Smash-ridging tillage increases wheat yield and yield components in the Huai-He valley, China

文献类型: 外文期刊

第一作者: Huang, Shao-min

作者: Huang, Shao-min;Zhang, Shui-qing;Zhang, Yu-ting;Egrinya, Eneji A.;Zhang, Qiao-ping;Wei, Ben-hui

作者机构:

关键词: Smash ridging tillage;wheat;grain yields

期刊名称:JOURNAL OF FOOD AGRICULTURE & ENVIRONMENT ( 影响因子:0.435; 五年影响因子:0.484 )

ISSN: 1459-0255

年卷期: 2013 年 11 卷 2 期

页码:

收录情况: SCI

摘要: In this research, a new technology for land preparation - smash ridging tillage was studied. The study was carried out from 2011 to 2012 at the Modern Agriculture Exhibition Station of Henan Academy of Agricultural Sciences, located at Huang'chuan (31 degrees 52'N, 114 degrees 53'E) county, southeast of Henan province, China. There were three tillage methods: plow + rotary tillage (CK); plow+smash ridging tillage (PS) and smash ridging + rotary tillage (SR). The results showed that smash ridging tillage (SR) could increase wheat population (millions per hectare) (10.38 versus 9.53 for CK and 10.23 for PS), SPAD values (50.7 versus 41.8 for CK and for 42.9 PS), wheat kernels per spike (24.1 versus 16.7 for CK and 22.9 for PS), and wheat grain yields (7161.5 kg.ha(-1) versus 5803.6 kg.ha(-1) for CK and 5930.0 kg.ha(-1) for PS). It also decreased the soil density, stem height and spike length.

分类号:

  • 相关文献

[1]Effects of various fertilizations on soil organic carbon and total nitrogen in winter wheat-summer corn rotation in the Huang-Huai-Hai Plain of China. Nie, Sheng-wei,Huang, Shao-min,Zhang, Shui-qing,Guo, Dou-dou. 2012

[2]ENVIRONMENTAL-STRESS AND GRAIN YIELDS IN CHINA. HUANG, JK,ROZELLE, S. 1995

[3]Heat Priming Induces Trans-generational Tolerance to High Temperature Stress in Wheat. Wang, Xiao,Xin, Caiyun,Cai, Jian,Zhou, Qin,Dai, Tingbo,Cao, Weixing,Jiang, Dong,Xin, Caiyun. 2016

[4]Distribution Characteristics of Soil Cadmium in Different Textured Paddy Soil Profiles and Its Relevance with Cadmium Uptake by Crops. Wang Zheng-yin,Qin Yu-sheng,Zhan Shao-jun,Yu Hua,Tu Shi-hua. 2013

[5]Molecular cloning, functional verification, and evolution of TmPm3, the powdery mildew resistance gene of Triticum monococcum L.. Zhao, C. Z.,Li, Y. H.,Dong, H. T.,Geng, M. M.,Liu, W. H.,Li, F.,Ni, Z. F.,Xie, C. J.,Sun, Q. X.,Zhao, C. Z.,Dong, H. T.,Geng, M. M.,Liu, W. H.,Li, F.,Ni, Z. F.,Xie, C. J.,Sun, Q. X.,Zhao, C. Z.,Wang, X. J.. 2016

[6]Wheat Optimized Fertilization of High Yield Field with Returning Whole Stalks into the Soil in Huang-huai-hai Plain. Sui, Xue-Yan,Wang, Meng,Wang, Yong,Guo, Hong-Hai,Li, Zhan,Zhang, Xiao-Dong. 2016

[7]Effects of Cadmium Stress on Alternative Oxidase and Photosystem II in Three Wheat Cultivars. Xu, Fei,Zhang, Zhong-Wei,Chen, Yang-Er,Wang, Xiao,Shang, Jing,Lin, Hong-Hui,Duan, Yong-Ping,Tu, Shi-Hua,Feng, Wen-Qiang. 2010

[8]Haynaldia villosa NAM-V1 is linked with the powdery mildew resistance gene Pm21 and contributes to increasing grain protein content in wheat. Zhao, Chuanzhi,Lv, Xindi,Li, Yinghui,Li, Feng,Geng, Miaomiao,Mi, Yangyang,Ni, Zhongfu,Xie, Chaojie,Sun, Qixin,Zhao, Chuanzhi,Lv, Xindi,Li, Yinghui,Li, Feng,Geng, Miaomiao,Mi, Yangyang,Ni, Zhongfu,Xie, Chaojie,Sun, Qixin,Zhao, Chuanzhi. 2016

