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References (44)
-
Wen Yin, Q. Chai, Yao Guo, Fuxue Feng, Cai Zhao, Aizhong Yu, Liu Chang, Zhilong Fan, Falong Hu, Guodong Chen (2017)
Reducing carbon emissions and enhancing crop productivity through strip intercropping with improved agricultural practices in an arid areaJournal of Cleaner Production, 166
-
T. Sun, Zizhong Li, Qi Wu, Tingting Sheng, Mengya Du (2018)
Effects of alfalfa intercropping on crop yield, water use efficiency, and overall economic benefit in the Corn Belt of Northeast ChinaField Crops Research, 216
-
D. Tilman, Christian Balzer, Jason Hill, Belinda Befort (2011)
Global food demand and the sustainable intensification of agricultureProceedings of the National Academy of Sciences, 108
-
Sheng-wei Nie, Wang-sheng Gao, Yuanquan Chen, P. Sui, A. Eneji (2010)
Use of life cycle assessment methodology for determining phytoremediation potentials of maize-based cropping systems in fields with nitrogen fertilizer over-dose.Journal of Cleaner Production, 18
-
S. Luo (2001)
Agroecology -
H. Knörzer, S. Graeff‐Hönninger, B. Guo, P. Wang, W. Claupein (2009)
The rediscovery of intercropping in China: a traditional cropping system for future Chinese agriculture–a review. Climate change, intercropping, pest control and beneficial microorganisms -
F. Ofori, W. R. Stern (1987)
Cereal‐legume intercropping system, 41
-
Caihong Yang, Fan Zhilong, Q. Chai (2018)
Agronomic and Economic Benefits of Pea/Maize Intercropping Systems in Relation to N Fertilizer and Maize DensityAgronomy, 8
-
M. Raseduzzaman, E. Jensen (2017)
Does intercropping enhance yield stability in arable crop production? A meta-analysisEuropean Journal of Agronomy, 91
-
Aliza Pradhan, Catherine Chan, P. Roul, J. Halbrendt, B. Sipes (2017)
Potential of conservation agriculture (CA) for climate change adaptation and food security under rainfed uplands of India: A transdisciplinary approachAgricultural Systems
-
Falong Hu, Y. Gan, Q. Chai, Fuxue Feng, Cai Zhao, Aizhong Yu, Yanpin Mu, Yan Zhang (2016)
Boosting system productivity through the improved coordination of interspecific competition in maize/pea strip intercroppingField Crops Research, 198
-
R. Mead, R. W. Willey (1980)
The concept of a land equivalent ratio and advantages in yields from intercropping, 16
-
Xiaolin Yang, Wang-sheng Gao, Min Zhang, Yuanquan Chen, P. Sui (2014)
Reducing agricultural carbon footprint through diversified crop rotation systems in the North China PlainJournal of Cleaner Production, 76
-
C. Zou, Z. Li (2002)
Chinese academic canon in the 20th century: Agriculture -
Wen Yin, Aizhong Yu, Q. Chai, Falong Hu, Fuxue Feng, Y. Gan (2015)
Wheat and maize relay-planting with straw covering increases water use efficiency up to 46 %Agronomy for Sustainable Development, 35
-
Xin-ping Chen, Z. Cui, M. Fan, P. Vitousek, Ming Zhao, Wenqi Ma, Zhen-lin Wang, Weijian Zhang, Xiaoyuan Yan, Jianchang Yang, Xiping Deng, Q. Gao, Qiang Zhang, Shiwei Guo, Jun Ren, Shiqing Li, Y. Ye, Zhaohui Wang, Jianliang Huang, Qiyuan Tang, Yixiang Sun, Xianlong Peng, Jiwang Zhang, M. He, Yun-ji Zhu, J. Xue, Gui-liang Wang, Liangquan Wu, N. An, Liangquan Wu, Lin Ma, Weifeng Zhang, Fusuo Zhang (2014)
