertical contacts with adjacent dark-gray argillaceous rocks of the Yakataga and Poul Creek Formations, which are metamorphosed to dark hornfels for at least 100 m around the intrusion.  Intrudes lower part of Yakataga Formation (unit QTy) and, therefore, must be at least as young as late Miocene and more likely Pliocene because unit was emplaced after enclosing strata were deformed.""  A whole-rock K-Ar age of 6.2ñ0.3 Ma (Table 1, herein) was reported by Nelson and others (1985)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1090,Tm,Mafic plugs,"Tertiary, Oligocene?","Strongly altered dikes, sills, and plugs of diabase, alkalic basalt, olivine basalt, and lamprophyre, mostly on or near Kayak Island.  Winkler and Plafker (1993) suggested these hypabyssal rocks were probably genetically related to extrusive volcanic rocks in the Poul Creek Formation (Tpv).  Winkler and Plafker (1981) described these rocks as coarse-grained and diabasic in the plugs west of the Nichawak Hills and fine-grained and glassy elsewhere.  The two plugs immediately west of the Nichawak Hills are diabasic, containing 45 percent euhedral plagioclase intergrown with 30 percent anhedral augite and enstatite, 5 percent opaque minerals and 20 percent secondary chlorite.  An isolated plug east of Ragged Mountain is nepheline syenite.  Lithologic associations and cross-cutting relationships suggest an Oligocene age; nowhere do they intrude rocks younger than the upper part of the Poul Creek Formation (Winkler and Plafker, 1981).  K-Ar whole rock date of a mafic dike on Kayak Island was 31.2ñ1.3 Ma (Winkler and Plafker, 1981)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1270,Tg,Granitic rocks,"Tertiary, Oligocene? and latest Eocene","Plutons in the Seward quadrangle are dominantly light-gray, medium- to coarse-grained biotite ñhornblende granodiorite and granite stocks; larger stocks commonly grade inward from marginal zones containing more biotite (and locally hornblende) to more leucocratic zones; large areas of intrusions are porphyritic and contain orthoclase phenocrysts in a medium-grained groundmass; plagioclase ranges from oligoclase to andesine in composition, and biotite constitutes between 5 and 15 percent (Tysdal and Case, 1979).  Also includes the Cedar Bay granite of Tysdal and Case (1979), a light-gray and pink medium- and coarse-grained muscovite (ñbiotite) granite; plagioclase ranges from oligoclase to andesine in composition, and biotite is commonly less than 1 percent.  Hypidiomorphic-granular texture is most common, but equigranular as well as porphyritic varieties also exist.  Primary biotite is the most abundant mafic mineral and is sometimes accompanied by hornblende.  Towards the pluton margins, however, hornblende commonly dominates over biotite (Nelson and others, 1985).  K-Ar dates on biotite and hornblende range from 34.2ñ1.7 to 37.1ñ1 Ma (Tysdal and Case, 1979; Nelson and others, 1985; ages recalculated using constants of Steiger and Jager, 1977).  40Ar/39Ar ages were 29.2ñ0.1 and 31.7ñ0.1 on potassium feldspar; however these dates are inherently suspect as potassium feldspar is not generally considered suitable for dating emplacement of plutonic rocks","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1294,Tgd,Gabbro and diorite,"Tertiary, Oligocene and older","Dominantly, dark-gray medium- to coarse-grained gabbro and subordinate diorite, both having finer grained borders of quartz gabbro and quartz diorite (Tysdal and Case, 1979; Nelson and others, 1985).  Gabbro generally composed of subequal amounts of labradorite and clinopyroxene; locally contains olivine on Esther Island; pyroxene largely altered to hornblende north of Paddy Bay (Tysdal and Case, 1979).  Texturally, the rocks are mostly subophitic; however, some are hypidiomorphic- to allotriomorphic-granular and a few are porphyritic (Nelson and others, 1985).  Rocks of this unit are considered to be an early mafic phase associated with granitic plutons of the granitic rocks unit (Tg).  A K-Ar date on biotite of 37.6ñ1.0 Ma (age recalculated using constants of Steiger and Jager, 1977), was originally assigned to the Granite of Passage Canal by Tysdal and Case (1979); Nelson and others (1985) assigned the sample locality to this map unit although the reported rock type for the date was granodiorite.  