Kp – Pierre Shale: This unit consists of unaltered black, brown, or gray highly fissile marine shale. It contains discontinuous limonitic bands (<0.02 m thick) and nodules (<0.1 m diameter) in zones 0-2.5 m below the exposed upper surface. Exposures in the Wayside (Nebraska) 7.5’ quadrangle contain a horizon of lozenge-shaped limonitic concretions up to 3 m in diameter and 0.5 m thick. This unit also contains 0.2-0.5 m thick brown to yellow sandy limestone lense. According to Darton (1899), these limestones occur about 330 m (“1000 feet”) below the unconformable upper contact. These limestones contain abundant marine invertebrates, primarily pelecypods [Story (Nebraska), Story NE (Nebraska), Montrose (Nebraska), and Orella (Nebraska) 7.5’ quadrangles: see also LaGarry and LaGarry (1997n)]. They occur as the caprock of conical (“teepee”) buttes and are a common local source of colluviums (used in road maintenance) within large expanses of otherwise noncolluvial shale. This shale is known to yield fossils of large marine vertebrates. This unit typically weathers as low hummocks or as steep escarpments in cutbanks of streams. Outcrops of this unit are occasionally covered by a cobble lag remnant of the overlying Chamberlain Pass Formation (stippled on maps). As much as 50 m of this unit is exposed within the study area. The upper contact with overlying units is a regional unconformity marked by the Yellow Mounds Paleosol unless incised by overlying units. The lower contact is not exposed in the study area. Kpy – Yellow Mounds Paleosol equivalent: Terry (1993, 1995a), Terry and LaGarry (1994), and Terry and others (1995) correlated this unit into Nebraska from southwestern South Dakota, It consists of pedogenically altered Pierre Shale, and varies in color from yellow to ochre, orange, pink, and white. The original fissility of the parent shale is almost entirely overprinted by pedogenic features, which include root traces, ped structures, cutans, mottling, pedogenic silcretes, calcareous nodules, and redoxymorphic iron concentrations and nodules. APedogenic limonite frequently occurs 1-2 m below the weathered upper surface. Diagenetic gypsum is also present 1-2 m below the weathered upper surface where overlain by depositional gypsum in the Peanut Peak Member of the Chadron Formation [Wolf Butte (Nebraska) 7.5’ quadrangle: LaGarry and LaGarry (1997n)]. This unit is 1-15 m thick across the northern part of the study area. Like its parent material, it typically weathers as low hummocks or as steep escarpments in cutbanks of streams. Outcrops of this unit are frequently covered by cobble lag (stippled on maps) remnant of the overlying Chamberlain Pass Formation. Its contact with the overlying Chamberlain Pass Formation is a regional unconformity. Its contact with the underlying unaltered Pierre Shale is gradational. Although this unit is stratigraphically equivalent to Retallacks (1983) Yellow Mounds Paleosol Series, which was first described in the Big Badlands of South Dakota, it likely represents a different soil series. This unit corresponds to the lower part of Schultz and Stout’s (1955) “Interior Paleosol Complex”. Qa1 Youngest alluvium (Holocene)- Commonly sand and pebbly gravel, minor thin sandy silt beds: yellowish-gray and yellowish-orange; unit underlies the modern stream channels and floodplain. Sands are trough and planar bedded. Most clasts are derived from local bedrock. Commonly 1-4 m thick. Qa3 Older alluvium 1 (Pleistocene) Clays to cobble sized sediment deposited in modern and ancient stream channels and floodplains. Qac1 Undifferentiated silty alluvium and colluvium (Pleistocene) Silt and clay derived from the weathering of clayey siltstones and silty claystones of the white River Group. Qac2 Sandy alluvium and colluvium (Holocene and upper Pleistocene)- Sand and silt residuum and colluvium derived from the weathering of sandy siltstones and sandstones, primarily of the Arikaree and Ogallala groups; brown to yellowish-gray. Upland occurrences are primarily colluvium (locally derived gravels or conglomerates) and typically grades into alluvium. The unit includes the Tassel-Ashollow-Rock soil association. Commonly 2–15 m thick Qr1 – Clayey Residuum: This unit consists of residuum and soils derived from the weathering of the Pierre Shale and minor amounts (10%-15% of alluvial and colluvial clay sediments. This unit is mapped based on exposures