Producing more grain with lower environmental costsNature, 514
-
M. Ray, D. Roy, A. Zaman (2016)
Evaluation of rice (Oryza sativa)-based cropping systems for increasing productivity, resource-use efficiency and energy productivity in coastal West BengalIndian Journal of Agronomy, 61
-
Chunjian Li, Yu-Ying Li, Chang-Bing Yu, Jian-hao Sun, P. Christie, M. An, F. Zhang, Long Li (2011)
Crop nitrogen use and soil mineral nitrogen accumulation under different crop combinations and patterns of strip intercropping in northwest ChinaPlant and Soil, 342
-
Bo Li, C. Fan, Haifeng Zhang, Zhaozhi Chen, Liying Sun, Z. Xiong (2015)
Combined effects of nitrogen fertilization and biochar on the net global warming potential, greenhouse gas intensity and net ecosystem economic budget in intensive vegetable agriculture in southeastern ChinaAtmospheric Environment, 100
-
L. Li, J. Sun, F. Zhang, X. Li, S. Yang, Z. Rengel (2001)
Wheat/maize or wheat/soybean strip intercropping: I. Yield advantage and interspecific interactions on nutrients, 71
-
J. Doorenbos, W. O. Pruitt (1977)
Crop water requirements -
B. Blaser, J. Singer, L. Gibson (2007)
Winter cereal, seeding rate, and intercrop seeding rate effect on red clover yield and qualityAgronomy Journal, 99
-
V. Bharati, R. Nandan, Vinod Kumar, I. Pandey (2007)
Effect of irrigation levels on yield, water-use efficiency and economics of winter maize (Zea mays)-based intercropping systemsIndian Journal of Agronomy, 52
-
W. Cong, E. Hoffland, Long Li, J. Six, Jian-hao Sun, X. Bao, F. Zhang, W. Werf (2015)
Intercropping enhances soil carbon and nitrogenGlobal Change Biology, 21
-
Falong Hu, Q. Chai, Aizhong Yu, Wen Yin, Hongyan Cui, Y. Gan (2015)
Less carbon emissions of wheat–maize intercropping under reduced tillage in arid areasAgronomy for Sustainable Development, 35
-
Zhenwei Song, Xiaomin Feng, R. Lal, Manman Fan, Jun Ren, Hua Qi, Chun-Rong Qian, Jinrui Guo, H. Cai, Tiehua Cao, Yang Yu, Yubo Hao, Xiaomin Huang, A. Deng, C. Zheng, Jun Zhang, Weijian Zhang (2019)
Optimized agronomic management as a double-win option for higher maize productivity and less global warming intensity: A case study of Northeastern ChinaAdvances in Agronomy
-
J. Pretty, T. Benton, Z. Bharucha, L. Dicks, C. Flora, H. Godfray, D. Goulson, Sue Hartley, N. Lampkin, Carol Morris, G. Pierzynski, P. Prasad, J. Reganold, J. Rockström, Philip Smith, P. Thorne, S. Wratten (2018)
Global assessment of agricultural system redesign for sustainable intensificationNature Sustainability, 1
-
D. Renard, D. Tilman (2019)
National food production stabilized by crop diversityNature, 571
-
Falong Hu, Y. Gan, Hongyan Cui, Cai Zhao, Fuxue Feng, Wen Yin, Q. Chai (2016)
Intercropping maize and wheat with conservation agriculture principles improves water harvesting and reduces carbon emissions in dry areasEuropean Journal of Agronomy, 74
-
T. Chapagain, Roshan Pudasaini, Bhawana Ghimire, K. Gurung, Khem Choi, Laxmi Rai, Samjhana Magar, Bishnu Bk, M. Raizada (2018)
Intercropping of maize, millet, mustard, wheat and ginger increased land productivity and potential economic returns for smallholder terrace farmers in NepalField Crops Research
-