Grant and Higgins (1910) and Tysdal and Case (1979) suggested, and Nelson and others (1985) supported, a genetic and chronological relation of these mafic rocks to the granitic rocks unit (Tg)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1300,Tgg,Granite and granodiorite,"Tertiary, Eocene","Generally medium- and medium- to coarse-grained hypidiomorphic-granular biotite granite having border phases of biotite-hornblende granite, granodiorite, and tonalite (Nelson and others, 1985) located in the Cordova quadrangle.  Also includes uncommon dacite (George Plafker, written commun., 1985) Mafic mineral content varies with composition, as a result the color index of the granite ranges from 5 to 10, the granodiorite color index ranges from 10 to 20, and the tonalite color index ranges from 15 to 35.  In the Cordova quadrangle, plutons also include biotite-muscovite ñgarnet tonalite and trondhjemite (T.L. Pavlis and V.B. Sisson, written commun., 2002).  These Cordova area plutons include strongly foliated and lineated plutons, weakly foliated, syn-deformation plutons, and nonfoliated, post-deformation plutons (T.L. Pavlis and V.B. Sisson, 2002, written commun.).  K-Ar and 40Ar/39Ar ages range from 47.23 Ma on dacite to 53.5ñ1.6 Ma on hornblende from a sample reported only as granitic rock; a U-Pb monazite age on a sill located near Van Cleve glacier was about 54 Ma (Poole, 1996).  U-Pb analyses of zircon from this sill were unsuccessful due to inheritance and lead loss (J.N. Aleinikoff, USGS, written commun., 2007).  Also included in this unit is a small pluton in the northern part of the Seward quadrangle on the west side of Port Wells.  Surrounded by plutons assigned to unit Tg, this small pluton is most appropriately assigned to this map unit (Tgg) on the basis of reported age (56ñ1 Ma, listed in Table 1 for the Granite Mine in the section on hydrothermal alteration dates).  Other small plutons having similar, but slightly younger ages, occur to the north in the adjacent Anchorage quadrangle","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1310,Tgg,Granite and granodiorite,"Tertiary, Eocene","Generally medium- and medium- to coarse-grained hypidiomorphic-granular biotite granite having border phases of biotite-hornblende granite, granodiorite, and tonalite (Nelson and others, 1985) located in the Cordova quadrangle.  Also includes uncommon dacite (George Plafker, written commun., 1985) Mafic mineral content varies with composition, as a result the color index of the granite ranges from 5 to 10, the granodiorite color index ranges from 10 to 20, and the tonalite color index ranges from 15 to 35.  In the Cordova quadrangle, plutons also include biotite-muscovite ñgarnet tonalite and trondhjemite (T.L. Pavlis and V.B. Sisson, written commun., 2002).  These Cordova area plutons include strongly foliated and lineated plutons, weakly foliated, syn-deformation plutons, and nonfoliated, post-deformation plutons (T.L. Pavlis and V.B. Sisson, 2002, written commun.).  K-Ar and 40Ar/39Ar ages range from 47.23 Ma on dacite to 53.5ñ1.6 Ma on hornblende from a sample reported only as granitic rock; a U-Pb monazite age on a sill located near Van Cleve glacier was about 54 Ma (Poole, 1996).  U-Pb analyses of zircon from this sill were unsuccessful due to inheritance and lead loss (J.N. Aleinikoff, USGS, written commun., 2007).  Also included in this unit is a small pluton in the northern part of the Seward quadrangle on the west side of Port Wells.  Surrounded by plutons assigned to unit Tg, this small pluton is most appropriately assigned to this map unit (Tgg) on the basis of reported age (56ñ1 Ma, listed in Table 1 for the Granite Mine in the section on hydrothermal alteration dates).  Other small plutons having similar, but slightly younger ages, occur to the north in the adjacent Anchorage quadrangle","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1320,Tgh,Granitic rocks of Harding Icefield region,"Tertiary, Eocene and Paleocene","Primarily ""medium- to dark-gray foliated medium- to coarse-grained biotite-muscovite-(hornblende) granite and granodiorite; marginal phases are locally biotite-muscovite-(hornblende) tonalite"" (Tysdal and Case, 1979).  