Decomposability of soil organic matter over time: The Soil Incubation Database (SIDb, version 1.0) and guidance for incubation procedures

Schädel, Christina; Beem-Miller, Jeffrey; Rad, Mina Aziz; Crow, Susan E.; Pries, Caitlin Hicks; Ernakovich, Jessica G.; Hoyt, Alison M.; Plante, Alain F.; Stoner, Shane; Treat, Claire C.; Sierra, Carlos A.

doi:10.5194/essd-2019-184

Cited by 3 publications

(2 citation statements)

References 38 publications

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“…Designing a common data framework and compiling publicly available SWC into a global database is important in building continental-to global-scale SWC products. Efforts (Schädel et al, 2019). The SIDb provides a common framework for carbon flux incubation data.…”

Section: Discussionmentioning

confidence: 99%

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

Steele

Zhang

Bailey

et al. 2021

European J Soil Science

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Soil respiration (R S ), the soil-to-atmosphere CO 2 flux that is a major component of the global carbon cycle, is strongly influenced by local soil temperature (T soil ) and water content (SWC). Regional to global-scale R S modelling thus requires this information at local scales, but few high-quality, wall-to-wall (global) T soil and SWC data exist. As a result, such modelling efforts commonly use air temperature (T air ) and monthly precipitation (P m ) as surrogate predictors, but their site-scale accuracy and potential bias are unknown. Here, we used monthly data from 880 sites across a wide variety of different environmental conditions (i.e., climate, ecosystem type, elevation, vegetation leaf habit and drainage conditions) to determine the suitability of T air as a surrogate for T soil , and data from 507 sites to examine the suitability of P m as a surrogate for SWC. Site-specific linear and second-order exponential non-linear models were compared using model evaluation metrics (i.e., slope, p-value of slope, root mean square error [RMSE], index of agreement and model efficiency). We found that T soil and T air are highly correlated and explain similar R S variability.In contrast, P m is not a good surrogate for SWC, even though P m explains a similar amount of R S variability to SWC. The wide variability in the sitespecific relationships between R S and SWC means that no single relationship can be used for large-scale modelling. The results from this study support the use of T air in continental-to-global scale R S models, and highlight the urgent need for continental-to-global scale SWC datasets for the modelling and evaluation of future soil carbon dynamics under global climate change. Highlights• The accuracy of air temperature and precipitation as surrogates in global soil respiration modelling is unknown.

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Section: Discussionmentioning

confidence: 99%

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

Steele

Zhang

Bailey

et al. 2021

European J Soil Science

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“…Various semi-mechanistic models exist, which are rather data intensive, thus requiring empirical analyses and model calibration to local conditions. (Clivot et al, 2019;Schädel et al, 2019) Figures…”

Section: Mixture Effectsmentioning

confidence: 99%

Trace contaminants in the environmental assessment of organic waste recycling in agriculture: Gaps between methods and knowledge

Avadí

Benoît

Bravin

et al. 2022

Advances in Agronomy

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Leveraging the signature of heterotrophic respiration on atmospheric CO<sub>2</sub> for model benchmarking

et al. 2020

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Abstract. Spatial and temporal variations in atmospheric carbon dioxide (CO2) reflect large-scale net carbon exchange between the atmosphere and terrestrial ecosystems. Soil heterotrophic respiration (HR) is one of the component fluxes that drive this net exchange, but, given observational limitations, it is difficult to quantify this flux or to evaluate global-scale model simulations thereof. Here, we show that atmospheric CO2 can provide a useful constraint on large-scale patterns of soil heterotrophic respiration. We analyze three soil model configurations (CASA-CNP, MIMICS, and CORPSE) that simulate HR fluxes within a biogeochemical test bed that provides each model with identical net primary productivity (NPP) and climate forcings. We subsequently quantify the effects of variation in simulated terrestrial carbon fluxes (NPP and HR from the three soil test-bed models) on atmospheric CO2 distributions using a three-dimensional atmospheric tracer transport model. Our results show that atmospheric CO2 observations can be used to identify deficiencies in model simulations of the seasonal cycle and interannual variability in HR relative to NPP. In particular, the two models that explicitly simulated microbial processes (MIMICS and CORPSE) were more variable than observations at interannual timescales and showed a stronger-than-observed temperature sensitivity. Our results prompt future research directions to use atmospheric CO2, in combination with additional constraints on terrestrial productivity or soil carbon stocks, for evaluating HR fluxes.

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Decomposability of soil organic matter over time: The Soil Incubation Database (SIDb, version 1.0) and guidance for incubation procedures

Cited by 3 publications

References 38 publications

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

Trace contaminants in the environmental assessment of organic waste recycling in agriculture: Gaps between methods and knowledge

Leveraging the signature of heterotrophic respiration on atmospheric CO<sub>2</sub> for model benchmarking

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Decomposability of soil organic matter over time: The Soil Incubation Database (SIDb, version 1.0) and guidance for incubation procedures

Cited by 3 publications

References 38 publications

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

On the use of air temperature and precipitation as surrogate predictors in soil respiration modelling

Trace contaminants in the environmental assessment of organic waste recycling in agriculture: Gaps between methods and knowledge

Leveraging the signature of heterotrophic respiration on atmospheric CO&lt;sub&gt;2&lt;/sub&gt; for model benchmarking

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Leveraging the signature of heterotrophic respiration on atmospheric CO<sub>2</sub> for model benchmarking