Root plasticity and interspecific complementarity improve yields and water use efficiency of maize/soybean intercropping in a water-limited condition
文献类型: 外文期刊
第一作者: Zhang, Yue
作者: Zhang, Yue;Wang, Qi;Wang, Ruonan;Nie, Jiayi;Sun, Tianran;Zhang, Lizhen;Sun, Zhanxiang;Du, Guijuan;Bai, Wei;Feng, Chen;Zhang, Zhe;Yang, Ning;Sun, Zhanxiang;Du, Guijuan;Bai, Wei;Feng, Chen;Zhang, Zhe;Yang, Ning;Su, Zhicheng;Zhang, Yue;Evers, Jochem B.;van der Werf, Wopke;Zhang, Xu
作者机构:
关键词: Land equivalent ratio; Interspecific interaction; Root distribution; Water use efficiency; Yield components
期刊名称:FIELD CROPS RESEARCH ( 影响因子:6.145; 五年影响因子:7.234 )
ISSN: 0378-4290
年卷期: 2022 年 282 卷
页码:
收录情况: SCI
摘要: Intercropping maize and soybean is renowned for improving crop production and resource use efficiencies. Interspecific competition and complementarity with respect to root plasticity is essential knowledge for understanding the mechanisms of overyielding and optimizing intercropping species selection. We conducted a threeyear field experiment (2017-2019) to quantify land and water productivities in relation to above- and belowground interspecific interactions, root growth and distribution under different nitrogen rates in maize/soybean intercropping. The land productivity in terms of land equivalent ratio (LER) in maize/soybean intercropping was 1.10 across all years and N rates. The yield increase in intercropped maize was mainly gained from an 45% increase in kernel numbers, while the yield loss of intercropped soybean was caused mainly by an 35% decrease in the pod numbers compared to sole cropping. The system level water use efficiency, defined as water equivalent ratio (WER) was also 1.10. Compared with sole stands, intercropped maize consumed more water during the vegetative stage, but intercropped soybean took up more during the reproductive stage. That indicated a temporal complementarity of water use in the intercrop, which benefited maize kernel formation and partially offset the negative shading effect of soybean grain filling. Soybean showed a marked increase in root length density (RLD). Compared to the produced aboveground biomass (DM) in the intercrop, the intercropped soybean invested more assimilates into root than shoot, as defined as root plasticity, the RLD/DM ratio of soybean in the intercrop was 76% more than sole system. However, the intercrop did not change root plasticity of maize. The overlap of maize and soybean roots, i.e. interspecific interaction interface, occurred mainly within the position between two border rows and at first soybean row. Under interspecific competition, soybean in the intercropping created both temporal and spatial differentiation for water uptake, which might be a key reason for enhancing intercropping land and water productivities. Our results contribute to understanding the mechanism of interspecific interaction for maximizing land and water productivities in rain-fed intercropping.
分类号:
- 相关文献
作者其他论文 更多>>
-
Stomach as the target organ of Rickettsia heilongjiangensis infection in C57BL/6 mice identified by click chemistry
作者:Wang, Juan;Wang, Juan;Wei, Wei;Chen, Zi-Yun;Xiong, Tao;Xia, Luo-Yuan;Jiang, Jia-Fu;Zhu, Dai-Yun;Jia, Na;Cao, Wu-Chun;Du, Li-Feng;Zhang, Ming-Zhu;Xia, Luo-Yuan;Chen, Zi-Yun;Zhang, Xu;Li, Wen-Jun;Wang, Zhen-Fei
关键词:
-
An underutilized bean: hyacinth bean [Lablab purpureus (L.) sweet]: bioactive compounds, functional activity, and future food prospect and applications
作者:Zhou, Jiankang;Wang, Wenting;Zhang, Zhuo;Qiao, Jiawei;Bai, Yu;Zhao, Chaofan;Qin, Peiyou;Zhang, Lizhen;Ren, Guixing;Zhou, Jiankang;Guo, Shengyuan;Qin, Peiyou;Ren, Guixing;Zhou, Jiankang;Zhang, Zhuo;Qin, Peiyou;Ren, Guixing;Zhu, Gege;Teng, Cong
关键词:hyacinth bean; bioactive compounds; health benefits; future application
-
Assessing the Alteration of Soil Quality under Long-Term Fertilization Management in Farmland Soil: Integrating a Minimum Data Set and Developing New Biological Indicators
作者:Li, Peng;Zhang, Yue;Li, Chengzhe;Chen, Zihan;Cheng, Chihang;Wu, Choufei;Zhang, Liqin;Li, Peng;Jiao, Jiaguo;Hu, Feng;Ying, Duo;Tian, Shanyi;Zhao, Gen;Ye, Dongmei
关键词:soil quality index; organic and inorganic fertilizers; method comparison; minimum data set
-
Rhein: A potent immunomodulator empowering largemouth bass against MSRV infection
作者:Zhang, Xu;Liu, Lei;Wang, Huan;Qiu, Tianxiu;Zhou, Yan;Shan, Lipeng;Wang, Zixuan;Hu, Yang;Chen, Jiong;Zhang, Xu;Liu, Lei;Wang, Huan;Qiu, Tianxiu;Zhou, Yan;Shan, Lipeng;Wang, Zixuan;Hu, Yang;Chen, Jiong;Xue, Mingyang;Liu, Guanglu
关键词:Rhein; Immunomodulator; Largemouth bass; Apoptosis; Micropterus salmoides rhabdovirus; Antiviral
-
Genome variation and LTR-RT analyses of an ancient peach landrace reveal mechanism of blood-flesh fruit color formation and fruit maturity date advancement
作者:Cao, Ke;Li, Yong;Wu, Jinlong;Li, Wenqing;Wang, Qi;Zhu, Gengrui;Fang, Weichao;Chen, Changwen;Wang, Xinwei;Dong, Wenxuan;Liu, Weisheng;Wang, Lirong;Dong, Wenxuan;Liu, Weisheng
关键词:
-
pOsHAK1:OsSUT1 Promotes Sugar Transport and Enhances Drought Tolerance in Rice
作者:Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu;Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu;Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu
关键词:rice; drought tolerance; sugar transport; inducible promoter
-
Urea Coated with Polyaspartic Acid-Chitosan Increases Foxtail Millet (Setaria italica L. Beauv.) Grain Yield by Improving Nitrogen Metabolism
作者:Lu, Lin;Zhang, Wei;Xv, Yanli;Dong, Haosheng;Chen, Disu;Yan, Peng;Dong, Zhiqiang;Wang, Qi;Zhang, Wei;Dong, Zhiqiang;Gao, Ming;Li, Shujie
关键词:fertilizer; nitrate reductase; nitrogen availability; high yield and efficiency; one-time basic fertilizer application