Consists of a large batholith extending from Nuka and Aialik Bays and offshore islands northward more than 60 km into the Harding Icefield where it is exposed in many nunataks and westward into the Seldovia quadrangle around Harris Bay; ""*** mafic minerals, almost wholly biotite, constitute 20 to 30 percent of minerals in tonalitic rocks, 15 to 20 percent of granodiorite, and 5 to 10 percent of granite; muscovite, a late but primary mineral, commonly makes up less than 2 percent"" (Tysdal and Case, 1979).  Unit includes the Nuka, Aialik, and Tustumena plutons, as well as the Chernof stock of Bradley and others (1999).  A K-Ar date from a sample collected at Aialik Cape yielded 61.0ñ1.8 Ma on biotite and 56.0ñ1.6 Ma on muscovite (Tysdal and Case, 1979, ages recalculated using constants of Steiger and Jager, 1977), whereas a sample of the Aialik pluton from Harris Bay yielded a weighted mean 40Ar/39Ar age of 52.2ñ0.9 Ma (Bradley and others, 2000) and the Paguna stock of Bradley and others (1999) yielded a 40Ar/39Ar plateau age of 53.4ñ1.5 Ma.  The apparent large size of the pluton and wide ranging age determinations, from 52.2 to 61.0 Ma, which overlap that of unit Tgg, suggest these rocks are part of a multiphase batholith rather than a single pluton.  Lytwyn and others (2000) described a suite of dikes (part of map unit TKd, herein) that they associated with the same ridge subduction related system thought responsible for these plutons","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1135,Tov,"Ophiolitic rocks of Prince William Sound, Volcanic rocks, undivided","Tertiary, Eocene","""Thick and thin tabular bodies of altered tholeiitic basalt consist of pillowed, massive, or crudely columnar flows, but also include pillow breccia, aquagene tuff, and diabase or gabbro sills; pillows have chilled margins that are palagonitic and amygdaloidal.  Minor mudstone and siltstone that have interbedded basalt are included locally.  Commonly contains green, gray, or red chert in interstices between pillows, rarely includes interpillow clots of pink limestone or black mudstone.  ***  Metamorphosed to zeolite or prehnite-pumpellyite facies"" (Winkler and Plafker, 1993).  Also includes areas mapped as greenstone that were probably pillow basalt, basaltic tuff, and sills (Tysdal and Case, 1979, unit Tog; Nelson and others, 1985, unit Tov).  May be equivalent in part to units Top, Tovs, and Tod.  Locally subdivided","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1136,Tov,"Ophiolitic rocks of Prince William Sound, Pillow basalt","Tertiary, Eocene","""Pale- to dark-green aphyric to porphyritic, frequently amygdaloidal, pillow basalt composed of plagioclase and clinopyroxene; plagioclase commonly replaced by albite and epidote, and clinopyroxene by hornblende, actinolite, and(or) chlorite; vesicles mostly filled with chlorite; pillow basalt in some areas is interlayered with subordinate pillow breccia and tuff"" (Tysdal and Case, 1979).  Discrete pillows average 2 ft [50 cm] in diameter on the Resurrection Peninsula and average about 1 m where they were mapped in the Orca Group by Nelson and others (1985) and are metamorphosed to as high as low greenschist facies (Nelson and others, 1985).  The pillows have fractured surfaces, chilled margins, palagonitic coatings, and cracks that radiate outward from pillow centers, indicating rapid cooling (Tysdal and others, 1977; Tysdal and Case, 1979).  Altered brown-colored volcanic glass makes up much of the matrix, especially in the outer parts of pillows (Nelson and others, 1985).  Inter-pillow material consists of extrusive breccia, agglomerate, and hyaloclastite; and locally, thin sequences of siliceous mudstone and argillite, sandstone, and carbonate rocks, and minor red, green, and gray chert (Capps, 1915; Tysdal and others, 1977; Tysdal and Case, 1979; Miller, 1984; Nelson and others, 1985).  Interbedded sedimentary layers locally display crossbedding and graded beds (Tysdal and others, 1977; Tysdal and Case, 1979).  ""Pillow basalt and lesser massive basalt and broken pillow breccia make up most of the western flank of the mafic complex on the Resurrection Peninsula"" (Nelson and others, 1985; Tysdal and Case, 1979) where flows dip westward roughly 30? and are as much as 1000-m-thick (Tysdal and others, 1977).  Flows dip west on the west side of Knight Island and eastward on the east side of the island and are more than 5000-m-thick (Tysdal and others, 1977).  This unit is gradational into and cut by sheeted dikes of unit Tod over a wide zone on Glacier and Knight Islands and interbedded with volcanic and sedimentary rocks of unit Tovs in eastern Prince William Sound (Nelson and others, 1985; Tysdal and Case, 1979)","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
