Wang, YunqiGuo, TongjiQi, LiuranZeng, HuanyuLiang, YuexinWei, ShikunGao, FuliWang, LixinZhang, RuiJia, Zhikuan2021-02-182021-02-182020-05Wang, Y., Guo, T., Qi, L., Zeng, H., Liang, Y., Wei, S., Gao, F., Wang, L., Zhang, R., & Jia, Z. (2020). Meta-analysis of ridge-furrow cultivation effects on maize production and water use efficiency. Agricultural Water Management, 234, 106144. https://doi.org/10.1016/j.agwat.2020.106144https://hdl.handle.net/1805/25259Ridge-furrow cultivation (RF) is a popular dryland agricultural technique in China, but its effects on maize yield, total water consumption during crop growing stage (ET), and water use efficiency (WUE) have not been systematically analyzed. Here we conducted a meta-analysis of the RF effects on maize yield, ET and WUE based on the data collected from peer-reviewed literature. Yield, ET and WUE varied with climate, soil and mulching management. Averaged across all the geographic locations, RF increased the yield and WUE of maize by 47 % and 39 %, respectively, but no effects on ET. An increase in the yield and WUE occurred under RF in regions regardless of the mean growing season air temperature (MT) or a mean precipitation during the growing season (MP), although there was a trend that RF is more beneficial under low MP. RF also decreased ET in regions with MT>12 °C. RF increased the yield and WUE in regions with medium or fine soil texture. RF increased the yield, ET, and WUE in regions with low soil bulk density (BD) (≤1.3 g cm−3). But in areas where BD is larger than 1.3 g cm−3, RF only increased the yield and WUE. RF increased the yield and WUE with or without mulching, but decreased ET when no mulching was used. Together, optimizing RF effects on the yield, ET and WUE in maize was largely dependent on environmental conditions and management practices.enPublisher Policyclimate changeprecipitationsoil textureMeta-analysis of ridge-furrow cultivation effects on maize production and water use efficiencyArticle