in cut banks and the distribution of soils of the Pierre-KyleSamsil association (Ragon and others, 1977). Residuum or soil < 5 cm thick is mapped as Pierre Shale. This unit typically has a gradational contact with adjacent Qr2 and Qr3. Qr2 Silty residuum (Pleistocene) Residuum and soils derived from the weathering of silty claystones, clayey siltstones and siltstones of the White River Group and minor amounts (10-15%) of alluvial and colluvial silty clay sediments. Qr3 Sandy residuum (Pleistocene) Residuum and soils derived from the weathering of sandy siltstones and sandstones of the White River and Arikaree groups and minor amounts (1015%) of alluvial and colluvial silt and sand sediments. Tabh - Unknown Tertiary Unit Tah Harrison Formation (Oligocene) Fine to medium-grained, poorly indurated sandstones, volcaniclastic, brown to gray. Thin to thick bedded (0.2-10 m), weakly crossbedded to massive, and containing abundant siliceous and calcareous rhizoliths. Trace fossils in the form of subterranean social insect colonies are common. A widespread silcrete forms the abrupt, upper boundary with the Upper Harrison beds. In most areas no mappable lithologic contact occurs between this unit and the underlying Monroe Creek Formation, in which case these unites were combined (Tah/Tam). Alternatively, the contact was drawn at the base of the lowest silcrete containing rhizoliths, giving this unit an thickness of between 75-95 m. Trace fossils (Daimonelix) of burrowing rodents are present in the uppermost 75 m of this unit. Vertebrate fossils have been reported as isolated occurrences but were not observed during the mapping. Tam Monroe Creek Formation (Oligocene) Fine to coarse-grained weakly indurated, sandstone, volcaniclastic, brown, buff, and gray. Thin to thickly bedded (0.2-10 m), weakly cross-bedded to massive, and containing locally abundant siliceous rhizoliths. Carbonate-cemented cylindrical to platy concretions occurring in zones 0.5 to 2 m thick, are common throughout the unit. Trace fossils in the form of subterranean social insect colonies are common. Vertebrate fossils are rare, and only fragments of tortoise carapace were recovered during the mapping. The lower contact where visible, is a sharp erosional contact with the Sharps Member of the Brule Formation. This unit is between 150-190 m thick depending how the upper contact was established (see above). Tauh Upper Harrison beds Fine to medium-grained friable volcaniclastic sandstones yellowish to grayish brown. Thin to medium bedded (0.2-5 m), weakly crossbedded to massive, and containing abundant siliceous rhizoliths. Trace fossils in the form of subterranean social insect colonies are common. The lower contact occurs at a prominent regional unconformity above a silcrete developed in sandstones of the underlying Harrison Formation. Note: Since this mapping was completed, this unit has been formally named the Anderson Ranch Formation. Twbh – Horn Member: This provisional lithostratigraphic unit (Swinehart, unpublished data) is named for the small community of Horn 16 km northwest of Crawford, Nebraska [Horn (Nebraska) 7.5’ quadrangle]. It consists of massive to weakly stratified buff, pinkish gray, or pale brown volcaniclastic siltstone, volcaniclastic silty sandstone, and volcaniclastic sandy siltstone. At its proposed type section at the head of Whitehead Creek near Roundtop [Roundtop (Nebraska) 7.5’ quadrangle: LaGarry and LaGarry (1997n)], this unit is about 55 m thick, but thins to 5-10 m thick to the west [Sherrill Hills (Wyoming-Nebraska) 7.5’ quadrangle] this unit is distinctly thinly bedded. This unit erodes into vertical cliffs or rounded ledges having a highly fractured appearance and occasionally contains small (2-10 cm), irregularly shaped nodules or concretions in discontinuous zones 1-10 m thick. A prominent volcanic ash, the Nonpareil Ash Zone (NPAZ) of Swinehart and others (1985), occurs 5-33 m above the base of the unit. This ash has been 40Ar/39Ar dated at 30.050 ± 0.19 Ma (Swisher and Prothero, 1990). Vertebrate fossils are locally abundant at its base, and include oreodonts, rhinoceroses and tortoises. This unit has a sharp erosional contact with the overlying Arikaree Group. Below the east-west trending Arikaree Group paleovalley (see above), this unit is incised by the “Ash Creek Beds”. Elsewhere, this unit is overlain by the Monroe Creek Formation. The lower contact with