Comparison of crop yield and solar thermal utilization among different rice–wheat cropping systems

播种 移植 农学 作物 种植制度 野外试验 苗木 公顷 产量(工程) 复种 数学 生物 农业 物理 生态学 热力学
作者
Zhipeng Xing,Zishun Huang,Yitong Yao,Yajie Hu,Bin-Bin GUO,H. C. Zhang
出处
期刊:The Journal of Agricultural Science [Cambridge University Press]
卷期号:161 (1): 40-50 被引量:1
标识
DOI:10.1017/s0021859622000661
摘要

Abstract Planting patterns have significant effects on rice growth. Nonetheless, little is known about differences in annual crop yield and resource utilization among mechanized rice planting patterns in a rice–wheat cropping system. Field experiments were conducted from 2014 to 2017 using three treatments: pot seedling transplanting for rice and row sowing for wheat (PST-RS), carpet seedling transplanting for rice and row sowing for wheat (CST-RS) and row sowing for both crops (RS-RS). The results showed that, compared with RS-RS, PST-RS and CST-RS prolonged annual crop growth duration by 25–26 and 13–15 days, increased effective accumulated temperature by 399 and 212°C days and increased cumulative solar radiation by 454 and 228 MJ/m 2 because of the earlier sowing of rice by 28 and 16 days in PST-RS and CST-RS, respectively. Compared with RS-RS, the annual crop yield of PST-RS and CST-RS increased by 3.1–3.8 and 2.0–2.6 t/ha, respectively, because of the increase in the number of spikelets/kernels per hectare, aboveground biomass, mean leaf area index and grain–leaf ratio. In addition, temperature production efficiency, solar radiation production efficiency and solar radiation use efficiency were higher in PST-RS, followed by CST-RS and RS-RS. These results suggest that mechanized rice planting patterns such as PST-RS increase annual crop production in rice–wheat cropping systems by increasing yield and solar energy utilization.
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