The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland

The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland

This study investigates how warming and changes in precipitation may affect the cycling of carbon (C) in tundra soils, and between high Arctic tundra and the atmosphere. We quantified ecosystem respiration (<i>R</i><sub>eco</sub>) and soil pore space CO<sub>2</sub>...

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Main Authors: M. Lupascu, J. M. Welker, U. Seibt, X. Xu, I. Velicogna, D. S. Lindsey, C. I. Czimczik
Format: Article
Language:English
Published: Copernicus Publications 2014-08-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/11/4289/2014/bg-11-4289-2014.pdf
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spelling doaj-fb033808ddb742ceaf1384e6ff7e3a892020-11-25T00:53:36ZengCopernicus PublicationsBiogeosciences1726-41701726-41892014-08-0111164289430410.5194/bg-11-4289-2014The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern GreenlandM. Lupascu0J. M. Welker1U. Seibt2X. Xu3I. Velicogna4D. S. Lindsey5C. I. Czimczik6Department of Earth System Science, University of California, Irvine, Irvine, California 92697-3100, USADepartment of Biological Sciences, University of Alaska, Anchorage, Anchorage, Alaska 99508, USADepartment of Atmospheric and Oceanic Science, University of California, Los Angeles, Los Angeles, California, 90095, USADepartment of Earth System Science, University of California, Irvine, Irvine, California 92697-3100, USADepartment of Earth System Science, University of California, Irvine, Irvine, California 92697-3100, USADepartment of Earth System Science, University of California, Irvine, Irvine, California 92697-3100, USADepartment of Earth System Science, University of California, Irvine, Irvine, California 92697-3100, USAThis study investigates how warming and changes in precipitation may affect the cycling of carbon (C) in tundra soils, and between high Arctic tundra and the atmosphere. We quantified ecosystem respiration (<i>R</i><sub>eco</sub>) and soil pore space CO<sub>2</sub> in a polar semi-desert in northwestern Greenland under current and future climate conditions simulated by long-term experimental warming (+2 °C, +4 °C), water addition (+50% summer precipitation), and a combination of both (+4 °C × +50% summer precipitation). We also measured the <sup>14</sup>C content of <i>R</i><sub>eco</sub> and soil CO<sub>2</sub> to distinguish young C cycling rapidly between the atmosphere and the ecosystem from older C stored in the soil for centuries to millennia. <br><br> We identified changes in the amount and timing of precipitation as a key control of the magnitude, seasonality and sources of <i>R</i><sub>eco</sub> in a polar semi-desert. Throughout each summer, small (<4 mm) precipitation events during drier periods triggered the release of very old C pulses from the deep soil, while larger precipitation events (>4 mm), more winter snow and experimental irrigation were associated with higher <i>R</i><sub>eco</sub> fluxes and the release of recently fixed (young) C. Warmer summers and experimental warming also resulted in higher <i>R</i><sub>eco</sub> fluxes (+2 °C > +4 °C), but coincided with losses of older C. <br><br> We conclude that in high Arctic, dry tundra systems, future magnitudes and patterns of old C emissions will be controlled as much by the summer precipitation regime and winter snowpack as by warming. The release of older soil C is of concern, as it may lead to net C losses from the ecosystem. Therefore, reliable predictions of precipitation amounts, frequency, and timing are required to predict the changing C cycle in the high Arctic.http://www.biogeosciences.net/11/4289/2014/bg-11-4289-2014.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Lupascu
J. M. Welker
U. Seibt
X. Xu
I. Velicogna
D. S. Lindsey
C. I. Czimczik
spellingShingle M. Lupascu
J. M. Welker
U. Seibt
X. Xu
I. Velicogna
D. S. Lindsey
C. I. Czimczik
The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
Biogeosciences
author_facet M. Lupascu
J. M. Welker
U. Seibt
X. Xu
I. Velicogna
D. S. Lindsey
C. I. Czimczik
author_sort M. Lupascu
title The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
title_short The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
title_full The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
title_fullStr The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
title_full_unstemmed The amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>C) of ecosystem respiration in a polar semi-desert, northwestern Greenland
title_sort amount and timing of precipitation control the magnitude, seasonality and sources (<sup>14</sup>c) of ecosystem respiration in a polar semi-desert, northwestern greenland
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2014-08-01
description This study investigates how warming and changes in precipitation may affect the cycling of carbon (C) in tundra soils, and between high Arctic tundra and the atmosphere. We quantified ecosystem respiration (<i>R</i><sub>eco</sub>) and soil pore space CO<sub>2</sub> in a polar semi-desert in northwestern Greenland under current and future climate conditions simulated by long-term experimental warming (+2 °C, +4 °C), water addition (+50% summer precipitation), and a combination of both (+4 °C × +50% summer precipitation). We also measured the <sup>14</sup>C content of <i>R</i><sub>eco</sub> and soil CO<sub>2</sub> to distinguish young C cycling rapidly between the atmosphere and the ecosystem from older C stored in the soil for centuries to millennia. <br><br> We identified changes in the amount and timing of precipitation as a key control of the magnitude, seasonality and sources of <i>R</i><sub>eco</sub> in a polar semi-desert. Throughout each summer, small (<4 mm) precipitation events during drier periods triggered the release of very old C pulses from the deep soil, while larger precipitation events (>4 mm), more winter snow and experimental irrigation were associated with higher <i>R</i><sub>eco</sub> fluxes and the release of recently fixed (young) C. Warmer summers and experimental warming also resulted in higher <i>R</i><sub>eco</sub> fluxes (+2 °C > +4 °C), but coincided with losses of older C. <br><br> We conclude that in high Arctic, dry tundra systems, future magnitudes and patterns of old C emissions will be controlled as much by the summer precipitation regime and winter snowpack as by warming. The release of older soil C is of concern, as it may lead to net C losses from the ecosystem. Therefore, reliable predictions of precipitation amounts, frequency, and timing are required to predict the changing C cycle in the high Arctic.
url http://www.biogeosciences.net/11/4289/2014/bg-11-4289-2014.pdf
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