Independent effects of warming and altered precipitation pattern on nematode community structure in an arable field

Abstract

Global environmental change is causing increases in soil temperatures and alternations in precipitation patterns, which are affecting soil biota in natural and managed systems. Arable soils, generally disturbed due to management practice, are particularly sensitive to a changing environment. However, little is known how warming interacts with precipitation pattern to affect soil fauna and thereby ecosystem functions. In an arable system, we investigated the interactions of soil warming and altered precipitation amount and frequency on soil conditions and health using nematodes as bioindicators. Our findings showed that the nematode population density was significantly increased by warming and decreased by reduced precipitation frequency. Warming mainly fostered the density of fungal feeders and obligatory plant parasites, with the latter suggesting higher crop damage. Root-associated plant feeders were further affected by changes in precipitation pattern; their density declined with reduced precipitation frequency and increased with the alternated precipitation amount. The nematode abundance was generally low in the arable ecosystem and remained stable under the simulated environmental change. In response to warming, the major soil decomposition channel via bacteria was reduced, and the fungal mediated pathway fostered, implying more fungal dominated depleted and degraded soil conditions. Soil decomposition pathways were not affected by altered precipitation pattern, neither by amount nor by frequency. Overall, warming and precipitation independently altered the soil nematode fauna and the functioning of belowground food webs. Therefore, our study highlights the need for more research considering the interactions of environmental variables to see if this lack is a general pattern and to develop strategies for agroecosystem's management under climate change.