To confirm resistance and genetic rules of Xikemai 6 against physiological races of wheat stripe rust,physiological races CYR31,CYR32 and CYR33,Su11-4 and V26 were inoculated in Xikemai 6 and Mingxian 169 and their hy...To confirm resistance and genetic rules of Xikemai 6 against physiological races of wheat stripe rust,physiological races CYR31,CYR32 and CYR33,Su11-4 and V26 were inoculated in Xikemai 6 and Mingxian 169 and their hybrid progenies F_1,F_2 and F_3 at adult plant stage on March 2015. The results showed that the resistance of Xikemai 6 against CYR31 was controlled by 2 pairs of dominant genes and a pair of recessive genes; the resistance against CYR32 was controlled by three pairs of dominant resistant genes( two pairs of genes performed cumulative effect); the resistance against CYR33 was controlled by a pair of dominant genes and a pair of recessive genes; the resistance against Su11-4 was controlled by a pair of dominant genes and a pair of recessive genes independently or collaboratively; the resistance against V26 was controlled by a pair of dominant genes independently. Due to good performance of Xikemai 6 in test and production,as well as years of resistance identification and genetic analysis,Xikemai 6 was proved to be an excellent cultivar with good resistance against stripe rust,and the inheritance of its resistance was stable,so Xikemai 6 could be used as a germplasm resource and resistance material with excellent comprehensive character. Molecular marker and localization could be further studied,to provide new resistance parents for disease-resistant breeding of wheat.展开更多
Mycotoxins are widely distributed in various feed ingredients and animal feed. Feed contamination by mycotoxin leads to deteriorated feed,various diseases of animals and even acute death,bringing great loss to breedin...Mycotoxins are widely distributed in various feed ingredients and animal feed. Feed contamination by mycotoxin leads to deteriorated feed,various diseases of animals and even acute death,bringing great loss to breeding industry. The article summarized the harm of mycotoxin to animal and detection methods in feed and animal,in order to provide a reference for further improving mycotoxin detection methods and reducing the harm of mycotoxin to breeding industry.展开更多
基金Supported by Key Research Project of Wheat Breeding in Sichuan Province(2011NZ0098-3-18)
文摘To confirm resistance and genetic rules of Xikemai 6 against physiological races of wheat stripe rust,physiological races CYR31,CYR32 and CYR33,Su11-4 and V26 were inoculated in Xikemai 6 and Mingxian 169 and their hybrid progenies F_1,F_2 and F_3 at adult plant stage on March 2015. The results showed that the resistance of Xikemai 6 against CYR31 was controlled by 2 pairs of dominant genes and a pair of recessive genes; the resistance against CYR32 was controlled by three pairs of dominant resistant genes( two pairs of genes performed cumulative effect); the resistance against CYR33 was controlled by a pair of dominant genes and a pair of recessive genes; the resistance against Su11-4 was controlled by a pair of dominant genes and a pair of recessive genes independently or collaboratively; the resistance against V26 was controlled by a pair of dominant genes independently. Due to good performance of Xikemai 6 in test and production,as well as years of resistance identification and genetic analysis,Xikemai 6 was proved to be an excellent cultivar with good resistance against stripe rust,and the inheritance of its resistance was stable,so Xikemai 6 could be used as a germplasm resource and resistance material with excellent comprehensive character. Molecular marker and localization could be further studied,to provide new resistance parents for disease-resistant breeding of wheat.
文摘Mycotoxins are widely distributed in various feed ingredients and animal feed. Feed contamination by mycotoxin leads to deteriorated feed,various diseases of animals and even acute death,bringing great loss to breeding industry. The article summarized the harm of mycotoxin to animal and detection methods in feed and animal,in order to provide a reference for further improving mycotoxin detection methods and reducing the harm of mycotoxin to breeding industry.
