N2-fixing black locust intercropping improves ecosystem nutrition at the vulnerable semi-arid Loess Plateau region, China

Baoguo Du, Junzhu Pang, Bin Hu, Diane E. Allen, Tina L. Bell, Sebastian Pfautsch, Florian Netzer, Michael Dannenmann, Shuoxin Zhang, Heinz Rennenberg

Research output: Contribution to journalArticlepeer-review

Abstract

The Loess Plateau in northwestern China constitutes one of the most vulnerable semi-arid regions in the world due to long-term decline in forest cover, soil nutrient depletion by agricultural use, and attendant soil erosion. Here, we characterize the significance of N2-fixing Robinia pseudoacacia L. and non-N2-fixing Juglans regia L. for improving nutrient availability and water retention in soil by comparing a range of biological and physicochemical features in monoculture and mixed plantations of both species. We found that N2-fixing Robinia facilitates the nitrogen and phosphorus composition of non-N2-fixing Juglans in the mixed stand as a consequence of improved soil nutrient availability, evident as higher levels of nitrogen and labile carbon compared to mono-specific stands. This demonstrates that intercropping N2-fixing Robinia with non-N2-fixing woody plants can greatly improve soil carbon and nitrogen bioavailability as well as whole-plant nutrition and can potentially mediate water retention with additional sequestration of soil organic carbon in the range of 1 t C ha−1 year−1. Thus, intercropping N2-fixing woody species (e.g. Robinia pseudoacacia or Hippophae rhamnoides L.) with locally important non-N2-fixing tree and shrub species should be considered in afforestation strategies for landscape restoration.
Original languageEnglish
Pages (from-to)333-345
Number of pages13
JournalScience of the Total Environment
Volume688
DOIs
Publication statusPublished - 2019

Keywords

  • Loess Plateau (China)
  • arid regions
  • black locust
  • nitrogen
  • phosphorus
  • soil degradation
  • walnut, English

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