4.4 Article

Plant and soil microbial responses to irrigation retirement in semiarid cropping systems

期刊

出版社

IOP Publishing Ltd
DOI: 10.1088/2515-7620/ac59c3

关键词

dryland agriculture; soil moisture; crop productivity; root; shoot ratio; soil enzymes; PLFA analysis

资金

  1. National Institute of Food and Agriculture, U.S. Department of Agriculture [2016-68007-25066]
  2. Fulbright scholarship for graduate studies

向作者/读者索取更多资源

Water scarcity limits irrigated agriculture, causing farmers to transition to dryland cropping. This study found that irrigation retirement resulted in decreased crop biomass production, particularly for maize. Soil microbial communities were less affected by irrigation retirement, with changes mostly observed in the maize agroecosystem. Winter wheat is a viable option for sustaining crop production and mitigating the negative impacts of irrigation retirement on soil health.
Water scarcity limits irrigated agriculture, and there is an increasing frequency of situations where farmers must transition from irrigated to dryland cropping systems. This transition poses several challenges, and it is necessary to understand the changes in crop productivity and soil health for the design of viable cropping systems. Our objective was to compare the impact of irrigation retirement on crop production and soil microbial dynamics under the two major crops of the semiarid High Plains. In a formerly irrigated field, we installed a transition experiment that consisted of two irrigation managements, irrigated and non-irrigated (retired), under two cropping systems: continuous maize and continuous winter wheat. Lower soil moisture after irrigation retirement decreased plant biomass production in both crops, with a higher effect on maize (2 to 6-fold decrease) than on wheat (20% less aboveground biomass production). In both crops, irrigation retirement affected crop development in the order grain yield > aboveground biomass > belowground biomass. Soil microbial communities were less affected by irrigation retirement than the evaluated crops and changes were concentrated in the maize agroecosystem. After three seasons, the high decrease in maize productivity and soil moisture resulted in 50% less extracellular enzyme activity in the dryland treatment, but without consistent effects on microbial biomass or community composition assessed by phospholipid fatty acids. Winter wheat appears as a viable option not only to sustain crop production but also to minimize the negative impacts of irrigation retirement on soil health. However, root production was lower in wheat than in maize, which may affect the long-term evolution of soil organic carbon.

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