Drip fertigation sustains crop productivity while mitigating reactive nitrogen losses in Chinese agricultural systems: Evidence from a meta-analysis

Jing Zheng; Minghua Zhou; Bo Zhu; Junliang Fan; Hongyu Lin; Bing Ren; Fucang Zhang

doi:10.1016/j.scitotenv.2023.163804

Drip fertigation sustains crop productivity while mitigating reactive nitrogen losses in Chinese agricultural systems: Evidence from a meta-analysis

Sci Total Environ. 2023 Aug 15:886:163804. doi: 10.1016/j.scitotenv.2023.163804. Epub 2023 May 6.

Authors

Jing Zheng¹, Minghua Zhou², Bo Zhu¹, Junliang Fan³, Hongyu Lin¹, Bing Ren¹, Fucang Zhang³

Affiliations

¹ Key Laboratory of Mountain Surface Process and Ecological Regulation, Institute of Mountain Hazards and Environment, Chinese Academy of Science, Chengdu 610041, China.
² Key Laboratory of Mountain Surface Process and Ecological Regulation, Institute of Mountain Hazards and Environment, Chinese Academy of Science, Chengdu 610041, China. Electronic address: mhuazhou@imde.ac.cn.
³ College of Water Resources and Architectural Engineering, Northwest A&F University, Yangling 712100, China.

PMID: 37150461
DOI: 10.1016/j.scitotenv.2023.163804

Abstract

Drip fertigation can synchronize the supply of nutrients and water for crop demand, offering the potential for minimizing negative environmental impacts and sustaining crop productivity. However, there are no comprehensive evaluations on performances of drip fertigation on environmental nitrogen (N) losses and crop productivity, nationwide. Here, a meta-analysis was performed to quantify overall effects of drip fertigation on N losses and crop productivity in Chinese agricultural systems based on 443 observations from 42 field studies. The results showed that drip fertigation significantly increased crop yields by 9.8 % and slightly increased soil NO emission by 13.9 % compared to the traditional irrigation and fertilization practices (e.g. flooding/furrow irrigation and N broadcasting), while significantly decreasing NH₃ volatilization by 14.2 %, soil N₂O emission by 28.1 % and NO₃^--N leaching loss by 71.2 %. There were significant mitigation potentials of environmental N losses by drip fertigation for cereal cropping systems, not for horticultural crops in terms of soil NO emission and not for cotton in terms of NH₃ volatilization. Non significant promotion effect on NO emission and significant reduction effects on the other all kinds of environmental N losses by drip fertigation were observed for alkaline soils (pH > 7.3) and coarse-textured soils. In addition, the use of different fertilizer sources and/or soil amendments have shown in popularity as strategies to offset the negative feedback associated with agricultural N losses, no direct synthetic result was shown in drip-fertigated soils. We synthesized 19 studies so as to assess the potential mitigation options for further minimizing N losses in drip fertigation systems, which suggested that deleterious environmental pollution could be further reduced while still achieving high crop yields with a combination of enhanced-efficiency fertilizers (e.g. nitrification or urease inhibitors) or soil amendments (e.g. biochar or straw) to drip fertigation systems.

Keywords: Crop yield; N(2)O emission; NH(3) volatilization; NO emission; Nitrate leaching.

Publication types

Meta-Analysis
Review

MeSH terms

Agriculture / methods
China
Crops, Agricultural
Fertilizers / analysis
Nitrogen* / analysis
Nitrous Oxide / analysis
Soil

Substances

Fertilizers
Nitrogen
Nitrous Oxide
Soil