the Whitney Member is either gradational or an erosional unconformity where this unit fills valleys and depressions in the underlying Whitney Member. This unit corresponds to the basal part of Schultz and Stout’s (1955) and Meehan’s (1994) “Gering Formation” [Roundtop (Nebraska) 7.5’ quadrangle: see LaGarry and LaGarry (1997n)], and the “Roundtop member” of the Brule Formation of Terry and others (1995). Twbo – Brule Formation, Orella Member: This unit consists of thinly interbedded brown, orange, and buff volcaniclastic clayey siltstones, volcaniclastic silty claystones, discontinuous medium to coarse grained, crossbedded and massive, brown sheet sandstones, and multistoried basal channel sandstones. The clayey siltstone, silty claystone, and sheet sandstone beds usually occur as couplets <0.5 m thick, with each couplet consisting of a thin, discontinuous sheet sandstone and an associated pedogenically altered clayey siltstone or silt claystone. The only pedogenic features with the silty claystone and clayey siltstones consist of chalcedony-filled root voids and insect tunnels. Terry and others (1995) described these weakly developed paleosols as “entisols”. The distribution of the discontinuous sheet sandstones is controlled by a complex overlapping cut-and-fill geometry (see Wells, 1994; Wells and others 1994, 1995; Terry and others, 1995; LaGarry and LaGarry, 1997n). The sheet sandstones are thinnest, poorly developed, or absent in the basal one-third of the paleovalley fills (Wells, 1994; Wells and others, 1995). Common sedimentary structures within these sheet sands include soft sediment deformation, fluid escape structures, planar crossbeds, mudcracks or subaqueous shrinkage cracks, and invertebrate trace fossils (Terry and others, 1995; Wells and others, 1995). These “nodular” appearing sheet sands were interpreted as pedogenic nodules by earlier workers (Schultz and Stout, 1955; Schultz and others, 1955). A 0.01 m thick volcanic ash bed (the “Serendipity Ash”) occurs 16 m above the base of the unit at the level of Schultz and Stout’s (1955) “Diplolophus insolens bench”. The basal multistoried channel sandstone (the “Toadstol Park Channel complex” of Schultz and Stout, 1955) is 0-9 m thick, and consists of overlapping paleochannels with trough and planar crossbedded, medium to coarse grained, clay matrixsupported sandstones having a gravel lag, thinly bedded and laminated green sandstones, and trough crossbedded conglomeratic sandstones having a gravel lag that contains small fragments of vertebrate bone and turtle carapace. These basal sandstones contain a suite of sedimentary structures consistent with a “mixed” braided/meandering river system, including trough crossbeds and lateral accretion surfaces (Terry and others, 1995). They are exposed intermittently within the Roundtop (Nebraska), Horn (Nebraska), Bodarc (Nebraska), and Warbonnet Buttes (Nebraska) 7.5’ quadrangles (see also LaGarry and LaGarry, 1997a). The uppermost surface of the “Toadstool Park Channel complex” contains abundant vertebrate and invertebrate trace fossils, including tracks and trails of worms, insects, crustaceans, birds, rhinoceroses, entelodonts, camels, rodents, lagomorphs, oreodonts, and carnivores (Nixon and LaGarry-Guyon, 1993a, 1993b; Terry and others, 1995). Vertebrate fossils are common within the silty claystones and clayey siltstones. The overall thickness of this unit is 26-29 m, and it weathers into steep, step-and-riser badlands. This unit thins to the east [Chadron West (Nebraska) 7.5’quadrangle] and west [Sherrill Hills (Wyoming-Nebraska) 7.5’ quadrangle] to 2-4 m of thinly bedded buff or brown siltstone. This unit thins to the east [Chadron West (Nebraska) 7.5’quadrangle] and west [Sherrill Hills (Wyoming-Nebraska) 7.5’quadrangle] to 2-4 m of thinly bedded buff or brown siltstone. This unit has an intertonguing contact with the overlying Whitney member, except where incised by paleochannels within the lower Whitney Member. It has an intertonguing contact with the underlying “Big Cotton wood Creek member” of the Chadron Formation, except where the underlying Chadron Formation is incised by the “Toadstool Park Channel complex.” This unit is equivalent to Schultz and Stout’s (1955) “Orella B” and “Orella C.” Twbw Whitney Member (upper Oligocene)- Siltstone; volcaniclastic; grayish orange and yellowish brown; predominantly interpreted as eolian in