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Paper detail

Should alterations in water viscosity be addressed in soil carbon models?

Despite all the efforts, there is no agreement on how temperature affects soil carbon decay and consequently soil CO2 emission, due to overlapping of environmental constraints. To gain further insight into the driving forces of soil microbial processes, we herein examine the abiotic physical environment and its potential influence on microbial activity. In this work we discuss a mechanism which is related to temperature sensitivity of soil carbon stability following a first-order kinetic theory. Soil carbon decomposition is linked to diffusion and consequently to water viscosity, splitting the effects of temperature from viscosity, here we suggest that viscosity could be a controlling factor on bacterial mobility and nutrient diffusion. As a result, viscosity effect on the potential soil carbon losses is demonstrated and could be an important influence in the feedbacks of climate change on soil carbon cycling kinetics.

preprint2022arXivOpen access
Newton La Scala Jr.Alexandre Souto MartinezKurt Arnold SpokasDaniel Ruiz Potma GonçalvesRafael Mazer Etto
physics.geo-phQuantitative Methods
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Newton La Scala Jr.Alexandre Souto MartinezKurt Arnold SpokasDaniel Ruiz Potma GonçalvesRafael Mazer Etto

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