Youyong Zhu, Hairu Chen, Jinghua Fan, Yunyue Wang, Yan Li, Jianbin Chen, J. Fan, Shisheng Yang, Li-sheng Hu, H. Leung, T. Mew, P. Teng, Zonghua Wang, C. Mundt (2000)
Genetic diversity and disease control in riceNature, 406
-
K. Dhima, A. Lithourgidis, I. Vasilakoglou, C. Dordas (2007)
Competition indices of common vetch and cereal intercrops in two seeding ratioField Crops Research, 100
-
R. G. Allen, L. S. Pereira, D. Raes, M. Smith (1998)
Crop evapotranspiration: Guidelines for computing crop water requirements, 300
-
Yawen Shen, P. Sui, Jian-xiong Huang, Dong Wang, J. Whalen, Yuanquan Chen (2018)
Greenhouse gas emissions from soil under maize–soybean intercrop in the North China PlainNutrient Cycling in Agroecosystems, 110
-
Y. Gan, C. Liang, C. Hamel, H. Cutforth, Hong Wang (2011)
Strategies for reducing the carbon footprint of field crops for semiarid areas. A reviewAgronomy for Sustainable Development, 31
-
Q. Chai, A. Qin, Y. Gan, Aizhong Yu (2014)
Higher yield and lower carbon emission by intercropping maize with rape, pea, and wheat in arid irrigation areasAgronomy for Sustainable Development, 34
-
Hu Jianxiong, Yuanquan Chen, Pan Jian, Wuren Liu, Guang-li Yang, Xiao-ping Xiao, Hongbin Zheng, Tang Wenguang, Haiming Tang, Z. Lijun (2019)
Carbon footprint of different agricultural systems in China estimated by different evaluation metricsJournal of Cleaner Production
-
Yang Gao, A. Duan, Jingsheng Sun, Fusheng Li, Zugui Liu, Hao Liu, Zhandong Liu (2009)
Crop coefficient and water-use efficiency of winter wheat/spring maize strip intercroppingField Crops Research, 111
-
X. Qian, H. Zang, He-shui Xu, Yuegao Hu, C. Ren, Laichun Guo, Chun-long Wang, Z. Zeng (2018)
Relay strip intercropping of oat with maize, sunflower and mung bean in semi-arid regions of Northeast China: Yield advantages and economic benefitsField Crops Research
-
T. Beedy, S. Snapp, F. Akinnifesi, G. Sileshi (2010)
Impact of Gliricidia sepium intercropping on soil organic matter fractions in a maize-based cropping systemAgriculture, Ecosystems & Environment, 138
-
R. Lal (2004)
Soil Carbon Sequestration Impacts on Global Climate Change and Food SecurityScience, 304
-
Jixiao Cui, P. Sui, D. Wright, Dong Wang, Beibei Sun, Mengmeng Ran, Yawen Shen, C. Li, Yuanquan Chen (2019)
Carbon emission of maize-based cropping systems in the North China PlainJournal of Cleaner Production
-
Ping Chen, Chun Song, Xiao-ming Liu, Li Zhou, Huan Yang, Xiaona Zhang, Ying Zhou, Qing Du, Ting Pang, Zhi-dan Fu, Xiao-chun Wang, Weiguo Liu, Feng Yang, K. Shu, Junbo Du, Jiang Liu, Wenyu Yang, T. Yong (2019)
Yield advantage and nitrogen fate in an additive maize-soybean relay intercropping system.The Science of the total environment, 657
-
K. Hergoualc’h, H. Akiyama, M. Bernoux, N. Chirinda, A. Prado, Å. Kasimir, J. Macdonald, S. Ogle, K. Regina, T. Weerden (2019)
N2O emissions from managed soils, and CO2 emissions from lime and urea application
- Publisher
- Wiley
- Copyright
- © 2021 John Wiley & Sons Ltd and the Association of Applied Biologists
- eISSN
- 2048-3694
- DOI
- 10.1002/fes3.260
- Publisher site
- See Article on Publisher Site
Abstract
Journal
Food and Energy Security – Wiley
Published: Feb 1, 2021
Keywords: ; ; ; ;