Innovation of the double-maize cropping system based on cultivar growing degree days for adapting to changing weather conditions in the North China Plain
文献类型: 外文期刊
第一作者: Wang Dan
作者: Wang Dan;Zhan Ming;Cao Cou-gui;Xia Fei;Wang Dan;Zhou Bao-yuan;Ma Wei;Zhao Ming;Wang Dan;Li Guo-rui;Meng Qing-feng
作者机构:
关键词: double-maize cropping system; weather conditions; grain yield; North China Plain
期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:2.848; 五年影响因子:2.979 )
ISSN: 2095-3119
年卷期: 2020 年 19 卷 12 期
页码:
收录情况: SCI
摘要: Double-maize cropping system is an effective option for coping with climate change in the North China Plain. However, the effects of changes in climate on the growth and yield of maize in the two seasons are poorly understood. Forty-six cultivars of maize with different requirements for growing degree days (GDD), categorized as high (H), medium (M) or low (L), and three cultivar combinations for two seasons as LH (using JD27 and DMY1 from category L in the first season; and YD629 and XD22 from category H in the second season), MM (using JX1 and LC3 from category M in the first season; and ZD958 and JX1 from category M in the second season) and HL (using CD30 and QY9 from category H in the first season; and XK10 and DMY3 from category L in the second season) were tested to examine the eco-physiological determinants of maize yield from 2015 to 2017. The correlations between the combinations of cultivars and grain yield were examined. The combination LH produced the highest annual grain yield and total biomass, regardless of the year. It was followed, in decreasing order, by MM and HL. Higher grain yield and biomass in LH were mainly due to the greater grain yield and biomass in the second season, which were influenced mainly by the lengths of the pre- and post-silking periods and the rate of plant growth (PGR). Temperature was the primary factor that influenced dry matter accumulation. In the first season, low temperatures during pre-silking decreased both the duration and PGR in LH, whereas high temperatures during postsilking decreased the PGR in MM and HL, resulting in no significant differences in biomass being observed among the three combinations. In the second season, high temperatures decreased both the PGR and pre- and post-silking duration in MM and HL, and consequently, the biomass of those two combinations were lower than that in LH. Moreover, because of lower GDD and radiation in the first season and higher grain yield in the second season, production efficiency of temperature and radiation (R-a) was the highest in LH. More importantly, differences in temperature and radiation in the two seasons significantly affected the rate and duration of growth in maize, and thereby affecting both dry matter and grain yield. Our study indicated that the combination of LH is the best for optimizing the double-maize system under changing climatic conditions in the North China Plain.
分类号:
- 相关文献
作者其他论文 更多>>
-
Strip deep rotary tillage combined with controlled-release urea improves the grain yield and nitrogen use efficiency of maize in the North China Plain
作者:Han Yu-ling;Guo Dong;Ma Wei;Mehmood, Ali Noor;Zhao Ming;Zhou Bao-yuan;Guo Dong;Ge Jun-zhu;Li Xiang-ling
关键词:maize; strip deep rotary tillage; controlled-release urea; nitrogen accumulation; grain yield
-
Yield gap and resource utilization efficiency of three major food crops in the world - A review
作者:Rong Liang-bing;Gong Kai-yuan;Rong Liang-bing;Gong Kai-yuan;He Jian-qiang;Yu Qiang;Rong Liang-bing;Gong Kai-yuan;Duan Feng-ying;Li Shao-kun;Zhao Ming;Zhou Wen-bin;He Jian-qiang;He Jian-qiang;Yu Qiang;Yu Qiang
关键词:food crops; yield; yield gap; resource utilization efficiency; yield-limiting factor
-
Comparing rice production systems in China: Economic output and carbon footprint
作者:Ling Lin;Maimaitizunong, Ayitula;Ling Lin;Shuai Yanju;Sun Zichuan;Zhang Haoran;Zhan Ming;Li Chengfang;Wang Jinping;Jiang Yang;Maimaitizunong, Ayitula;Cao Cougui;Xu Ying;Zhang Zhisheng;Wang Bin;Liangzhi You;Liangzhi You
关键词:Carbon footprint; Economicbenefit; Rice production system; GHG mitigation practices; Rotation; Integrated farming system
-
Quantitative design of yield components to simulate yield formation for maize in China
作者:Hou Hai-peng;Ma Wei;Noor, Mehmood Ali;Li Cong-feng;Ding Zai-song;Zhao Ming;Tang Li-yuan
关键词:maize; yield performance parameters; high yield; yield prediction process; quantitative design
-
Development of chromatographic fingerprint for quality analysis of diploid and tetraploid Lonicera japonica
作者:Hu Xuan;Wang Dan;Pang Yuxin;Huan Hengfu;Chen Zhijian;Wu Zhisheng;Li Weidong
关键词:Lonicera; Polyploidy; Chromatography, high pressure liquid; Dermatoglyphics; Phytochemicals; Qualitative research
-
Characterization of low-N responses in maize (Zea mays L.) cultivars with contrasting nitrogen use efficiency in the North China Plain
作者:Li Xiang-ling;Guo Li-guo;Tang Xiang-ming;Chen Cong-cong;Zhang Lei;Zhang Shao-yun;Xiao Kai;Zhang Yue-chen;Zhou Bao-yuan;Li Chong-feng;Yin Bao-zhong;Dong Wei-xin
关键词:summer maize; N deficiency; yield; dry matter production; N accumulative amount
-
Diurnal variation of gas exchange, chlorophyll fluorescence, and photosynthetic response of six parental lines of maize released in three eras
作者:Li Cong-feng;Ren Hong;Ding Zai-song;Zhao Ming;Dong Shu-ting;Liu Rui-xian
关键词:maize; parental inbred lines; diurnal variation; photosynthetic response; three eras
