Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea

Coastal ecosystems of the Arctic receive extraordinarily large quantities of terrestrial organic matter through river discharge and shoreline erosion. The fate of this organic matter is of local interest as it relates to biological production in the coastal ocean. It is also of broader interest with...

Full description

Bibliographic Details
Main Authors: Kenneth Dunton, Byron Crump
Format: Dataset
Language:unknown
Published: Arctic Data Center 2014
Subjects:
ARCSS
Arctic
Arctic Ocean
Barter Island
Beaufort Sea
Climate change
Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
Inupiaq
Online Access:https://search.dataone.org/view/urn:uuid:678f5399-a1f2-49b0-9bfd-db4155a78b9a
id dataone:urn:uuid:678f5399-a1f2-49b0-9bfd-db4155a78b9a
record_format openpolar
spelling dataone:urn:uuid:678f5399-a1f2-49b0-9bfd-db4155a78b9a 2024-06-03T18:46:32+00:00 Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea Kenneth Dunton Byron Crump No geographic description provided. ENVELOPE(-144.19,-141.267,70.153,69.634) BEGINDATE: 2010-09-01T00:00:00Z ENDDATE: 2014-08-31T00:00:00Z 2014-11-18T00:00:00Z https://search.dataone.org/view/urn:uuid:678f5399-a1f2-49b0-9bfd-db4155a78b9a unknown Arctic Data Center ARCSS Dataset 2014 dataone:urn:node:ARCTIC 2024-06-03T18:08:13Z Coastal ecosystems of the Arctic receive extraordinarily large quantities of terrestrial organic matter through river discharge and shoreline erosion. The fate of this organic matter is of local interest as it relates to biological production in the coastal ocean. It is also of broader interest with respect to global biogeochemical cycling. The prevailing paradigm is that terrestrial organic matter inputs to the Arctic Ocean are highly recalcitrant. However, most studies supporting this paradigm have been conducted during mid- to late- summer. This effort is based on the premise that terrestrial organic matter, in both dissolved and particulate form, provides an important carbon and energy subsidy that supports and maintains heterotrophic activity and food webs in coastal waters during much of the year. The work will focus on a set of 12 field sites along the Alaskan Beaufort Sea coast, in the vicinity of Barter Island and the Inupiaq village of Kaktovik. Comparisons among sites ranging from lagoons to open coastal systems that receive differing amounts of freshwater runoff and also differ markedly in their exchange characteristics with shelf waters will be used to examine linkages between biological communities and organic matter inputs from land. Examining these linkages will help determine how seasonally distinct terrestrial inputs of water and organic matter influence microbial and metazoan communities in coastal waters of the Alaskan Beaufort Sea. Researchers will address this question thorough a seasonally explicit sampling program that includes field trips during the 9-month ice covered period as well as summer. Measurements of water and sediment chemistry, benthic and water column community characteristics, and natural abundance isotopic tracers will be used to evaluate the importance of terrestrial inputs under different hydrologic/hydrographic conditions. Understanding the fate of terrestrial carbon in arctic coastal waters is especially important now, as the arctic system enters a period of rapid climatic change. Changes in terrestrial organic matter export could influence total production as well as the relative roles of autotrophy and heterotrophy in arctic coastal waters. Such shifts have consequences for local human populations that use coastal food webs for subsistence and for the broad scientific community interested in land-sea coupling. This work focuses on fundamental questions about the fate of terrestrial organic matter in arctic coastal waters that must be answered before we can effectively consider future changes in land-sea coupling in the Arctic. This collaborative project will support the dissertation research of two graduate students and two post-doctoral associates and also continue a very successful K-12 outreach program, entitled ?Climate Change in the Arctic: An Interactive Program Linking Scientists with K-12 Students? that includes the establishment of a summer field science program for native Kaktovik K-12 students. The Village Council has expressed keen enthusiasm to involve middle school students in hands-on science activities that can be provided in conjunction with teachers from the Kaktovik school district. Dataset Arctic Arctic Ocean Barter Island Beaufort Sea Climate change Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea Inupiaq Arctic Data Center (via DataONE) Arctic Arctic Ocean ENVELOPE(-144.19,-141.267,70.153,69.634)
institution Open Polar