[9]Assessment of Land Suitability Potentials for Selecting Winter Wheat Cultivation Areas in Beijing, China, Using RS and GIS. Wang Da-cheng,Wang Ji-hua,Wang Da-cheng,Li Cun-jun,Song Xiao-yu,Wang Ji-hua,Yang Xiao-dong,Huang Wen-jiang,Wang Jun-ying,Zhou Ji-hong. 2011

[10]Dissipation and Residues of Dichlorprop-P and Bentazone in Wheat-Field Ecosystem. Feng, Xiaoxiao,Pan, Lixiang,Zhang, Hongyan,Yu, Jianlei,Song, Guochun. 2016

[11]Competitive interaction in a jujube tree/wheat agroforestry system in northwest China's Xinjiang Province. Zhang, W.,Wang, B. J.,Gan, Y. W.,Duan, Z. P.,Hao, X. D.,Lv, X.,Li, L. H.,Xu, W. L.. 2017

[12]Cuticular Wax Accumulation Is Associated with Drought Tolerance in Wheat Near-Isogenic Lines. Guo, Jun,Yu, Xiaocong,Li, Haosheng,Cheng, Dungong,Liu, Aifeng,Liu, Jianjun,Liu, Cheng,Song, Jianmin,Guo, Jun,Yu, Xiaocong,Li, Haosheng,Cheng, Dungong,Liu, Aifeng,Liu, Jianjun,Liu, Cheng,Song, Jianmin,Xu, Wen,Shen, Hao,Zhao, Shijie. 2016

[13]Preliminary Study on the Physiological Characteristics of Transgenic Wheat with Maize C-4-pepc Gene in Field Conditions. Han, L. L.,Han, L. L.,Xu, W. G.,Hu, L.,Li, Y.,Qi, X. L.,Zhang, J. H.,Zhang, H. F.,Wang, Y. X.. 2014

[14]Effect of Biochars from Rice Husk, Bran, and Straw on Heavy Metal Uptake by Pot-Grown Wheat Seedling in a Historically Contaminated Soil. Zheng, Ruilun,Xiao, Bo,Chen, Zheng,Wang, Xiaohui,Huang, Yizong,Sun, Guoxin,Cai, Chao. 2013

[15]Detection of Fusarium head blight resistance QTL in a wheat population using bulked segregant analysis. Shen, X,Zhou, M,Lu, W,Ohm, H. 2003

[16]NOVEL FLUORESCENT SEQUENCE-RELATED AMPLIFIED POLYMORPHISM (FSRAP) MARKERS FOR THE CONSTRUCTION OF A GENETIC LINKAGE MAP OF WHEAT (Triticum aestivum L.). Zhang, Li,Yu, Yan,Wei, Shuhong,Yang, Jun,Yang, Zaijun,Qu, Jipeng,Peng, Zhengsong,Lu, Lu,Yang, Wuyun. 2017

[17]Different Tolerance in Bread Wheat, Durum Wheat and Barley to Fusarium Crown Rot Disease Caused by Fusarium pseudograminearum. Liu, Yaxi,Wei, Yuming,Zheng, Youliang,Liu, Yaxi,Ma, Jun,Yan, Wei,Liu, Chunji,Ma, Jun,Yan, Guijun,Yan, Wei,Zhou, Meixue,Zhou, Meixue. 2012

[18]Research on Rapid and Non-Destructive Identification of Aging Wheat Based on ATR-Terahertz Spectroscopy Combined with PLS-DA. Wang Dong,Pan Li-gang,Li An,Jin Xin-xin,Ma Zhi-hong,Wang Ji-hua,Wang Dong,Pan Li-gang,Li An,Jin Xin-xin,Ma Zhi-hong,Wang Ji-hua,Liu Long-hai,Jiang, Justin. 2016

[19]ASSIMILA TION OF REMOTELY SENSED CANOPY VARIABLES INTO CROP MODELS FOR AN ASSESSMENT OF DROUGHT-RELATED YIELD LOSSESS: A COMPARSION OF MODELS OF DIFFERENT COMPLEXITY. Casa, R.,Silvestro, P. C.,Yang, H.,Yang, G.,Pignatti, S.,Pascucci, S.,Yang, H.,Yang, G.. 2016

[20]Photochemical and antioxidative responses of the glume and flag leaf to seasonal senescence in wheat. Kong, Lingan,Sun, Mingze,Xie, Yan,Wang, Fahong,Zhao, Zhendong,Sun, Mingze. 2015

作者其他论文 更多>>

微信小程序