Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols

In order to understand hydroclimate variability of future climate change, it is important to know the timing and range of natural climate change in the past. The Southeastern United States (SE) is situated along the poleward extent of projected subtropical drying, where the expression of past hydrol...

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Main Author:	Kocis, James Joseph
Format:	Text
Language:	unknown
Published:	TRACE: Tennessee Research and Creative Exchange 2011
Subjects:	Late Quaternary paleohydroclimates floodplain geochronology alluvial paleosols sedimentology stable carbon isotopes Southeastern North America Earth Sciences Geochemistry Geology Stratigraphy Nash North Atlantic
Online Access:	https://trace.tennessee.edu/utk_gradthes/1077 https://trace.tennessee.edu/context/utk_gradthes/article/2231/viewcontent/KocisJamesDecember2011.pdf

id	ftunivtennknox:oai:trace.tennessee.edu:utk_gradthes-2231
record_format	openpolar
spelling	ftunivtennknox:oai:trace.tennessee.edu:utk_gradthes-2231 2023-06-11T04:15:02+02:00 Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols Kocis, James Joseph 2011-12-01T08:00:00Z application/pdf https://trace.tennessee.edu/utk_gradthes/1077 https://trace.tennessee.edu/context/utk_gradthes/article/2231/viewcontent/KocisJamesDecember2011.pdf unknown TRACE: Tennessee Research and Creative Exchange https://trace.tennessee.edu/utk_gradthes/1077 https://trace.tennessee.edu/context/utk_gradthes/article/2231/viewcontent/KocisJamesDecember2011.pdf Masters Theses Late Quaternary paleohydroclimates floodplain geochronology alluvial paleosols sedimentology stable carbon isotopes Southeastern North America Earth Sciences Geochemistry Geology Stratigraphy text 2011 ftunivtennknox 2023-05-04T17:52:47Z In order to understand hydroclimate variability of future climate change, it is important to know the timing and range of natural climate change in the past. The Southeastern United States (SE) is situated along the poleward extent of projected subtropical drying, where the expression of past hydrological balances remains unclear. The lack of high-resolution paleohydroclimate records in the SE forces climate modelers to base interpretations on better-understood regions of North America. The SE likely experienced significant changes in precipitation regimes resulting from its position at the convergence of several oceanic and continental air masses. To reconstruct precipitation variability, this study examines multiple floodplains along the Tennessee River as hydroclimate proxy archives in the SE. Changes in precipitation balances are interpreted from high-resolution trends in sedimentary, pedogenic, and stable carbon datasets that span the last 14 ka BP (kiloannum before present). Variation in overbank sedimentation, identified from grain-size trends indicate precipitation increased from 11.0-8.0 ka BP. During this pluvial interval, stable carbon isotope values of soil organic matter in floodplain paleosols show negative excursions (~1.0-1.5 permil) from average modern values. A period of aridity, evident from an overall excursion to less negative stable carbon isotope values, increased abundance of fine-grain sizes, and increased paleosol development occurs between 8.0-5.0 ka BP. Most notably, the transition out of the mid-Holocene (~5.0 ka BP) is marked by an abrupt change to more negative carbon isotope values (~1.5 permil). Wavelet analysis of composite sedimentary and stable carbon isotope data time series indicate statistically significant (p≤0.1) 200- to 500-yr and ~1000-yr periodicities. Periods of aridity in the SE are correlated with the eastward intensification of the North Atlantic Subtropical High (NASH). Pluvial conditions result from the westward intensification of the NASH. The timing of wet and ... Text North Atlantic University of Tennessee, Knoxville: Trace Nash ENVELOPE(-62.350,-62.350,-74.233,-74.233)
institution	Open Polar
collection	University of Tennessee, Knoxville: Trace
op_collection_id	ftunivtennknox
language	unknown
topic	Late Quaternary paleohydroclimates floodplain geochronology alluvial paleosols sedimentology stable carbon isotopes Southeastern North America Earth Sciences Geochemistry Geology Stratigraphy
spellingShingle	Late Quaternary paleohydroclimates floodplain geochronology alluvial paleosols sedimentology stable carbon isotopes Southeastern North America Earth Sciences Geochemistry Geology Stratigraphy Kocis, James Joseph Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
topic_facet	Late Quaternary paleohydroclimates floodplain geochronology alluvial paleosols sedimentology stable carbon isotopes Southeastern North America Earth Sciences Geochemistry Geology Stratigraphy
description	In order to understand hydroclimate variability of future climate change, it is important to know the timing and range of natural climate change in the past. The Southeastern United States (SE) is situated along the poleward extent of projected subtropical drying, where the expression of past hydrological balances remains unclear. The lack of high-resolution paleohydroclimate records in the SE forces climate modelers to base interpretations on better-understood regions of North America. The SE likely experienced significant changes in precipitation regimes resulting from its position at the convergence of several oceanic and continental air masses. To reconstruct precipitation variability, this study examines multiple floodplains along the Tennessee River as hydroclimate proxy archives in the SE. Changes in precipitation balances are interpreted from high-resolution trends in sedimentary, pedogenic, and stable carbon datasets that span the last 14 ka BP (kiloannum before present). Variation in overbank sedimentation, identified from grain-size trends indicate precipitation increased from 11.0-8.0 ka BP. During this pluvial interval, stable carbon isotope values of soil organic matter in floodplain paleosols show negative excursions (~1.0-1.5 permil) from average modern values. A period of aridity, evident from an overall excursion to less negative stable carbon isotope values, increased abundance of fine-grain sizes, and increased paleosol development occurs between 8.0-5.0 ka BP. Most notably, the transition out of the mid-Holocene (~5.0 ka BP) is marked by an abrupt change to more negative carbon isotope values (~1.5 permil). Wavelet analysis of composite sedimentary and stable carbon isotope data time series indicate statistically significant (p≤0.1) 200- to 500-yr and ~1000-yr periodicities. Periods of aridity in the SE are correlated with the eastward intensification of the North Atlantic Subtropical High (NASH). Pluvial conditions result from the westward intensification of the NASH. The timing of wet and ...
format	Text
author	Kocis, James Joseph
author_facet	Kocis, James Joseph
author_sort	Kocis, James Joseph
title	Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
title_short	Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
title_full	Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
title_fullStr	Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
title_full_unstemmed	Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols
title_sort	late pleistocene and holocene hydroclimate change in the southeastern united states: sedimentary, pedogenic, and stable carbon isotope evidence in tennessee river floodplain paleosols
publisher	TRACE: Tennessee Research and Creative Exchange
publishDate	2011
url	https://trace.tennessee.edu/utk_gradthes/1077 https://trace.tennessee.edu/context/utk_gradthes/article/2231/viewcontent/KocisJamesDecember2011.pdf
long_lat	ENVELOPE(-62.350,-62.350,-74.233,-74.233)
geographic	Nash
geographic_facet	Nash
genre	North Atlantic
genre_facet	North Atlantic
op_source	Masters Theses
op_relation	https://trace.tennessee.edu/utk_gradthes/1077 https://trace.tennessee.edu/context/utk_gradthes/article/2231/viewcontent/KocisJamesDecember2011.pdf
_version_	1768371536527360000

Late Pleistocene and Holocene hydroclimate change in the Southeastern United States: Sedimentary, pedogenic, and stable carbon isotope evidence in Tennessee River floodplain paleosols

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