Late Holocene Climate-Flood Relationships on the White River, Indiana, USA

Indiana University-Purdue University Indianapolis (IUPUI) The frequency and magnitude of floods in the midcontinental United States have increased in recent decades due to changing precipitation patterns as global temperatures rise. These trends pose major social and economic risks to the region, wh...

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Bibliographic Details
Main Author: Wright, Maxwell N.
Other Authors: Bird, Broxton, Licht, Kathy, Gilhooly, William, III.
Format: Thesis
Language:English
Published: 2022
Subjects:
climate
White River
Indiana
floods
flooding
PNA
paleoclimate
oxbow
accumulation rate
Mississippian
MCA
LIA
climate change
land clearance
fluvial
river
watershed
Euro-American
sediment
Climate change
Pacific Arctic
Online Access:https://hdl.handle.net/1805/29142
https://doi.org/10.7912/C2/2907
id ftiupui:oai:scholarworks.indianapolis.iu.edu:1805/29142
record_format openpolar
spelling ftiupui:oai:scholarworks.indianapolis.iu.edu:1805/29142 2024-09-15T18:02:35+00:00 Late Holocene Climate-Flood Relationships on the White River, Indiana, USA Wright, Maxwell N. Bird, Broxton Licht, Kathy Gilhooly, William, III. 2022-05 application/pdf https://hdl.handle.net/1805/29142 https://doi.org/10.7912/C2/2907 en_US eng https://hdl.handle.net/1805/29142 http://dx.doi.org/10.7912/C2/2907 climate White River Indiana floods flooding PNA paleoclimate oxbow accumulation rate Mississippian MCA LIA climate change land clearance fluvial river watershed Euro-American sediment Thesis 2022 ftiupui https://doi.org/10.7912/C2/2907 2024-08-08T03:18:34Z Indiana University-Purdue University Indianapolis (IUPUI) The frequency and magnitude of floods in the midcontinental United States have increased in recent decades due to changing precipitation patterns as global temperatures rise. These trends pose major social and economic risks to the region, which is home to tens of millions of Americans and a global agricultural center. It is therefore critical to understand if current fluvial dynamics are within the scope of past fluvial-climate relationships, or if they represent a novel response to recent climate and land-use changes. Presented is a 1600-year-long flood frequency record for the moderately sized (~29,400 km2 watershed) White River, Indiana. Flood frequencies were determined using 14C-based sediment accumulation rates at Half Moon Pond, an oxbow lake on the lower White River’s floodplain. Comparison with regional paleoclimate data shows that White River flooding was frequent when atmospheric circulation resembled the negative mode of the Pacific-North American (PNA) teleconnection, particularly during the Medieval Climate Anomaly (950-1250 CE) and the Current Warm Period (last ~150 years). During these times, the regional climate was dominated by warm-season precipitation originating from the Gulf of Mexico. Conversely, White River flooding was less frequent during the Little Ice Age (1250-1800 CE) when cold-season precipitation from the North Pacific/Arctic dominated (+PNA-like conditions). The pre-1790 CE White River flood history was antiphased with reconstructed Ohio River flood frequencies from southern Illinois. This dynamic is consistent with discharge in small to moderate sized watersheds being sensitive to rainstorm runoff and large watersheds being sensitive to snowmelt runoff. After 1790 CE, flooding frequencies of both river systems increased to their highest levels, despite a shift to -PNA-like conditions. This change was likely due to extensive Euro-American land-clearance, which increased runoff/erosion by reducing evapotranspiration, ... Thesis Climate change Pacific Arctic Indiana University - Purdue University Indianapolis: IUPUI Scholar Works
institution Open Polar
collection Indiana University - Purdue University Indianapolis: IUPUI Scholar Works
op_collection_id ftiupui
language English
topic climate
White River
Indiana
floods
flooding
PNA
paleoclimate
oxbow
accumulation rate
Mississippian
MCA
LIA
climate change
land clearance
fluvial
river
watershed
Euro-American
sediment
spellingShingle climate
White River
Indiana
floods
flooding
PNA
paleoclimate
oxbow
accumulation rate
Mississippian
MCA
LIA
climate change
land clearance
fluvial
river
watershed
Euro-American
sediment
Wright, Maxwell N.
Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
topic_facet climate
White River
Indiana
floods
flooding
PNA
paleoclimate
oxbow
accumulation rate
Mississippian
MCA
LIA
climate change
land clearance
fluvial
river
watershed
Euro-American
sediment
description Indiana University-Purdue University Indianapolis (IUPUI) The frequency and magnitude of floods in the midcontinental United States have increased in recent decades due to changing precipitation patterns as global temperatures rise. These trends pose major social and economic risks to the region, which is home to tens of millions of Americans and a global agricultural center. It is therefore critical to understand if current fluvial dynamics are within the scope of past fluvial-climate relationships, or if they represent a novel response to recent climate and land-use changes. Presented is a 1600-year-long flood frequency record for the moderately sized (~29,400 km2 watershed) White River, Indiana. Flood frequencies were determined using 14C-based sediment accumulation rates at Half Moon Pond, an oxbow lake on the lower White River’s floodplain. Comparison with regional paleoclimate data shows that White River flooding was frequent when atmospheric circulation resembled the negative mode of the Pacific-North American (PNA) teleconnection, particularly during the Medieval Climate Anomaly (950-1250 CE) and the Current Warm Period (last ~150 years). During these times, the regional climate was dominated by warm-season precipitation originating from the Gulf of Mexico. Conversely, White River flooding was less frequent during the Little Ice Age (1250-1800 CE) when cold-season precipitation from the North Pacific/Arctic dominated (+PNA-like conditions). The pre-1790 CE White River flood history was antiphased with reconstructed Ohio River flood frequencies from southern Illinois. This dynamic is consistent with discharge in small to moderate sized watersheds being sensitive to rainstorm runoff and large watersheds being sensitive to snowmelt runoff. After 1790 CE, flooding frequencies of both river systems increased to their highest levels, despite a shift to -PNA-like conditions. This change was likely due to extensive Euro-American land-clearance, which increased runoff/erosion by reducing evapotranspiration, ...
author2 Bird, Broxton
Licht, Kathy
Gilhooly, William, III.
format Thesis
author Wright, Maxwell N.
author_facet Wright, Maxwell N.
author_sort Wright, Maxwell N.
title Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
title_short Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
title_full Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
title_fullStr Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
title_full_unstemmed Late Holocene Climate-Flood Relationships on the White River, Indiana, USA
title_sort late holocene climate-flood relationships on the white river, indiana, usa
publishDate 2022
url https://hdl.handle.net/1805/29142
https://doi.org/10.7912/C2/2907
genre Climate change
Pacific Arctic
genre_facet Climate change
Pacific Arctic
op_relation https://hdl.handle.net/1805/29142
http://dx.doi.org/10.7912/C2/2907
op_doi https://doi.org/10.7912/C2/2907
_version_ 1810440034111717376

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