适合粮食机械收割的玉米品种的冠层结构、光合作用、籽粒灌浆和脱水特性

Tian-jun Xu, Y. Zhang, Jiu-ran Zhao, Ronghuan Wang, Tian-Fang Lyu, Yuee Liu, Wan-tao Cai, Hong-wei Liu, Chuanyong Chen, Yuandong Wang
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引用次数: 0

摘要

:为选择和推广适合机械化粮食收获的玉米品种提供技术支持,将不同类型玉米品种的冠层结构、光合特性和机械化收获特性与我国生产推广的京农科728等24个玉米品种进行了比较。结果表明:(1)试验品种的平均产量、水分含量、破碎率和收获时杂质含量分别为11658.78 kg hm–2、24.66%、3.90%和0.83%,以京2416为父本的京农科728等18个适宜机收品种的平均产额为11802.70 kg hm-2,比郑单958和仙玉335分别提高7.69%和4.45%。收获时籽粒含水量低于28%(平均24.61%);平均破碎率不到5%(平均3.42%),达到国家机收粮食标准。(2) 以京2416为父本的京农科728等18个玉米品种,茎叶夹角小,株型紧凑,平均透光率高,光照分布更合理。(3) 试验玉米品种的平均净光合速率和叶绿素含量分别为34.10μmol CO 2 m–2 s–1和8.91 mg m 2。以京2416为父本的18个适合机收的玉米品种的平均净光合速率为35.21μmol CO2 m–2 s–1,分别比郑单958和鲜玉335高19.60%和6.73%。平均叶绿素含量为9.87mg/m2,比郑单958和仙玉335分别高61.54%和68.43%。(4) 以京2416为父本的18个品种生理成熟后的平均籽粒灌浆率和脱水率分别为0.83g 100粒-1 d–1和0.55%d–1,显著高于郑单958和鲜玉335,表明收获时籽粒水分含量较低。(5) 相关分析表明,试验品种的产量与净光合速率和籽粒灌浆速率呈显著正相关。净光合速率与茎叶夹角呈负相关,与透光率和叶绿素含量呈正相关。收获时籽粒含水量与破碎率、杂质含量和生理成熟后籽粒含水量呈显著正相关,与生理成熟后脱水率呈负相关,与籽粒灌浆速率呈负相关。总之,在高种植密度条件下,适合机械收割的玉米品种应具有紧凑的株型、高冠层透光率、强光合能力、高籽粒灌浆和脱水率,从而实现较低的籽粒含水量和较高的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Canopy structure, photosynthesis, grain filling, and dehydration characteristics of maize varieties suitable for grain mechanical harvesting
: To provide technical support for the selection and popularization of corn varieties suitable for mechanized grain harvest, the canopy structure, photosynthetic characteristics, and mechanical harvesting characteristics of different types of maize varieties were compared with 24 maize varieties including Jingnongke 728 produced and widely promoted in China. The results showed that: (1) The average yield, moisture content, broken rate and impurity content at harvest of the tested varieties were 11,658.78 kg hm –2 , 24.66%, 3.90%, and 0.83%. The average yield of 18 suitable machine harvesting varieties such as Jingnongke 728 with Jing 2416 as male parent was 11,802.70 kg hm –2 , which was significantly higher by 7.69% and 4.45% than those of Zhengdan 958 and Xianyu 335, respectively. The grain moisture content at harvest was lower than 28% (average 24.61%); The average broken rate was less than 5% (average 3.42%), reaching the national standard of machine harvested grain. (2) 18 maize varieties suitable for grain mechanical harvesting such as Jingnongke 728 with Jing 2416 as male parent had small angle between stem and leaf, compact plant type, high average light transmittance and more reasonable light distribution. (3) The average net photosynthetic rate and chlorophyll content of the tested maize varieties were 34.10 μ mol CO 2 m –2 s –1 and 8.91 mg m 2 . The average net photosynthetic rate of the 18 maize varieties suitable for machine harvesting with Jing 2416 as male parent was 35.21 μ mol CO 2 m –2 s –1 , which was 19.60% and 6.73% higher than Zhengdan 958 and Xianyu 335. The average chlorophyll content was 9.87 mg m 2 , which was 61.54% and 68.43% higher than Zhengdan 958 and Xianyu 335. (4) The average grain filling rate and dehydration rate after physiological maturity of 18 varieties with Jing 2416 as male parent were 0.83 g 100 grain –1 d –1 and 0.55% d –1 , respectively, which were significantly higher than those of Zhengdan 958 and Xianyu 335, showing a lower grain moisture content at harvest. (5) Correlation analysis revealed that the yield of the tested varieties was significantly positively correlated with net photosynthetic rate and grain filling rate. The net photosynthetic rate was negatively correlated with the angle between stem and leaf, and positively correlated with light transmittance and chlorophyll content. Grain moisture content at harvest was significantly positively correlated with breakage rate, impurity content and grain moisture content after physiological maturity, negatively correlated with dehydration rate after physiological maturity, and negatively correlated with grain filling rate. In conclusion, maize varieties suitable for mechanical harvesting under the condition of high planting density should have compact plant type, high canopy light transmittance, strong photosynthetic capacity, high grain filling, and dehydration rate, which could lead to achieve lower grain moisture content and higher yield.
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来源期刊
作物学报
作物学报 Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.70
自引率
0.00%
发文量
89
期刊介绍: The major aims of AAS are to report the progresses in the disciplines of crop breeding, crop genetics, crop cultivation, crop physiology, ecology, biochemistry, germplasm resources, grain chemistry, grain storage and processing, bio-technology and biomathematics etc. mainly in China and abroad. AAS provides regular columns for Original papers, Reviews, and Research notes. The strict peer-review procedure guarantees the academic level and raises the reputation of the journal. The readership of AAS is for crop science researchers, students of agricultural colleges and universities, and persons with similar academic level.
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