TY - JOUR
T1 - Late quaternary landscape evolution, soil stratigraphy, and geoarchaeology of the Caprock Canyonlands, Northwest Texas, USA
AU - Murphy, Laura R.
AU - Hurst, Stance C.
AU - Holliday, Vance T.
AU - Johnson, Eileen
N1 - Funding Information:
This research was funded by the Museum of Texas Tech University and a Texas Tech University internal grant (to EJ) through the Research Development Fund Grant Competition and represents part of the ongoing Lubbock Lake Landmark regional research into grasslands hunter-gatherers and adaptation to ecological change. We graciously thank several landowners who granted site access. Additional thanks go to Doug Cunningham, Rolfe Mandel, William Reitze, B.L. Allen, and Daniel Hirmas for their field assistance. Katherine Elhers provided assistance in compiling radiocarbon data. Bridget Sanderson and Celeste McCoy provided assistance in the laboratory. Additional recognition goes to Patrick Green, Josh Quarles, and Edward Smith for their assistance in the final stages of this manuscript. Special thanks to Rolfe Mandel and Kathleen Nicoll for their editorial guidance, and referees Alston Thoms and Jared Beeton whose feedback and suggestions greatly improved this manuscript.
PY - 2014/8/25
Y1 - 2014/8/25
N2 - In northwest Texas, USA, between the Southern High Plains to the west and the Central Lowlands to the east, lies a geographic boundary known as the "Escarpment Breaks" or "Caprock Canyonlands." The canyonlands contain abundant springs, lithic resources, shelter, and plant and animal food sources that attracted hunter-gatherer groups. A geoarchaeological study was conducted in the canyonlands to determine the effects of late-Quaternary landscape evolution, especially intensive erosion, on the region's archaeological record. Geomorphic and stratigraphic field research and a total of 95 new radiocarbon age determinations, 94 of which were determined on paired samples, aid in reconstructing an understudied dynamic and erosive landscape, and explain how the landscape has changed. The pattern is similar to reported data from the Central Plains and western Rolling Plains but dissimilar to the Southern High Plains. High rates of erosion and geological controls on the South Fork of the Double Mountain Fork of the Brazos River, a 4th order stream, have hindered the discovery of deeply buried soils and in situ Paleoindian artifacts and features, but a late-Holocene pedocomplex is relatively intact in valley fills beneath remnants of the T-2 terrace of the South Fork. The eroding slopes near the edge of the caprock escarpment exposed a record of in situ Archaic to Protohistoric-aged materials. The eroding slopes should be targeted for future quantification of erosion and archaeological preservation bias for the canyonlands.
AB - In northwest Texas, USA, between the Southern High Plains to the west and the Central Lowlands to the east, lies a geographic boundary known as the "Escarpment Breaks" or "Caprock Canyonlands." The canyonlands contain abundant springs, lithic resources, shelter, and plant and animal food sources that attracted hunter-gatherer groups. A geoarchaeological study was conducted in the canyonlands to determine the effects of late-Quaternary landscape evolution, especially intensive erosion, on the region's archaeological record. Geomorphic and stratigraphic field research and a total of 95 new radiocarbon age determinations, 94 of which were determined on paired samples, aid in reconstructing an understudied dynamic and erosive landscape, and explain how the landscape has changed. The pattern is similar to reported data from the Central Plains and western Rolling Plains but dissimilar to the Southern High Plains. High rates of erosion and geological controls on the South Fork of the Double Mountain Fork of the Brazos River, a 4th order stream, have hindered the discovery of deeply buried soils and in situ Paleoindian artifacts and features, but a late-Holocene pedocomplex is relatively intact in valley fills beneath remnants of the T-2 terrace of the South Fork. The eroding slopes near the edge of the caprock escarpment exposed a record of in situ Archaic to Protohistoric-aged materials. The eroding slopes should be targeted for future quantification of erosion and archaeological preservation bias for the canyonlands.
KW - Geoarchaeology
KW - Landscape evolution
KW - Late quaternary
KW - Soil stratigraphy
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U2 - 10.1016/j.quaint.2014.06.060
DO - 10.1016/j.quaint.2014.06.060
M3 - Article
AN - SCOPUS:84906793783
SN - 1040-6182
VL - 342
SP - 57
EP - 72
JO - Quaternary International
JF - Quaternary International
ER -