951,Tovs,"Ophiolitic rocks of Prince William Sound, Volcanic and sedimentary rocks","Tertiary, Eocene","Consists of locally variable amounts of tholeiitic basalt, and tuffaceous and generally minor turbiditic sedimentary rocks (Winkler and Plafker, 1993; Nelson and others, 1985; Tysdal and others, 1976).  The lithology is quite variable throughout the study area.  ""Basalt consists of pillowed and massive flows, pillow breccia, and tuff.  Turbidites, in most places, are mudstone, siltstone, and fossiliferous volcanogenic sandstone; in a few places nonvolcanogenic sandstone is interbedded"" (Winkler and Plafker, 1993).  ""In the Ragged Mountains of the Cordova quadrangle, volcaniclastic and tuffaceous sedimentary rocks are abundant, and pillow basalt is rare"" (Nelson and others, 1985, Tysdal and others, 1976).  In this area the lower part of unit is interlayered with abundant aquagene tuff, tuff breccia, and calcareous sandstone containing shells (Tysdal and others, 1976).  Another variation of the unit is found north of the Martin River where Nelson and others (1985) mapped a unit, Tots, consisting of tuffaceous sedimentary rocks, volcaniclastic sandstone, and minor chert.  The majority of the Tots unit is found south of the Martin fault where minor pillow basalt and abundant volcanic breccia is included with the sedimentary rocks of the unit and the ""rocks are altered to a bright orange-weathering gossan *** intruded by numerous porphyritic dikes for a distance of 10 mi along the south side of the Martin fault"" (Nelson and others, 1985).  As shown here, in the vicinity of Knight Island, this map unit is composed as much as 92 percent volcanic rocks; in this area these were mapped by Tysdal and Case (1979) as a pillow basalt and sedimentary rocks unit (Tops) and a greenstone and sedimentary rocks unit (Togs) and by Nelson and others (1985) as a pillow basalt and sedimentary rocks unit (Tops).  Nelson and others (1985) distinguished this pillow basalt and sedimentary rocks unit from a separately mapped interbedded sedimentary and mafic volcanic rocks unit (Tosv) on the basis of the predominance of pillow basalt in the section; however we have combined the units herein.  Locally, this combined unit is marginal to and probably gradational to thicker sequences composed of pillowed and massive basalt flows (Top).  Nelson and others (1985) reported a number of varieties of foraminifers of Paleocene to late middle Eocene age from this unit in the Seward and Cordova quadrangles and north of the Martin River the tuffaceous sedimentary rocks of this unit contain locally abundant radiolarians and diatoms of late Paleocene to Eocene age (Tysdal and others, 1976; Nelson and others, 1985).  A 47.6ñ1.4 Ma K-Ar hornblende age from a greenschist sample (Table 1, sample number 71Apr 23A, Winkler and Plafker, 1981; George Plafker field notebook, 1971; Nelson and others, 1985) collected from the head of Port Fidalgo in the Cordova quadrangle was originally assigned to the Valdez Group by Winkler and Plafker (1981) and Nelson and others (1985); however, Winkler and Plafker (1993) reassigned rocks in the vicinity of this sample to the Orca Group, which at face value would constrain the age of this unit to no younger than early Eocene","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
