Study on the Dehydration Characteristics of Spring Maize after Physiological Maturity and the Suitable Period of Mechanical Grain Harvest
文献类型: 外文期刊
作者: Liu, Guohong 1 ; Bian, Qingyong 2 ; Fu, Yanbo 1 ; Liu, Yanyan 2 ; Wei, Yayuan 2 ; Zhu, Jinquan 2 ; Wang, Zhiguo 2 ;
作者机构: 1.Xinjiang Acad Agr Sci, Inst Soil Fertilizer & Agr Water Saving, Urumqi 830091, Xinjiang, Peoples R China
2.Xinjiang Acad Agr Sci, Baicheng Agr Expt Stn, Aksu 8300914, Xinjiang, Peoples R China
3.Natl Agr Expt Stn Soil Qual Aksu, Aksu 8300914, Xinjiang, Peoples R China
期刊名称:WIRELESS COMMUNICATIONS & MOBILE COMPUTING ( 影响因子:2.146; 五年影响因子:2.052 )
ISSN: 1530-8669
年卷期: 2022 年 2022 卷
页码:
收录情况: SCI
摘要: The high moisture content of seeds during harvesting results in a large amount of grain that breaks during mechanical harvesting, which becomes a key problem that hampers the promotion of mechanical grain harvesting technology. Maize in southern Xinjiang physiologically matures from early September to early October. In this study, 52 varieties of maize at different maturity stages were studied in 2019-2020 and were categorized in the order of physiological maturity time: early September (PD1), mid-September (PD2), late September (PD3), and early October (PD4). The goal of this study was to analyze the differences in content of kernel moisture at physiological maturity and the rate of dehydration after physiological maturity of varieties at different stages of maturity, so as to determine the suitable period for mechanical grain harvesting of maize at different stages of maturity. The results showed that the content of seed moisture at different maturity stages varied in a two-stage linear model, with periods of fast and slow dehydration. An analysis of variance (ANOVA) showed that the content of seed moisture at different stages of physiological maturity did not differ significantly (P>0.05).
- 相关文献
作者其他论文 更多>>
-
Micro-/nanobubble oxygenation irrigation enhances soil phosphorus availability and yield by altering soil bacterial community abundance and core microbial populations
作者:Bian, Qingyong;Dong, Zhiduo;Zhao, Yupeng;Feng, Yaozu;Fu, Yanbo;Wang, Zhiguo;Bian, Qingyong;Feng, Yaozu;Fu, Yanbo;Zhu, Jingquan;Feng, Yaozu;Ma, Liang
关键词:micro-/nanobubble oxygenation irrigation; maize; rhizosphere; microbial community; available phosphorus; yield
-
Effect of Subsurface Drainpipe Parameters on Soil Water and Salt Distribution in a Localized Arid Zone: A Field-Scale Study
作者:Wang, Hui;Zhu, Qianqian;Ma, Xiaopeng;Ding, Feng;Xu, Wanli;Bian, Qingyong;Zhu, Qianqian;Fu, Yanbo;Bian, Qingyong;Pan, Yuzhuo;Kade, Mushajiang
关键词:saline soil; subsurface drainpipe parameters; water-salt distribution; arid zone
-
Synergistic Regulation of Soil Salinity and Ion Transport in Arid Agroecosystems: A Field Study on Drip Irrigation and Subsurface Drainage in Xinjiang, China
作者:Zhu, Qianqian;Wang, Hui;Ma, Honghong;Ding, Feng;Xu, Wanli;Ma, Xiaopeng;Fu, Yanbo;Zhu, Qianqian;Fu, Yanbo
关键词:salt-affected soil remediation; ionic migration dynamics; subsurface drainage; arid agriculture
-
The input of organic fertilizer can improve soil physicochemical properties and increase cotton yield in southern Xinjiang
作者:Zhao, Yupeng;Dong, Zhiduo;Wang, Zhiguo;Fu, Yanbo;Zhao, Yupeng;Chen, Bolang;Bian, Qingyong;Fu, Yanbo;Rao, Xiaojuan
关键词:soil nutrients; cotton; soil physical and chemical properties; soil microorganisms; southern Xinjiang
-
Effect of Inoculation with Lactiplantibacillus plantarum and Cellulase on the Quality of Mulberry Silage
作者:Sun, Yingchao;Chen, Yongcheng;Zheng, Xiaokai;Qi, Yayin;Ma, Chunhui;Zhang, Fanfan;Huo, Zhiwei;Liu, Guohong
关键词:silage additives; nutritional quality; bacterial community; microbial inoculation
-
Distribution Features and Health Risk Assessment of Phthalate Pollutants in Facility Soil and Agricultural Products in Xinjiang, China
作者:Li, Haifeng;Liu, Zhigang;Su, Hanming;Simayi, Silayiding;Liu, Guohong;Liu, Hejiang
关键词:facility agriculture; soil; agricultural products; phthalic acid ester; pollution characteristics; health risk assessment
-
Exogenous γ-Aminobutyric Acid Can Improve Seed Germination and Seedling Growth of Two Cotton Cultivars under Salt Stress
作者:Dong, Zhiduo;Fu, Qiuping;Dong, Zhiduo;Huang, Jian;Qi, Tong;Meng, Ajing;Fu, Yanbo;Xu, Fei;Huang, Jian;Qi, Tong;Meng, Ajing;Qi, Tong;Fu, Yanbo;Xu, Fei
关键词:ion content; Gossypium; osmoregulation; oxidative stress
