Rolfe D. Mandel scite author profile

A continuous record of organic carbon δ13C from a buried soil sequence in south-central Texas demonstrates: 1) strong coupling between marine and adjacent continental ecosystems in the late Pleistocene as a result of glacial meltwater entering the Gulf of Mexico and 2) ecosystem decoupling in the Holocene associated with a reduction of meltwater and a shift in global circulation patterns. In the late Pleistocene, reduction in C4 plant productivity correlates with two well-documented glacial meltwater pulses (∼15,000 and 12,000 14C yr B.P.), indicating a cooler-than-present adjacent continental environment. Increased C4 production between 11,000 and 10,000 14C yr B.P. suggests that the Younger Dryas was a warm interval responding to the diversion of glacial meltwater away from the Mississippi River. With waning meltwater flow, C4 productivity generally increased throughout the Holocene, culminating in peak warm intervals at ∼5000 and 2000 14C yr B.P. Shifts in the abundances of C3–C4 plants through the late Quaternary show no correlation to ecophysiological responses to atmospheric CO2 concentration.

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Geomorphic controls of the Archaic record in the Central Plains of the United States

Mandel

1995

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The effects of temporal and spatial patterns of Holocene erosion and alluviation on the archaeological record of the Central and Eastern Great Plains, U.S.A.

Bettis

Mandel

2002

Geoarchaeology

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Patterns of erosion and deposition act as a filter that strongly influences the disposition of the archaeological record of the Central and Eastern Plains of the North American Midcontinent. Detailed studies of alluvial valley stratigraphy in four drainage basins in the region reveal temporal and spatial patterns of fluvial system behavior that control the preservation and visibility of past human activity. These basins are located on a 600‐km‐long longitudinal gradient extending from semiarid southwestern Kansas to moist‐subhumid central Iowa. Despite significant environmental variability along this transect, basin‐wide patterns of Holocene erosion and deposition are similar across the study area. From ca. 11,000 to 8000 yr B.P., aggradation, punctuated by slow alluviation and/or stability around 10,000 yr B.P., was the dominant process in large and some small valleys. The early and middle Holocene (ca. 8000–5000 yr B.P.) was a period of net erosion and sediment movement in small valleys, sediment storage in large valleys, and episodic aggradation on alluvial fans. During the late Holocene (post‐5000 yr B.P.), alluvial fans stabilized, small valleys became zones of net sediment storage, and aggradation slowed in large valleys. Basin‐wide aggradation followed by entrenchment and channel migration characterizes fluvial activity during the Historic period. Consideration of the effects of these temporal and spatial patterns of Holocene erosion and alluviation on the archaeological record is crucial for developing efficient cultural resource sampling strategies and for accurately interpreting the archaeological record. © 2002 John Wiley & Sons, Inc.

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Buried paleoindian-age landscapes in stream valleys of the central plains, USA

Mandel

2008

Geomorphology

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Rolfe D. Mandel

C₄ Plant Productivity and Climate-CO₂ Variations in South-Central Texas during the Late Quaternary

Geomorphic controls of the Archaic record in the Central Plains of the United States

The effects of temporal and spatial patterns of Holocene erosion and alluviation on the archaeological record of the Central and Eastern Great Plains, U.S.A.

Buried paleoindian-age landscapes in stream valleys of the central plains, USA

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Rolfe D. Mandel

C4 Plant Productivity and Climate-CO2 Variations in South-Central Texas during the Late Quaternary

Geomorphic controls of the Archaic record in the Central Plains of the United States

The effects of temporal and spatial patterns of Holocene erosion and alluviation on the archaeological record of the Central and Eastern Great Plains, U.S.A.

Buried paleoindian-age landscapes in stream valleys of the central plains, USA

Contact Info

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C₄ Plant Productivity and Climate-CO₂ Variations in South-Central Texas during the Late Quaternary