953,Tovs,"Ophiolitic rocks of Prince William Sound, Volcanic and sedimentary rocks","Tertiary, Eocene","Consists of locally variable amounts of tholeiitic basalt, and tuffaceous and generally minor turbiditic sedimentary rocks (Winkler and Plafker, 1993; Nelson and others, 1985; Tysdal and others, 1976).  The lithology is quite variable throughout the study area.  ""Basalt consists of pillowed and massive flows, pillow breccia, and tuff.  Turbidites, in most places, are mudstone, siltstone, and fossiliferous volcanogenic sandstone; in a few places nonvolcanogenic sandstone is interbedded"" (Winkler and Plafker, 1993).  ""In the Ragged Mountains of the Cordova quadrangle, volcaniclastic and tuffaceous sedimentary rocks are abundant, and pillow basalt is rare"" (Nelson and others, 1985, Tysdal and others, 1976).  In this area the lower part of unit is interlayered with abundant aquagene tuff, tuff breccia, and calcareous sandstone containing shells (Tysdal and others, 1976).  Another variation of the unit is found north of the Martin River where Nelson and others (1985) mapped a unit, Tots, consisting of tuffaceous sedimentary rocks, volcaniclastic sandstone, and minor chert.  The majority of the Tots unit is found south of the Martin fault where minor pillow basalt and abundant volcanic breccia is included with the sedimentary rocks of the unit and the ""rocks are altered to a bright orange-weathering gossan *** intruded by numerous porphyritic dikes for a distance of 10 mi along the south side of the Martin fault"" (Nelson and others, 1985).  As shown here, in the vicinity of Knight Island, this map unit is composed as much as 92 percent volcanic rocks; in this area these were mapped by Tysdal and Case (1979) as a pillow basalt and sedimentary rocks unit (Tops) and a greenstone and sedimentary rocks unit (Togs) and by Nelson and others (1985) as a pillow basalt and sedimentary rocks unit (Tops).  Nelson and others (1985) distinguished this pillow basalt and sedimentary rocks unit from a separately mapped interbedded sedimentary and mafic volcanic rocks unit (Tosv) on the basis of the predominance of pillow basalt in the section; however we have combined the units herein.  Locally, this combined unit is marginal to and probably gradational to thicker sequences composed of pillowed and massive basalt flows (Top).  Nelson and others (1985) reported a number of varieties of foraminifers of Paleocene to late middle Eocene age from this unit in the Seward and Cordova quadrangles and north of the Martin River the tuffaceous sedimentary rocks of this unit contain locally abundant radiolarians and diatoms of late Paleocene to Eocene age (Tysdal and others, 1976; Nelson and others, 1985).  A 47.6ñ1.4 Ma K-Ar hornblende age from a greenschist sample (Table 1, sample number 71Apr 23A, Winkler and Plafker, 1981; George Plafker field notebook, 1971; Nelson and others, 1985) collected from the head of Port Fidalgo in the Cordova quadrangle was originally assigned to the Valdez Group by Winkler and Plafker (1981) and Nelson and others (1985); however, Winkler and Plafker (1993) reassigned rocks in the vicinity of this sample to the Orca Group, which at face value would constrain the age of this unit to no younger than early Eocene","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1137,Tod,"Ophiolitic rocks of Prince William Sound, Sheeted basalt dikes","Tertiary, Eocene","Mafic sheeted-dike complexes consisting of dark-green, gray, and brown, aphanitic to porphyritic; chiefly basaltic, but locally gabbroic to dioritic, dikes (Tysdal and others, 1977; Tysdal and Case, 1979).  In the Knight Island area, felsic plagioclase-quartz dikes occur locally and plagioclase-clinopyroxene-olivine dikes are present but not common (Tysdal and Case, 1979).  On the Resurrection Peninsula, olivine is present in a few dikes (Tysdal and Case, 1979).  The dikes are commonly 1- to 2-m-thick, vertical or nearly so, and generally strike north (Tysdal and others, 1977; Tysdal and Case, 1979).  The dikes contain greenschist facies mineral assemblages ascribed to ocean-floor metamorphism by Bradley and Miller (2006); according to Tysdal and Case (1979), plagioclase replaced by albite, clinopyroxene by hornblende and actinolite, and olivine partly altered to serpentine.  The dikes crosscut one another, intrude the adjacent pillow basalt (map unit Top), and on Knight Island, locally intrude sedimentary rocks of the Orca Group (Tysdal and others, 1977).  Double- and single-sided chilled margins were observed on the dikes, indicating a spreading center setting (Bradley and Miller, 2006; Tysdal and Case, 1979).  