摘要
Soybean variety ‘Qindou 2014’ with high protein content(47.79%) was bred through hybridization and pod mixed individual selection method. ‘96 E218’ and ‘Pudou 10’ were used as female and male parent respectively. Near-infrared analytical method was used in low generation selection. ‘Qindou 2014’ also performed consistent high yield(3,739.8 kg/ha averagely), strong resistance to mosaic virus disease,wide adaptation, and good fitness to mechanized harvesting. The regional examination test was carried out and it was approved by the cultivar registration committee of Shaanxi Province in 2017. Experiments of sowing date and density were conducted to explore the suitable cultivation technologies for high yield. Results indicated that ‘Qindou 2014’ could fully exert its yield potential as sown at the density of 290,000 plants/ha from May 25 to June 15. This study provides high quality soybean germplasm for future soybean industry.
Soybean variety ‘Qindou 2014’ with high protein content(47.79%) was bred through hybridization and pod mixed individual selection method. ‘96 E218’ and ‘Pudou 10’ were used as female and male parent respectively. Near-infrared analytical method was used in low generation selection. ‘Qindou 2014’ also performed consistent high yield(3,739.8 kg/ha averagely), strong resistance to mosaic virus disease,wide adaptation, and good fitness to mechanized harvesting. The regional examination test was carried out and it was approved by the cultivar registration committee of Shaanxi Province in 2017. Experiments of sowing date and density were conducted to explore the suitable cultivation technologies for high yield. Results indicated that ‘Qindou 2014’ could fully exert its yield potential as sown at the density of 290,000 plants/ha from May 25 to June 15. This study provides high quality soybean germplasm for future soybean industry.
基金
supported by the National key R & D Project (2016YFD0101905)
the Yangling demonstration area Agricultural Science and Technology Program (2018NY-06)