orgin. Unit typically very thick bedded to massive. Siltstone cemented with clay and carbonate. Member is known to have two regionally correlative ash beds; only the biotitic lower ash (LW ash), up to 1.5 m thick, was positively identified. Commonly 50-100m thick. Twc1 – Big Cottonwood Creek Member: This new lithostratigraphic unit (Terry and LaGarry, 1998) is named for prominent exposures along Big Cottonwood Creek near Toadstool Geologic Park [Roundtop (Nebraska) 7.5’ Quadrangle: LaGarry and LaGarry (1997); see also Terry and others (1995)]. It consists primarily of pedogenically altered volcaniclastic silty claystones and minor amounts of interbedded claystone, pedogenic carbonate, lacustrine carbonate, massive lenticular sandstone, cross and planar bedded sandstone, diagenetic and sedimentary gypsum, volcanic ash, and a multistoried basal channel sandstone. Weakly developed paleosols in its uppermost 20 m give this unit a characteristic banded appearance; common colors are yellow, buff, pink, tan, green and red. The lowermost 15-20 m has less paleosol development, with common colors being green, yellow and red. In addition to carbonates (typically calcretes), pedogenic features within this unit include ped structures, cutans, and root traces ( Terry, 1995b). The pedogenic carbonates are <0.5 m thick and lenticular or tabular. Many contain fossilized dung rolled into balls by insects prior to deposition. The lacustrine carbonates are thin(<0.3 m thick), tabular, and discontinuous, and contain algal laminae, ostracodes, plant macrofossils, and fish remains (see also Welzenbach and Evans, 1992). Lacustrine carbonates with a high silt or clay content are considered marls (Terry and others, 1995; LaGarry and LaGarry, 1997). The massive and planar bedded sandstones have a wide geographic distribution (see LaGarry and Terry, 1997). However, most of the diagenitic gypsum (often occurring as psuedomorphs) and all of the sedimentary typsum (beds 0.2-0.6 m thick0 are restricted to the Wolf Butte (Nebraska) 7.5’ quadrangle (LaGarry and LaGarry, 1997n). The gypsum, sandstone, limestone, marl, and claystone beds are most common within the lower 15-20 m of the unit. Multistoried basal sandstones 2-5 m thick occur locally [Sherrill Hills (Nebraska), Story (Nebraska), and Story NE (Nebraska), and Roundtop (Nebraska) 7.5’ quadrangles: see also LaGarry and LaGarry (1997)]. At least five prominent volcanic ashes are present throughout this unit. The uppermost ash, Schultz and Stout’s (1955) “upper purplish-white layer” is locally widespread marker bed. The next lower ash, Schultz and Stout’s (1955) “lower” or “second purplish-white layer” is less widespread, and often only slightly more vitric than the adjacent volcaniclastic silty claystones. The lower three ashes are lenticular and really restricted, occurring within paleovalleys incised into the underlying Peanut Peak Member. The lowermost 20 m of this unit typically occurs as isolated erosional remnants within these paleovalleys [Horn (Nebraska) 7.5’ quadrangle]. This unit is calcareous in zones, giving it a nodular (5-10 cm diameter) appearance. It is also highly fossiliferous, containing abundant fossil vertebrate and infrequent fossil invertebrate remains. The overall thickness of this unit is 22-40 m; it is thickest where it has incised into the underlying Peanut Peak Member. This unit typically weathers into smooth, near vertical faces and badlands. It has an intertonguing contact with the overlying Brule Formation, except where it is incised by the “Toadstool Park Channel complex” of the Orella Member of the Brule Formation. It has an intertonguing contact with the underlying Peanut Peak Member, except where this unit incises or fills valleys and depressions in the underying Peanut Peak Member. This unit is equivalent to Schultz and Stout’s (1955) “Chadron B3”, “Chadron B4”, “Chadron C”, and “Orella A”. This unit does not occur east of the Trunk Butte (Nebraska) 7.5’ quadrangle, where this stratigraphic position is occupied by the “Trunk Butte beds” of the Chadron Formation (LaGarry and LaGarry, 1999). Twc2 – Chadron Formation, Peanut Peak Member: Terry (1995, 1998), Terry and LaGarry (1998), and Terry and others (1995) correlated this unit into Nebraska from southwestern South Dakota. It consists of dark olive, gray, yellow and red claystones. Most primary sedimentary structure within the claystones (e.g., lamination) are