Soil water repellency and its implications for organic matter decomposition - is there a link to extreme climatic events?

authored by

Marc O. Goebel, Jörg Bachmann, Markus Reichstein, Ivan A. Janssens, Georg Guggenberger

Abstract

Earth system models associate the ongoing global warming with increasing frequency and intensity of extreme events such as droughts and heat waves. The carbon balance of soils may be more sensitive to the impact of such extremes than to homogeneously distributed changes in soil temperature (T_s) or soil water content (θ_s). One parameter influenced by more pronounced drying/rewetting cycles or increases in T_s is the wettability of soils. Results from laboratory and field studies showed that low θ_s, particularly in combination with high T_s can increase soil water repellency (SWR). Recent studies have provided evidence that the stability of soil organic matter (SOM) against microbial decomposition is substantially enhanced in water repellent soils. This review hypothesizes that SWR is an important SOM stabilization mechanism that could become more important because of the increase in extreme events. We discuss wettability-induced changes in soil moisture distribution and in soil aggregate turnover as the main mechanisms explaining the reduced mineralization of SOM with increasing SWR. The creation of preferential flow paths and subsequent uneven penetration of rainwater may cause a long-term reduction of soil water availability, affecting both microorganisms and plants. We conclude that climate change-induced SWR may intensify the effects of climatic drought and thus affects ecosystem processes such as SOM decomposition and plant productivity, as well as changes in vegetation and microbial community structure. Future research on biosphere-climate interactions should consider the effects of increasing SWR on soil moisture and subsequently on both microbial activity and plant productivity, which ultimately determine the overall carbon balance.

Organisation(s)

Section Soil Physics
Institute of Soil Science
Section Soil Chemistry

External Organisation(s)

Max Planck Institute of Biogeochemistry (MPI-BGC)
University of Antwerp (UAntwerpen)

Type

Article

Journal

Global change biology

Volume

17

Pages

2640-2656

No. of pages

17

ISSN

1354-1013

Publication date

25.02.2011

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Global and Planetary Change, Environmental Chemistry, Ecology, General Environmental Science

Sustainable Development Goals

SDG 13 - Climate Action

Electronic version(s)

https://doi.org/10.1111/j.1365-2486.2011.02414.x (Access: Closed)
https://repository.uantwerpen.be/docman/irua/bc8289/1095.pdf (Access: Open)