Pillow basalt screens are common in the up to 2000 m wide transition zone between the pillow basalt and sheeted dike units (Top and Tod) (Tysdal and others, 1977; Tysdal and Case, 1979; Miller, 1984; and Bradley and Miller, 2006).  Xenoliths of gabbro and peridotite are present locally on Knight Island (Richter, 1965; Nelson and others, 1985).  Small irregular pods, veins, and dikes of plagiogranite are also present in the dike complex north of Bay of Isles on Knight Island (Nelson and others, 1985).  The dikes are intruded by and also intrude the gabbro in the transition zone between the gabbro and sheeted dike units (Togb and Tod) (Tysdal and Case, 1979; Tysdal and others, 1977).  The dikes make up the topographically high and rugged cores of the Resurrection Peninsula, Knight Island, and Glacier Island (Tysdal and others, 1977).  Whole rock K-Ar ages on greenstone reported by Miller (1984) are 35.0ñ1.3 Ma and 38.8ñ1.9 Ma on Knight Island; and 49.6ñ2.5 Ma, 45.7ñ2.3 Ma, and 47.3ñ2.4 Ma on the Resurrection Peninsula.  Miller (1984) interpreted these ages as representing minimum ages for accretion due to heating during the event that caused argon loss","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1374,Togb,"Ophiolitic rocks of Prince William Sound, Gabbro","Tertiary, Eocene","""Medium- and dark-gray to green coarse-grained chiefly clinopyroxene-plagioclase rocks with ophitic to subophitic texture and gabbroic to dioritic composition; locally pegmatitic with clinopyroxene crystals as much as 5 cm long; clinopyroxene commonly is partly replaced by uralitic amphibole and chlorite; plagioclase is partly replaced by albite; epidote and minor opaque minerals are common"" (Tysdal and Case, 1979).  Several small intrusive bodies of gabbro occur on Knight Island, the largest of which crops out east of Drier Bay, where it intrudes sheeted dikes (Nelson and others, 1985).  Other gabbro bodies are too small to show at the scale of this map, but most are elongate parallel to the trend of the sheeted dikes.  At the north end of Latouche Island a 30-m-wide exposure of gabbro intrudes slate and sandstone and is itself cut by several small gabbro-pegmatite dikes (Grant and Higgins, 1910, p. 49-50; Tysdal and Case, 1979; Nelson and others, 1985).  On the Resurrection Peninsula, Miller (1984) described local occurrences of west dipping magmatic mineral layering and cumulate textures within the gabbro.  Dikes and plugs of fine- to medium-grained plagiogranite are also present (Miller, 1984; Bradley and Miller, 2006), the largest of which crop out northwest of the head of Drier Bay on Knight Island and south side of Killer Bay on the Resurrection Peninsula (Tysdal and Case, 1979; Miller, 1984).  The gabbro grades into the sheeted dike map unit (Tod herein) and is generally elongate and parallel to the sheeted dikes, but it also crosscuts the dikes locally (Tysdal and Case, 1979; Miller, 1984).  Tysdal and Case (1979) state that on the Resurrection Peninsula, ""The gabbro intrudes slate and sandstone of the Valdez Group, crosscuts the bedding, and forms aphanitic sills in other places.  A blue-gray and whitish thermal aureole, at least 200 m wide, marks the contact zone with the sedimentary rocks.""  Nelson and others (1985) and Bradley and Miller (2006) instead interpreted the contacts between the gabbro and Valdez metasedimentary rocks on the Resurrection Peninsula as faults.  On Knight Island, the gabbro intrudes rocks of the Orca Group.  Nelson and others (1989) reported a 57 Ma U-Pb zircon age on a plagiogranite intruding the gabbro on the Resurrection Peninsula","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1375,Tou,"Ophiolitic rocks of Prince William Sound, Ultramafic rocks","Tertiary, Eocene","""Dunite, locally with layers of chromite, moderately to mostly altered to serpentine, serpentine-talc, and talc schist; lustrous pale- to dark-green and black, locally reddish weathering rock that forms dike-like and irregularly shaped intrusive bodies"" (Tysdal and Case, 1979) on the Resurrection Peninsula.  ""In most places enough relict texture and mineralogy remains to recognize original clinopyroxenite, dunite, and harzburgite"" (Miller, 1984).  