MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)

EPA Identifier: U916235 Title: Microbially Mediated Soil Carbon Decomposition in High Northern Latitudes Fellow (Principal Investigator): Nicole V. Smith Institution: California Institute of Technology EPA Grant Representative: Karen Morehouse Project Period: January 1, 2003 - January 1, 2006 Projec...

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Format: Text
Language:unknown
Published: 2007
Subjects:
Canada
Alaska
Siberia
Online Access:http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=83233
id ftepa:oai:epaEIMS:83233
record_format openpolar
spelling ftepa:oai:epaEIMS:83233 2023-05-15T18:49:04+02:00 MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235) 2007-05-03T05:27:05Z http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=83233 unknown NATIONAL CENTER FOR ENVIRONMENTAL RESEARCH Text 2007 ftepa 2007-11-21T14:48:06Z EPA Identifier: U916235 Title: Microbially Mediated Soil Carbon Decomposition in High Northern Latitudes Fellow (Principal Investigator): Nicole V. Smith Institution: California Institute of Technology EPA Grant Representative: Karen Morehouse Project Period: January 1, 2003 - January 1, 2006 Project Amount: $0 RFA: STAR Graduate Fellowships Research Category: Fellowship - Environmental Engineering Description Objective: The objective of this research project is to estimate the effects of climate change on the carbon balance of northern ecosystems using a combination of passive microwave satellite data and fieldwork to constrain the heterotrophic respiration component of net ecosystem productivity (NEP). Approach: Net ecosystem productivity is the balance between plant productivity and heterotrophic respiration, and is the net flux of carbon from an ecosystem to the atmosphere. Currently, the normalized difference vegetation index (NDVI) is used extensively to characterize changes in plant productivity over time, but there is no similar method to estimate heterotrophic respiration at a large scale. The rate of heterotrophic respiration is strongly dependent on the freeze-thaw state of an ecosystem, and I propose to construct a record of freeze-thaw cycles at latitudes above 45°N since 1978, using passive microwave satellite data. This record, validated by field data from Alaska, Canada, and Siberia, will be used to assess the impact of freeze-thaw timing changes (because of global warming) and interannual variability on northern ecosystem net ecosystem productivity and the global carbon cycle. I will develop a model of heterotrophic respiration using the freeze-thaw product as a driver of microbially mediated decomposition in soils and integrate this module into CASA, a model of net primary productivity based on NDVI. The modified version of CASA will estimate carbon fluxes to the atmosphere since 1978, and will quantify the accumulation or loss of carbon from northern ecosystems in response to recent temperature increases. Supplemental Keywords: fellowship, net ecosystem productivity, NEP, normalized difference vegetation index, NDVI, plant productivity, soil carbon decomposition, high northern latitudes, soils, heterotrophic respiration, net primary productivity model, CASA, carbon fluxes, carbon balance, climate change. Text Alaska Siberia Environmental Protection Agency (EPA): Science Inventory Canada
institution Open Polar
collection Environmental Protection Agency (EPA): Science Inventory
op_collection_id ftepa
language unknown
description EPA Identifier: U916235 Title: Microbially Mediated Soil Carbon Decomposition in High Northern Latitudes Fellow (Principal Investigator): Nicole V. Smith Institution: California Institute of Technology EPA Grant Representative: Karen Morehouse Project Period: January 1, 2003 - January 1, 2006 Project Amount: $0 RFA: STAR Graduate Fellowships Research Category: Fellowship - Environmental Engineering Description Objective: The objective of this research project is to estimate the effects of climate change on the carbon balance of northern ecosystems using a combination of passive microwave satellite data and fieldwork to constrain the heterotrophic respiration component of net ecosystem productivity (NEP). Approach: Net ecosystem productivity is the balance between plant productivity and heterotrophic respiration, and is the net flux of carbon from an ecosystem to the atmosphere. Currently, the normalized difference vegetation index (NDVI) is used extensively to characterize changes in plant productivity over time, but there is no similar method to estimate heterotrophic respiration at a large scale. The rate of heterotrophic respiration is strongly dependent on the freeze-thaw state of an ecosystem, and I propose to construct a record of freeze-thaw cycles at latitudes above 45°N since 1978, using passive microwave satellite data. This record, validated by field data from Alaska, Canada, and Siberia, will be used to assess the impact of freeze-thaw timing changes (because of global warming) and interannual variability on northern ecosystem net ecosystem productivity and the global carbon cycle. I will develop a model of heterotrophic respiration using the freeze-thaw product as a driver of microbially mediated decomposition in soils and integrate this module into CASA, a model of net primary productivity based on NDVI. The modified version of CASA will estimate carbon fluxes to the atmosphere since 1978, and will quantify the accumulation or loss of carbon from northern ecosystems in response to recent temperature increases. Supplemental Keywords: fellowship, net ecosystem productivity, NEP, normalized difference vegetation index, NDVI, plant productivity, soil carbon decomposition, high northern latitudes, soils, heterotrophic respiration, net primary productivity model, CASA, carbon fluxes, carbon balance, climate change.
format Text
title MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
spellingShingle MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
title_short MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
title_full MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
title_fullStr MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
title_full_unstemmed MICROBIALLY MEDIATED SOIL CARBON DECOMPOSITION IN HIGH NORTHERN LATITUDES (U916235)
title_sort microbially mediated soil carbon decomposition in high northern latitudes (u916235)
publishDate 2007
url http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=83233
geographic Canada
geographic_facet Canada
genre Alaska
Siberia
genre_facet Alaska
Siberia
op_source NATIONAL CENTER FOR ENVIRONMENTAL RESEARCH
_version_ 1766242520531992576

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