Dynamics of soil microarthropod populations affected by a combination of extreme climatic events in tropical home gardens of Kerala, India

Dynamics of soil microarthropod populations affected by a combination of extreme climatic events in tropical home gardens of Kerala, India

•Effects of natural extreme climate events in tropical home gardens were studied.•Drought followed by flooding drastically reduced soil microarthopods density.•Biological soil quality was restored after drought but not soil microarthropods density.•Plant species richness supported the re-establishme...

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Bibliographic Details
Published in:Pedobiologia Vol. 85-86; p. 150719
Main Authors: Lakshmi, Gopakumar, Beggi, Francesca, Menta, Cristina, Kumar, Nallur Krishna, Jayesh, Puthumana
Format: Journal Article
Language:English
Published: Elsevier GmbH 01-05-2021
Subjects:
Drought
Flood
Plant community
QBS-ar index
Resilience
Soil fauna
Soil fauna
Flood
Drought
Plant community
QBS-ar index
Resilience
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Summary:•Effects of natural extreme climate events in tropical home gardens were studied.•Drought followed by flooding drastically reduced soil microarthopods density.•Biological soil quality was restored after drought but not soil microarthropods density.•Plant species richness supported the re-establishment of the soil microarthopods populations. Climate change is predicted to increase drought and flooding events in the coming decades, especially in the tropics; we need to understand the short-term responses of plant community and soil microarthropods populations to these extreme events.Yet most of our current knowledge on this comes from manipulative studies in temperate regions. The present study reports the impact of a severe summer drought followed by a catastrophic flood in 2018 on soil microarthropod density and biological soil quality across 25 tropical home gardens. Drought reduced the density of organisms six-fold and flooding caused a further threefold reduction. Biological soil quality in the home gardens that were not flooded was restored during the monsoon season but this was just partially possible for microarthropod population size. Three months after flooding, the microarthropod groups encountered were generally able to re-establish their population to the condition prior to flooding. However, none of the group recovered to the mean seasonal values. The severity of previous drought seemed to have overridden any possible adaptation to annual summer water scarcity. Plant species richness in home gardens played a key role towards mitigation and possible resilience to disturbance of these ancient agroecosystems. The capacity of the soil microarthropod communities to recover over the long term after extreme climatic events and its relevance to maintaining ecosystem functions and services in home gardens through soil fertility warrant further investigation.
ISSN:0031-4056
1873-1511
DOI:10.1016/j.pedobi.2021.150719