Affiliation:
1. Key Laboratory of Crop Water Use and Regulation, Ministry of Agriculture and Rural Affairs, Institute of Farmland Irrigation, Chinese Academy of Agricultural Sciences, Xinxiang 453002, China
2. College of Water Conservancy Engineering, Tianjin Agricultural University, Tianjin 300392, China
3. China Three Gorges Corporation, Wuhan 430010, China
Abstract
The objective of this research was to improve the accuracy and representativeness of experimental plot studies by determining the optimum plot area and replication number for winter wheat with border irrigation. Considering the spatial distribution of soil water content, the border effect in relation to crop growth, and the lateral seepage of soil water, we sought to study and optimize the area and specifications of irrigation experiment plots with different levels and replicates. The results show that the experimental irrigation plot consisted of two parts—the core area and the guard area. The most suitable area for the experiment plot core area, with a single level and without replicates, was 60–80 m2. The core experimental area can be arranged with two replicates per 40 m2, with differences in soil moisture content between the treatments reaching more than 15% at the two experiment levels. Each plot comprised two replicates, or if they were 20 m2, then they contained three replicates; when the soil moisture contents differed between 10% and 15%, the area of each replicate plot was 80 m2, comprising two replicates, or 30 m2 with three replicates. When the difference in soil moisture content between the treatments exceeded 15% with the three experimental levels, the area of each plot was 30 m2 and they contained two replicates, or 20 m2 containing three replicates; at differences of 10% to 15%, each replicate plot was 50 m2 containing two replicates, or 30 m2 with three replicates. The experimental plots were rectangular, with irrigation furrows dug lengthwise; therefore, the plots had aspect ratios between 7:1 and 5:1. The width of the buffer area was over 60 cm. The effect of the border on plant height and LAI for winter wheat primarily emerged with one to three rows (20–60 cm) at the jointing stage, while the effect on grain yield and biomass in winter wheat mainly emerged with one to two rows (20–40 cm). The conclusions of this research will inform the development of surface irrigation methods for silt loam in northern Henan, as a reference for optimizing experiment plots employing border irrigation with different soil textures.
Funder
China Agricultural Research System
Major Science and Technology Projects of Henan Province
Tianjin Municipal Commission of Education
Subject
Agronomy and Crop Science
Reference36 articles.
1. National water conservation initiative for promoting water-adapted and green agriculture and highly-efficient water use;Kang;China Water Resour.,2019
2. Kong, F. (1991). Curriculum Ldeological and Political Education, Central Radio & TV University Press.
3. Suggestion about Establishing National Experimental and Monitoring Network of Water Saving Irrigation in China;Kang;China Rural Water Hydropower,2002
4. Development Tendency and Application of Precision Agriculture in China;Zheng;J. South China Univ. Trop. Agric.,2005
5. Towards water and food security in China;Kang;Chin. J. Eco-Agric.,2014