Can current moisture responses predict soil CO2 efflux under altered 
precipitation regimes? A synthesis of manipulation experiments

Vicca, S.; Bahn, M.; Estiarte, M.; van Loon, E. E.; Vargas, R.; Alberti, G.; Ambus, P.; Arain, M. A.; Beier, C.; Bentley, L. P.; Borken, W.; Buchmann, N.; Collins, S. L.; de Dato, G.; Dukes, J. S.; Escolar, C.; Fay, P.; Guidolotti, G.; Hanson, P. J.; Kahmen, A.; Kröel-Dulay, G.; Ladreiter-Knauss, T.; Larsen, K. S.; Lellei-Kovacs, E.; Lebrija-Trejos, E.; Maestre, F. T.; Marhan, S.; Marshall, M.; Meir, P.; Miao, Y.; Muhr, Jan; Niklaus, P. A.; Ogaya, R.; Peñuelas, J.; Poll, C.; Rustad, L. E.; Savage, K.; Schindlbacher, A.; Schmidt, I. K.; Smith, A. R.; Sotta, E. D.; Suseela, V.; Tietema, A.; van Gestel, N.; van Straaten, O.; Wan, S.; Weber, Ulrich; Janssens, I. A.

doi:10.5194/bg-11-3307-2014

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Can current moisture responses predict soil CO₂ efflux under altered precipitation regimes? A synthesis of manipulation experiments

Vicca, S., Bahn, M., Estiarte, M., van Loon, E. E., Vargas, R., Alberti, G., et al. (2014). Can current moisture responses predict soil CO₂ efflux under altered precipitation regimes? A synthesis of manipulation experiments. Biogeosciences, 11(12), 3307-3308. doi:10.5194/bg-11-3307-2014.

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Vicca, S., Author
Bahn, M., Author
Estiarte, M., Author
van Loon, E. E., Author
Vargas, R., Author
Alberti, G., Author
Ambus, P., Author
Arain, M. A., Author
Beier, C., Author
Bentley, L. P., Author
Borken, W., Author
Buchmann, N., Author
Collins, S. L., Author
de Dato, G., Author
Dukes, J. S., Author
Escolar, C., Author
Fay, P., Author
Guidolotti, G., Author
Hanson, P. J., Author
Kahmen, A., Author
Kröel-Dulay, G., AuthorLadreiter-Knauss, T., AuthorLarsen, K. S., AuthorLellei-Kovacs, E., AuthorLebrija-Trejos, E., AuthorMaestre, F. T., AuthorMarhan, S., AuthorMarshall, M., AuthorMeir, P., AuthorMiao, Y., AuthorMuhr, Jan¹, Author Niklaus, P. A., AuthorOgaya, R., AuthorPeñuelas, J., AuthorPoll, C., AuthorRustad, L. E., AuthorSavage, K., AuthorSchindlbacher, A., AuthorSchmidt, I. K., AuthorSmith, A. R., AuthorSotta, E. D., AuthorSuseela, V., AuthorTietema, A., Authorvan Gestel, N., Authorvan Straaten, O., AuthorWan, S., AuthorWeber, Ulrich², Author Janssens, I. A., Author more..

Affiliations:
1Tree Reserve Carbon Pools, Dr. J. Muhr, Department Biogeochemical Processes, Prof. S. E. Trumbore, Max Planck Institute for Biogeochemistry, Max Planck Society, ou_1497780
2Department Biogeochemical Integration, Dr. M. Reichstein, Max Planck Institute for Biogeochemistry, Max Planck Society, ou_1688139

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Abstract: As a key component of the carbon cycle, soil CO2 efflux (SCE) is being increasingly studied to improve our mechanistic understanding of this important carbon flux. Predicting ecosystem responses to climate change often depends on extrapolation of cur-5 rent relationships between ecosystem processes and their climatic drivers to conditions not yet experienced by the ecosystem. This raises the question to what extent these relationships remain unaltered beyond the current climatic window for which observations are available to constrain the relationships. Here, we evaluate whether current responses of SCE to fluctuations in soil temperature and soil water content can be 10 used to predict SCE under altered rainfall patterns. Of the 58 experiments for which we gathered SCE data, 20 were discarded because either too few data were available, or inconsistencies precluded their incorporation in the analyses. The 38 remaining experiments were used to test the hypothesis that a model parameterized with data from the control plots (using soil temperature and water content as predictor vari15 ables) could adequately predict SCE measured in the manipulated treatment. Only for seven of these 38 experiments, this hypothesis was rejected. Importantly, these were the experiments with the most reliable datasets, i.e., those providing high-frequency measurements of SCE. Accordingly, regression tree analysis demonstrated that measurement frequency was crucial; our hypothesis could be rejected only for experiments 20 with measurement intervals of less than 11 days, and was not rejected for any of the 24 experiments with larger measurement intervals. This highlights the importance of high-frequency measurements when studying effects of altered precipitation on SCE, probably because infrequent measurement schemes have insufficient capacity to detect shifts in the climate-dependencies of SCE. We strongly recommend that future 25 experiments focus more strongly on establishing response functions across a broader range of precipitation regimes and soil moisture conditions. Such experiments should make accurate measurements of water availability, they require high-frequency SCE measurements and they should consider both instantaneous responses and the po-tential legacy effects of climate extremes. This is important, because we demonstrated that at least for some ecosystems, current moisture responses cannot be extrapolated to predict SCE under altered rainfall.

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Dates: Accepted: 2014-01-14Published Online: 2014-06-06Date issued: 2014

Publication Status: Issued

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Identifiers: Other: BGC2019
DOI: 10.5194/bg-11-3307-2014

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Title: Biogeosciences

Other : Biogeosciences

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Publ. Info: Katlenburg-Lindau, Germany : Copernicus GmbH on behalf of the European Geosciences Union

Pages: - Volume / Issue: 11 (12) Sequence Number: - Start / End Page: 3307 - 3308 Identifier: ISSN: 1726-4170
CoNE: https://pure.mpg.de/cone/journals/resource/111087929276006