Unit occurs as small pods in gabbro and fault-bounded slices within Valdez Group metasedimentary rocks (Miller, 1984; Nelson and others, 1985).  On Knight Island, xenoliths of peridotite in sheeted dikes were observed by Richter (1965) but not by subsequent workers (Tysdal and Case, 1979; Nelson and others (1985).  However, Nelson and others (1985) mapped three peridotite bodies, including two that lie within or near a shear zone in the sheeted dikes unit (Tod) and the other body occurs as a xenolith in sheeted dikes unit.  These ultramafic rocks weather orange brown in color and form subdued rubble outcrops","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1380,Tmu,Mafic and ultramafic plutonic rocks,"Tertiary, Eocene and Paleocene?","""Compositionally and texturally variable unit consists mainly of clinopyroxene gabbro, two-pyroxene gabbro, and local diabase, hornblende gabbro, peridotite, and orthopyroxenite.  Gabbro commonly is medium-grained and equigranular and is slightly to moderately foliated except near contacts with country rocks where it locally is strongly foliated or mylonitic"" (Winkler and Plafker, 1993).  Also in the Cordova quadrangle, near the head of Port Fidalgo Nelson and others (1985) mapped a small area of both banded and massive dark- to light-green serpentinized dunite and peridotite.  There, blocks of serpentinite and serpentinized peridotite crop out within the metasedimentary rocks unit of the Valdez Group (Kvs).  Their strongly shared margins suggest that these rocks have been tectonically emplaced (Nelson and others, 1985).  Within country rocks of the Orca Group, these intrusions commonly have well-developed thermal aureoles and where they intrude sedimentary rocks have prominent zones of iron-staining (Winkler and Plafker, 1993).  Winkler and Plafker (1993) considered the age of the unit as uncertain; two hornblende K-Ar ages of 64.5ñ2.1 and 48.5ñ1.5 Ma were reported on the unit; the older of the two was considered suspect because it is older than the Orca Group, which the mafic rocks intrude","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1011,TKd,Dikes,early Tertiary to Early Cretaceous,"Dikes of dacite, rhyolite, andesite, and rare basalt intrude rocks of the Valdez Group (Kvs) and McHugh Complex (KMm) (Bradley and others, 1999).  Analyzed samples of dikes yield a wide range of ages, as shown in Table 1.  A basaltic-andesite dike intruding McHugh Complex yielded an  40Ar-39Ar hornblende plateau age of 115ñ2 Ma, whereas an intermediate composition dike yielded an 40Ar-39Ar isochron(?) age of 57.0ñ0.22 Ma (W. Clendenin, written commun., cited in Bradley and others, 1999) whereas felsic dikes mapped by Nelson and others (1999) yielded a 40Ar-39Ar isochron age as young as 31.1ñ0.2 Ma on potassium feldspar, as well as a 40Ar-39Ar plateau of 38.6ñ0.6 Ma on biotite and a 40Ar-39Ar disturbed age of 40ñ1 Ma, also on biotite.  Lytwyn and others (2000) described a suite of dikes ranging in composition from basalt to rhyolite that they associated with the near-trench intrusions commonly related to the subduction of the Kula-Farallon spreading center.  A 40Ar-39Ar plateau amphibole age on andesite from this suite of dikes yielded an age of 58.64ñ0.52 Ma.  Lytwyn and others (2000) considered the dikes they studied to represent the same system as the plutons we have included in map unit Tgh here.  Even discounting the potassium feldspar age as a minimum age, the data indicate that the dikes this map unit include rocks of multiple ages, possibly representing multiple events throughout the region","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
