M.: The temperature responses of soil respiration in deserts: a seven desert synthesis

Abstract The temperature response of soil respiration in deserts is not well quantified. We evaluated the response of respiration to temperatures spanning 67°C from seven deserts across North America and Greenland. Deserts have similar respiration rates in dry soil at 20°C, and as expected, respirat...

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Main Authors: Jessica M Cable, Kiona Ogle, Richard W Lucas, Travis E Huxman, Michael E Loik, Stanley D Smith, David T Tissue, Brent E Ewers, Elise Pendall, Jeffrey M Welker, Therese N Charlet, Meagan Cleary, Alden Griffith, Robert S Nowak, Matthew Rogers, Heidi Steltzer, • Patrick, F Sullivan, Natasja C Van Gestel, K Ogle, Á B E Ewers, Á E Pendall, Á M Cleary, R W Lucas, T E Huxman, M E Loik, S D Smith, Á T N Charlet, D T Tissue, Á N C Van Gestel
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
Greenland
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1047.6578
http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf
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spelling ftciteseerx:oai:CiteSeerX.psu:10.1.1.1047.6578 2023-05-15T16:29:12+02:00 M.: The temperature responses of soil respiration in deserts: a seven desert synthesis Jessica M Cable Kiona Ogle Richard W Lucas Travis E Huxman Michael E Loik Stanley D Smith David T Tissue Brent E Ewers Elise Pendall Jeffrey M Welker Therese N Charlet Meagan Cleary Alden Griffith Robert S Nowak Matthew Rogers Heidi Steltzer • Patrick F Sullivan Natasja C Van Gestel K Ogle Á B E Ewers Á E Pendall Á M Cleary R W Lucas T E Huxman M E Loik S D Smith Á T N Charlet D T Tissue Á N C Van Gestel The Pennsylvania State University CiteSeerX Archives application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1047.6578 http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1047.6578 http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf text ftciteseerx 2020-04-05T00:21:39Z Abstract The temperature response of soil respiration in deserts is not well quantified. We evaluated the response of respiration to temperatures spanning 67°C from seven deserts across North America and Greenland. Deserts have similar respiration rates in dry soil at 20°C, and as expected, respiration rates are greater under wet conditions, rivaling rates observed for more mesic systems. However, deserts differ in their respiration rates under wet soil at 20°C and in the strength of the effect of current and antecedent soil moisture on the sensitivity and magnitude of respiration. Respiration increases with temperature below 30°C but declines for temperatures exceeding 35°C. Hot deserts have lower temperature sensitivity than cold deserts, and insensitive or negative temperature sensitivities were predicted under certain moisture conditions that differed among deserts. These results have implications for large-scale modeling efforts because we highlight the unique behavior of desert soil respiration relative to other systems. These behaviors include variable temperature responses and the importance of antecedent moisture conditions for soil respiration. Electronic supplementary material The online version of this article Text Greenland Unknown Greenland
institution Open Polar
collection Unknown
op_collection_id ftciteseerx
language English
description Abstract The temperature response of soil respiration in deserts is not well quantified. We evaluated the response of respiration to temperatures spanning 67°C from seven deserts across North America and Greenland. Deserts have similar respiration rates in dry soil at 20°C, and as expected, respiration rates are greater under wet conditions, rivaling rates observed for more mesic systems. However, deserts differ in their respiration rates under wet soil at 20°C and in the strength of the effect of current and antecedent soil moisture on the sensitivity and magnitude of respiration. Respiration increases with temperature below 30°C but declines for temperatures exceeding 35°C. Hot deserts have lower temperature sensitivity than cold deserts, and insensitive or negative temperature sensitivities were predicted under certain moisture conditions that differed among deserts. These results have implications for large-scale modeling efforts because we highlight the unique behavior of desert soil respiration relative to other systems. These behaviors include variable temperature responses and the importance of antecedent moisture conditions for soil respiration. Electronic supplementary material The online version of this article
author2 The Pennsylvania State University CiteSeerX Archives
format Text
author Jessica M Cable
Kiona Ogle
Richard W Lucas
Travis E Huxman
Michael E Loik
Stanley D Smith
David T Tissue
Brent E Ewers
Elise Pendall
Jeffrey M Welker
Therese N Charlet
Meagan Cleary
Alden Griffith
Robert S Nowak
Matthew Rogers
Heidi Steltzer
• Patrick
F Sullivan
Natasja C Van Gestel
K Ogle
Á B E Ewers
Á E Pendall
Á M Cleary
R W Lucas
T E Huxman
M E Loik
S D Smith
Á T N Charlet
D T Tissue
Á N C Van Gestel
spellingShingle Jessica M Cable
Kiona Ogle
Richard W Lucas
Travis E Huxman
Michael E Loik
Stanley D Smith
David T Tissue
Brent E Ewers
Elise Pendall
Jeffrey M Welker
Therese N Charlet
Meagan Cleary
Alden Griffith
Robert S Nowak
Matthew Rogers
Heidi Steltzer
• Patrick
F Sullivan
Natasja C Van Gestel
K Ogle
Á B E Ewers
Á E Pendall
Á M Cleary
R W Lucas
T E Huxman
M E Loik
S D Smith
Á T N Charlet
D T Tissue
Á N C Van Gestel
M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
author_facet Jessica M Cable
Kiona Ogle
Richard W Lucas
Travis E Huxman
Michael E Loik
Stanley D Smith
David T Tissue
Brent E Ewers
Elise Pendall
Jeffrey M Welker
Therese N Charlet
Meagan Cleary
Alden Griffith
Robert S Nowak
Matthew Rogers
Heidi Steltzer
• Patrick
F Sullivan
Natasja C Van Gestel
K Ogle
Á B E Ewers
Á E Pendall
Á M Cleary
R W Lucas
T E Huxman
M E Loik
S D Smith
Á T N Charlet
D T Tissue
Á N C Van Gestel
author_sort Jessica M Cable
title M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
title_short M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
title_full M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
title_fullStr M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
title_full_unstemmed M.: The temperature responses of soil respiration in deserts: a seven desert synthesis
title_sort m.: the temperature responses of soil respiration in deserts: a seven desert synthesis
url http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1047.6578
http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf
geographic Greenland
geographic_facet Greenland
genre Greenland
genre_facet Greenland
op_source http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf
op_relation http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1047.6578
http://www.unm.edu/%7Eunmvclib/cascade/handouts/soilrespiration.pdf
op_rights Metadata may be used without restrictions as long as the oai identifier remains attached to it.
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