overprinted by pedogenic features, which include root traces, ped structures, cutans, mottling, and calcareous nodules. Discontinuously bedded gypsum, lacustrine limestone and marl, pedogenic calcrete, and sandstone beds occur in different locations and at various stratigraphic levels within the unit. Gypsum beds occur as diagenetically emplaced (0.1-0.5 m thick) and as a result of primary deposition (0.1-0.25 m thick) [Wolf Butte (Nebraska) 7.5’ quadrangle: see LaGarry and LaGarry (1997)]. Lacustrine limestones are tabular (0.05-0.25 m thick), are widespread both geographically and stratigraphically, and contain algal laminae, ostracodes, plant macrofossils, and fish remains (see also Welzenbach and Evans, 1992). The calcretes are restricted to the Horn (Nebraska), Trunk Butte (Nebraska), and Chadron West (Nebraska) 7.5’ quadrangle (see also LaGarry and LaGarry, 1997; LaGarry and Terry, 1997). Isolated sandstones are massive, lenticular or tabular, crossbedded, gypsiferous (0.1-1.5 m thick), and occur west of Toadstool Park [Roundtop (Nebraska) 7.5’ quadrangle: LaGarry and Terry (1997)]. At least one, and possibly as many as four lenticularly bedded vocanic ashes (0.1-0.3 m thick) are present throughout the unit. This unit has a thickness of 2-17 m. Its contact with the overlying “Big Cottonwood Creek member” is intertonguing except where incised by the basal channel sandstones of the “Big Cottonwood Creek member” or eroded into paleovalleys. Its lower contact with the underlying Chamberlain Pass Formation is a regional unconformity. This unit weathers into smooth, low hummocks, and is equivalent to Schultz and Stout’s (1955) “Chadron B1” and “Chadron B2”, and Clark and others’ (1967) “Chadron Formation undifferentiated” and Peanut Peak Member of the Chadron Formation in the Big Badlands of South Dakota. Twcp – Chamberlain Pass Formation: Terry (1993, 1995a), Terry and LaGarry (1994), and Terry and others (1995) correlated this unit into Nebraska from southwestern South Dakota. It consists of pedogenically altered red, gray, white, yellowish olive, and olive silty claystones and interbedded lenticular single and multistoried white, gray, yellow, yellowish green, or green trough crossbedded channel sandstones. The claystones [“mudstones” of Evans and Terry (1994) and Terry and Evans (1994)] are laminated or massive and typically 1-3 m thick. The claystones contain Terry’s (1993, 1995a) dark red Interior Paleosol Series equivalent (see Retallack, 1983) and yellowish olive Weta Paleosol Series equivalent (see Evans and Terry, 1994; Terry and Evans, 1994). Most primary sedimentary structures (e.g., lamination) are overprinted by pedogenic feature, which include root traces, ped structures, cutans, mottling, pedogenic silcretes, calcareous nodules, and redoxymorphic iron accumulations. Calcareous nodules (2-5 cm diameter) occur in descrete horizons. The sandstones are single (0.5-1.0m thick) and multistoried (2-8 m thick), fine to coarse grained, pedogenically altered, and usually contain a gravel to cobble sized lag at base. Pedogenic alteration of the sandstones has transformed their feldspars into kaolinitic clays, an based on the amount of kaolinite within these sandstones, they were likely arkosic when deposited (Terry and Evans, 1994). Individual sandstone bodies are trough crossbedded, fine upwards, and contain pebble stringers, intraclasts, and large blocks of reworked red and yellowish olive claystone and shale incorporated into their base. The overall thickness of this unit is 1-13 m. Its contacts with the overlying Chadron Formation and the underlying Yellow Mounds Paleosol Series equivalent are regional inconformities. Along Whitehead Creek in the Five Points (Nebraska), Montrose (Nebraska), and Roundtop (Nebraska) 7.5’ quadrangles (see also Terry and others, 1995; LaGarry and LaGarry, 1997n) this unit had incised into underlying unaltered Pierre Shale. The claystones weather into low, smooth hummocks, and the channel sandstones weather into ledges and vertical cliffs. This unit corresponds to the basal gravels and “beds of a bright dark red color” of Darton’s (1899) original Chadron Fromation, the upper part of Schultz and Stout’s (1955) “Interior Paleosol Complex” (the Interior Paleosol Series equivalent), and Schultz and Stout’s (1955) “Chadron A” or “Yoder” (the channel sandstones: Terry and others, 1995; LaGarry and LaGarry, 1997n).