1301,TKd,Dikes,early Tertiary to Early Cretaceous,"Dikes of dacite, rhyolite, andesite, and rare basalt intrude rocks of the Valdez Group (Kvs) and McHugh Complex (KMm) (Bradley and others, 1999).  Analyzed samples of dikes yield a wide range of ages, as shown in Table 1.  A basaltic-andesite dike intruding McHugh Complex yielded an  40Ar-39Ar hornblende plateau age of 115ñ2 Ma, whereas an intermediate composition dike yielded an 40Ar-39Ar isochron(?) age of 57.0ñ0.22 Ma (W. Clendenin, written commun., cited in Bradley and others, 1999) whereas felsic dikes mapped by Nelson and others (1999) yielded a 40Ar-39Ar isochron age as young as 31.1ñ0.2 Ma on potassium feldspar, as well as a 40Ar-39Ar plateau of 38.6ñ0.6 Ma on biotite and a 40Ar-39Ar disturbed age of 40ñ1 Ma, also on biotite.  Lytwyn and others (2000) described a suite of dikes ranging in composition from basalt to rhyolite that they associated with the near-trench intrusions commonly related to the subduction of the Kula-Farallon spreading center.  A 40Ar-39Ar plateau amphibole age on andesite from this suite of dikes yielded an age of 58.64ñ0.52 Ma.  Lytwyn and others (2000) considered the dikes they studied to represent the same system as the plutons we have included in map unit Tgh here.  Even discounting the potassium feldspar age as a minimum age, the data indicate that the dikes this map unit include rocks of multiple ages, possibly representing multiple events throughout the region","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
2401,TKd,Dikes,early Tertiary to Early Cretaceous,"Dikes of dacite, rhyolite, andesite, and rare basalt intrude rocks of the Valdez Group (Kvs) and McHugh Complex (KMm) (Bradley and others, 1999).  Analyzed samples of dikes yield a wide range of ages, as shown in Table 1.  A basaltic-andesite dike intruding McHugh Complex yielded an  40Ar-39Ar hornblende plateau age of 115ñ2 Ma, whereas an intermediate composition dike yielded an 40Ar-39Ar isochron(?) age of 57.0ñ0.22 Ma (W. Clendenin, written commun., cited in Bradley and others, 1999) whereas felsic dikes mapped by Nelson and others (1999) yielded a 40Ar-39Ar isochron age as young as 31.1ñ0.2 Ma on potassium feldspar, as well as a 40Ar-39Ar plateau of 38.6ñ0.6 Ma on biotite and a 40Ar-39Ar disturbed age of 40ñ1 Ma, also on biotite.  Lytwyn and others (2000) described a suite of dikes ranging in composition from basalt to rhyolite that they associated with the near-trench intrusions commonly related to the subduction of the Kula-Farallon spreading center.  A 40Ar-39Ar plateau amphibole age on andesite from this suite of dikes yielded an age of 58.64ñ0.52 Ma.  Lytwyn and others (2000) considered the dikes they studied to represent the same system as the plutons we have included in map unit Tgh here.  Even discounting the potassium feldspar age as a minimum age, the data indicate that the dikes this map unit include rocks of multiple ages, possibly representing multiple events throughout the region","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
99,bu,Bedrock unknown,,Unit does not appear on published map,"Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."
3186,Jtg,"Tuxedni Group, Red Glacier Formation","Middle Jurassic, lower Bajocian to lower middle Bajocian","Thin-bedded to massive, red-brown weathering, dark-gray to moderate olive-gray, highly arenaceous siltstone, locally containing lenticular interbeds and concretions of reddish-gray, dense limestone and very minor coal seams (Detterman and Hartsock, 1966).  Underlying this is light-tan to buff arkosic sandstone and a thick black, silty to arenaceous, very fissile, shale.  Siltstone constitutes about 40 percent of the unit, concentrated in the upper part, sandstone about 25 percent, and shale the remainder.  Overall thickness ranges from 600 to as much as 2,000 m.  Fossils are most abundant fossiliferous in the upper part of the Red Glacier Formation; no fossils are known from the lowermost part (as much as 600 m) of the unit.  Pelecypods include Meleagrinella, Trigonia, Retroceramus (formerly Inoceramus), Camptonectes, and Pleuromya.  Ammonites occur in two distinct faunal assemblages; the lower assemblage includes Erycites, Tmetoceras, and Pseudolioceras and this faunal zone ranges from 450 to 1,400 m below the top of the formation.  The upper assemblage in the upper 400 m of the formation includes Soninia, Emileia, Parabigottes and in the uppermost 150 meters, Papilliceras, Strigoceras, Lissoceras, Stephanoceras, Stemmatoceras, and Skirroceras","Wilson, F.H., and Hults, C.P., in press, Geology of the Prince William Sound and Kenai Peninsula region, Alaska; Including the Kenai, Seldovia, Seward, Blying Sound, Cordova, and Middleton Island 1:250,000-scale quadrangles:  U.S. Geological Survey Scientific Investigations Map, SIM-????, scale 1:350,000, 2 sheets, pamphlet,89 ms. pages."