Developing a tactical irrigation and nitrogen fertilizer management strategy for winter wheat through drip irrigation

Muhammad Zain; Zhuanyun Si; Haijiao Ma; Minghan Cheng; Adam Khan; Faisal Mehmood; Aiwang Duan; Chengming Sun

doi:10.3389/fpls.2023.1231294

Developing a tactical irrigation and nitrogen fertilizer management strategy for winter wheat through drip irrigation

Front Plant Sci. 2023 Aug 10:14:1231294. doi: 10.3389/fpls.2023.1231294. eCollection 2023.

Authors

Muhammad Zain¹, Zhuanyun Si², Haijiao Ma¹, Minghan Cheng¹, Adam Khan³, Faisal Mehmood^{2

4}, Aiwang Duan², Chengming Sun¹

Affiliations

¹ Key Laboratory of Crop Genetics and Physiology of Jiangsu Province, Key Laboratory of Crop Cultivation and Physiology of Jiangsu Province, College of Agriculture, Yangzhou University, Yangzhou, China.
² Key Laboratory of Crop Water Use and Regulation, Farmland Irrigation Research Institute, Chinese Academy of Agricultural Sciences, Ministry of Agriculture and Rural Affairs, Xinxiang, Henan, China.
³ Department of Botany, University of Lakki Marwat, Lakki Marwat, Pakistan.
⁴ Department of Land and Water Management, Faculty of Agricultural Engineering, Sindh Agricultural University, Tandojam, Pakistan.

Abstract

Introduction: Agricultural activities in the North China Plain are often challenged by inadequate irrigation and nutrient supply. Inadequate and improper resource utilization may impose negative impacts on agricultural sustainability. To counteract the negative impacts, a deeper understanding of the different resource management strategies is an essential prerequisite to assess the resource saving potential of crops.

Methods: We explored plausible adaptation strategies including drip irrigation lateral spacings of 40 and 80 cm (hereafter referred to as LS₄₀ and LS₈₀, respectively), irrigating winter wheat after soil water consumption of 20 and 35 mm (hereafter represented as IS₂₀ and IS₃₅, respectively), and nitrogen fertilization scheme of a) applying 50% nitrogen as a basal dose and 50% as a top-dressing dose (NS_50:50), b) 25% nitrogen as a basal dose and 75% as a topdressing dose (NS_25:75), and c) no nitrogen application as a basal dose and 100% application as a top-dressing dose (NS_0:100).

Results and discussion: The consecutive 2 years (2017-2018 and 2018-2019) of field study results show that growing winter wheat under LS₄₀ enhanced the water use efficiency (WUE), grain yield, 1,000-grain weight, and number of grains per spike by 15.04%, 6.95%, 5.67%, and 21.59% during the 2017-2018 season, respectively. Additionally, the corresponding values during the 2018-2019 season were 12.70%, 7.17%, 2.66%, and 19.25%, respectively. Irrigation scheduling of IS₃₅ treatment improved all the growth-related and yield parameters of winter wheat. Further, treating 25% nitrogen as a basal dose and application of 75% as a top-dressing dose positively influenced the winter wheat yield. While NS_0:100 increased the plant height, leaf area index (LAI), and aboveground biomass as compared to the other application strategies, but high nitrogen was observed in deeper soil layers. Regarding soil environment, the lowest soil moisture and nitrate nitrogen contents were observed in LS₈₀ during both growing seasons. Overall, coupling the IS₃₅ with NS_25:75 under 40-cm lateral spacing is a suitable choice for sustainable winter wheat production in theNorth China Plain. The results of our study may be helpful in advancing the knowledge of the farmer community for winter wheat production. The findings can also aid in advancing new insights among scientists working on soil water and nitrogen distribution in drip irrigation for better productivity.

Keywords: drip irrigation; irrigation scheduling; lateral spacing; nitrogen fertilization scheme; winter wheat.

Grants and funding

The research was funded by the National Natural Science Foundation of China (51879267, 32172110, 32001465, and 31872852), Key Research and Development Program (Modern Agriculture) of Jiangsu Province (BE2020319), China Agricultural Research System (CARS-03), and Basic Scientific Research Project of the Chinese Academy of Agricultural Sciences for funding (FIRI2016-05 and FIRI2017-09).