Nitrogen-inputs regulate microbial functional and genetic resistance and resilience to drying–rewetting cycles, with implications for crop yields

Background and aims: The increasing input of anthropogenically-derived nitrogen (N) to ecosystems raises a crucial question: how do N inputs modify the soil microbial stability, and thus affect crop productivity? Methods: Soils from an 8-year rice-wheat rotation experiment with increasing N-input rates were subjected to drying–rewetting (DW) cycles for investigating the resistance and resilience of soil functions, in terms of abundances of genes (potential functions) and activities of enzymes (quantifiable functions), to this stress, and particularly the contribution of resistance and resilience on crop production was evaluated. Results: Although the DW cycles had a stronger effect compared to N fertilization level, the N input was also important in explaining the variation in the resistance and resilience of functional genes and the activities of enzymes involved in C, N and P cycling. Crop yields benefited from both of high resistance and high resilience of soil microbial functions, though the resistance and resilience of soil enzyme activities exhibited a stronger contribution to crop yields compared to the functional genes and the overall contribution strength was conditioned by N input levels. Conclusions: In addition to the well-known direct contribution of N fertilization on crop yields, N input plays an indirect role on crop production via conditioning the resistance and resilience of soil functions in response to repeated DW cycles. © 2019, Springer Nature Switzerland AG.

Authors
Luo G.1 , Ling N.1 , Xue C.1 , Dippold M.A.2 , Firbank L.G.3 , Guo S.1 , Kuzyakov Y. 2, 4, 5 , Shen Q.1
Journal
Publisher
Springer International Publishing
Number of issue
1-2
Language
English
Pages
301-315
Status
Published
Volume
441
Year
2019
Organizations
  • 1 Jiangsu Provincial Key Lab for Solid Organic Waste Utilization, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, Jiangsu 210095, China
  • 2 Department of Soil Science of Temperate Ecosystems, Department of Agricultural Soil Science, University of Göttingen, Göttingen, Germany
  • 3 Faculty of Biological Sciences, University of Leeds, Leeds, United Kingdom
  • 4 Institute of Environmental Sciences, Kazan Federal University, Kazan, 420049, Russian Federation
  • 5 Agro-Technology Institute, RUDN University, Moscow, Russian Federation
Keywords
Climate change; Enzyme patterns; Resistance and resilience; Rice-wheat rotation; Soil microbial function
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