MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES

High-resolution sediment archives from small alpine lakes in the Alaskan Arctic and tropical Andes were used to investigate Holocene climate change in these climatically sensitive and important regions. Varved minerogenic sediments from glacial-fed Blue Lake, Brooks Range Alaska (1275 m asl), were u...

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Bibliographic Details
Main Author: Bird, Broxton Williams
Format: Thesis
Language:English
Published: 2009
Subjects:
Arctic
Pacific
Alpine Lake
Blue Lake
Brooks Range
Climate change
Alaska
Online Access:http://d-scholarship.pitt.edu/8389/
http://d-scholarship.pitt.edu/8389/1/090821_BIRD_ETD.pdf
id ftunivpittsburgh:oai:d-scholarship.pitt.edu:8389
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spelling ftunivpittsburgh:oai:d-scholarship.pitt.edu:8389 2023-09-05T13:15:45+02:00 MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES Bird, Broxton Williams 2009-09-30 application/pdf http://d-scholarship.pitt.edu/8389/ http://d-scholarship.pitt.edu/8389/1/090821_BIRD_ETD.pdf en eng http://d-scholarship.pitt.edu/8389/1/090821_BIRD_ETD.pdf Bird, Broxton Williams (2009) MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES. Doctoral Dissertation, University of Pittsburgh. (Unpublished) University of Pittsburgh ETD PeerReviewed 2009 ftunivpittsburgh 2023-08-14T17:28:49Z High-resolution sediment archives from small alpine lakes in the Alaskan Arctic and tropical Andes were used to investigate Holocene climate change in these climatically sensitive and important regions. Varved minerogenic sediments from glacial-fed Blue Lake, Brooks Range Alaska (1275 m asl), were used to derive a proxy temperature record between AD 730-2005. Cool temperatures characterize the late Holocene (last millennial average, or LMA = 4.2 °C) with 20th century warming anomalous within the context of the last 1275 years (0.8°C above LMA). However, temperatures between AD 1350-1450 and AD 1500-1620 approached modern values (0.4 and 0.3°C above LMA, respectively). Prolonged cooling at Blue Lake occurred from AD 1620-1880, during the Little Ice Age (LIA). LIA cooling and 20th century warming correspond to radiative minima and maxima, respectively. However, the relationship between radiative forcing and temperature is not consistent through the record, suggesting that other factors contributed to temperature variability in this region. In the tropics, South American summer monsoon (SASM) variability during the last 2300 years was reconstructed from oxygen isotope ratios of authigenic carbonate (δ18Ocal) preserved in varved sediments from Laguna Pumacocha (4300 m asl), Peru. High δ18Ocal values and reduced variability during the Medieval Climate Anomaly (MCA; AD 920-1050) suggest that the SASM and El Niño-Southern Oscillation (ENSO) were weak due to reduced easterly tropospheric flow and cooling within the eastern tropical Pacific (ETP). Low δ18Ocal from during the LIA (AD 1415-1820) and enhanced variability from AD 1415-1770 suggest that the SASM and ENSO were strong as a result of enhanced easterly tropospheric flow and warm, but variable, sea surface temperatures in the ETP, respectively. These ocean-atmosphere responses reflect the tropical Pacific's response to radiative forcing described by the ocean dynamical thermostat model (Clement et al. 1996). Long-term δ18Ocal trends at Pumacocha suggest that the ... Thesis Arctic Arctic Brooks Range Climate change Alaska University of Pittsburgh: D-Scholarship@Pitt Arctic Pacific Alpine Lake ENVELOPE(-129.182,-129.182,55.529,55.529) Blue Lake ENVELOPE(166.167,166.167,-77.533,-77.533)
institution Open Polar
collection University of Pittsburgh: D-Scholarship@Pitt
op_collection_id ftunivpittsburgh
language English
description High-resolution sediment archives from small alpine lakes in the Alaskan Arctic and tropical Andes were used to investigate Holocene climate change in these climatically sensitive and important regions. Varved minerogenic sediments from glacial-fed Blue Lake, Brooks Range Alaska (1275 m asl), were used to derive a proxy temperature record between AD 730-2005. Cool temperatures characterize the late Holocene (last millennial average, or LMA = 4.2 °C) with 20th century warming anomalous within the context of the last 1275 years (0.8°C above LMA). However, temperatures between AD 1350-1450 and AD 1500-1620 approached modern values (0.4 and 0.3°C above LMA, respectively). Prolonged cooling at Blue Lake occurred from AD 1620-1880, during the Little Ice Age (LIA). LIA cooling and 20th century warming correspond to radiative minima and maxima, respectively. However, the relationship between radiative forcing and temperature is not consistent through the record, suggesting that other factors contributed to temperature variability in this region. In the tropics, South American summer monsoon (SASM) variability during the last 2300 years was reconstructed from oxygen isotope ratios of authigenic carbonate (δ18Ocal) preserved in varved sediments from Laguna Pumacocha (4300 m asl), Peru. High δ18Ocal values and reduced variability during the Medieval Climate Anomaly (MCA; AD 920-1050) suggest that the SASM and El Niño-Southern Oscillation (ENSO) were weak due to reduced easterly tropospheric flow and cooling within the eastern tropical Pacific (ETP). Low δ18Ocal from during the LIA (AD 1415-1820) and enhanced variability from AD 1415-1770 suggest that the SASM and ENSO were strong as a result of enhanced easterly tropospheric flow and warm, but variable, sea surface temperatures in the ETP, respectively. These ocean-atmosphere responses reflect the tropical Pacific's response to radiative forcing described by the ocean dynamical thermostat model (Clement et al. 1996). Long-term δ18Ocal trends at Pumacocha suggest that the ...
format Thesis
author Bird, Broxton Williams
spellingShingle Bird, Broxton Williams
MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
author_facet Bird, Broxton Williams
author_sort Bird, Broxton Williams
title MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
title_short MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
title_full MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
title_fullStr MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
title_full_unstemmed MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES
title_sort millennial- to annual-scale holocene climate change in the alaskan arctic and tropical andes inferred from physical sedimentology and geochemical indicators preserved in finely laminated alpine lake sediment archives
publishDate 2009
url http://d-scholarship.pitt.edu/8389/
http://d-scholarship.pitt.edu/8389/1/090821_BIRD_ETD.pdf
long_lat ENVELOPE(-129.182,-129.182,55.529,55.529)
ENVELOPE(166.167,166.167,-77.533,-77.533)
geographic Arctic
Pacific
Alpine Lake
Blue Lake
geographic_facet Arctic
Pacific
Alpine Lake
Blue Lake
genre Arctic
Arctic
Brooks Range
Climate change
Alaska
genre_facet Arctic
Arctic
Brooks Range
Climate change
Alaska
op_relation http://d-scholarship.pitt.edu/8389/1/090821_BIRD_ETD.pdf
Bird, Broxton Williams (2009) MILLENNIAL- TO ANNUAL-SCALE HOLOCENE CLIMATE CHANGE IN THE ALASKAN ARCTIC AND TROPICAL ANDES INFERRED FROM PHYSICAL SEDIMENTOLOGY AND GEOCHEMICAL INDICATORS PRESERVED IN FINELY LAMINATED ALPINE LAKE SEDIMENT ARCHIVES. Doctoral Dissertation, University of Pittsburgh. (Unpublished)
_version_ 1776197586462441472

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