collection Arctic Data Center (via DataONE)
op_collection_id dataone:urn:node:ARCTIC
language unknown
topic ARCSS
spellingShingle ARCSS
Kenneth Dunton
Byron Crump
Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
topic_facet ARCSS
description Coastal ecosystems of the Arctic receive extraordinarily large quantities of terrestrial organic matter through river discharge and shoreline erosion. The fate of this organic matter is of local interest as it relates to biological production in the coastal ocean. It is also of broader interest with respect to global biogeochemical cycling. The prevailing paradigm is that terrestrial organic matter inputs to the Arctic Ocean are highly recalcitrant. However, most studies supporting this paradigm have been conducted during mid- to late- summer. This effort is based on the premise that terrestrial organic matter, in both dissolved and particulate form, provides an important carbon and energy subsidy that supports and maintains heterotrophic activity and food webs in coastal waters during much of the year. The work will focus on a set of 12 field sites along the Alaskan Beaufort Sea coast, in the vicinity of Barter Island and the Inupiaq village of Kaktovik. Comparisons among sites ranging from lagoons to open coastal systems that receive differing amounts of freshwater runoff and also differ markedly in their exchange characteristics with shelf waters will be used to examine linkages between biological communities and organic matter inputs from land. Examining these linkages will help determine how seasonally distinct terrestrial inputs of water and organic matter influence microbial and metazoan communities in coastal waters of the Alaskan Beaufort Sea. Researchers will address this question thorough a seasonally explicit sampling program that includes field trips during the 9-month ice covered period as well as summer. Measurements of water and sediment chemistry, benthic and water column community characteristics, and natural abundance isotopic tracers will be used to evaluate the importance of terrestrial inputs under different hydrologic/hydrographic conditions. Understanding the fate of terrestrial carbon in arctic coastal waters is especially important now, as the arctic system enters a period of rapid climatic change. Changes in terrestrial organic matter export could influence total production as well as the relative roles of autotrophy and heterotrophy in arctic coastal waters. Such shifts have consequences for local human populations that use coastal food webs for subsistence and for the broad scientific community interested in land-sea coupling. This work focuses on fundamental questions about the fate of terrestrial organic matter in arctic coastal waters that must be answered before we can effectively consider future changes in land-sea coupling in the Arctic. This collaborative project will support the dissertation research of two graduate students and two post-doctoral associates and also continue a very successful K-12 outreach program, entitled ?Climate Change in the Arctic: An Interactive Program Linking Scientists with K-12 Students? that includes the establishment of a summer field science program for native Kaktovik K-12 students. The Village Council has expressed keen enthusiasm to involve middle school students in hands-on science activities that can be provided in conjunction with teachers from the Kaktovik school district.
format Dataset
author Kenneth Dunton
Byron Crump
author_facet Kenneth Dunton
Byron Crump
author_sort Kenneth Dunton
title Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
title_short Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
title_full Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
title_fullStr Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
title_full_unstemmed Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
title_sort collaborative research: terrestrial linkages to microbial and metazoan communities in coastal ecosystems of the beaufort sea
publisher Arctic Data Center
publishDate 2014
url https://search.dataone.org/view/urn:uuid:678f5399-a1f2-49b0-9bfd-db4155a78b9a
op_coverage No geographic description provided.
ENVELOPE(-144.19,-141.267,70.153,69.634)
BEGINDATE: 2010-09-01T00:00:00Z ENDDATE: 2014-08-31T00:00:00Z
long_lat ENVELOPE(-144.19,-141.267,70.153,69.634)
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
Barter Island
Beaufort Sea
Climate change
Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
Inupiaq
genre_facet Arctic
Arctic Ocean
Barter Island
Beaufort Sea
Climate change
Collaborative Research: Terrestrial Linkages to Microbial and Metazoan Communities in Coastal Ecosystems of the Beaufort Sea
Inupiaq
_version_ 1800867319853875200

Similar Items