Maize(Zea mays L.)is a global cereal crop whose demand is projected to double by 2050.Along with worsening of farmland salinization,salt stress has become a major environmental threat to the sustainability of maize pr...Maize(Zea mays L.)is a global cereal crop whose demand is projected to double by 2050.Along with worsening of farmland salinization,salt stress has become a major environmental threat to the sustainability of maize production worldwide.Accordingly,there is an urgent need to decipher salt-tolerant mechanisms and facilitate the breeding of salt-tolerant maize.As salt tolerance is a complex trait regulated by multiple genes,and maize germplasm varies widely in salt tolerance,efforts have been devoted to the identification and application of quantitative-trait loci(QTL)for salt tolerance.QTL associated with ion regulation,osmotic tolerance,and other aspects of salt tolerance have been discovered using genomewide association studies(GWAS),linkage mapping,and omics-based approaches.This review highlights recent advances in the molecular-level understanding of salt stress response in maize,in particular in(a)the discovery of salt-tolerance QTL,(b)the mechanisms of salt tolerance,(c)the development of salttolerant maize cultivars,and(d)current challenges and future prospects.展开更多
Identification of kiwifruit germplasm materials is the basis of protecting and utilizing these resources. However,identifying Actinidia arguta varieties based on morphology is difficult,especially for non-specialists....Identification of kiwifruit germplasm materials is the basis of protecting and utilizing these resources. However,identifying Actinidia arguta varieties based on morphology is difficult,especially for non-specialists. In this study,we collected 180 specimens comprising 60 varieties of three species( A. arguta,A. kolomikta,and A. polygama) from the Northeast of China. The emphasis of our study was on the feasibility of identifying A. arguta varieties. Here,we used common analysis methods( genetic distance,phylogenetic analysis and the DNA barcoding gap) and SNPs analysis to evaluate the discriminatory power of different DNA barcoding markers. The results revealed that common methods were insufficient to identify A. arguta varieties but SNPs analysis based on DNA barcoden was the potential method for identifying A. arguta varieties. Besides,Our study agree that DNA barcoding could be used to analysis the evaluation genetic relationship of the Actinidia plants.展开更多
J-integral has served as a powerful tool in characterizing crack tip status. The main feature, i.e. path- independence, makes it one of the foremost fracture parameters. In order to remain the path- independence for f...J-integral has served as a powerful tool in characterizing crack tip status. The main feature, i.e. path- independence, makes it one of the foremost fracture parameters. In order to remain the path- independence for fluid-driven cracks, J-integral is revised. In this paper, we present an extended J-in- tegral explicitly for fluid-driven cracks, e.g. hydraulically induced fractures in petroleum reservoirs, for three-dimensional (3D) problems. Particularly, point-wise 3D extended J-integral is proposed to char- acterize the state of a point along crack front. Besides, applications of the extended J-integral to porous media and thermally induced stress conditions are explored. Numerical results show that the extended J- integral is indeed path-independent, and they are in good agreement with those of equivalent domain integral under linear elastic and elastoplastic conditions. In addition, two distance-independent circular integrals in the K-dominance zone are established, which can be used to calculate the stress intensity factor (SIF).展开更多
基金supported by the National Natural Science Foundation of China(32101555,32001447,U2106229)China Postdoctoral Science Foundation(2021T140060,2020M670537)。
文摘Maize(Zea mays L.)is a global cereal crop whose demand is projected to double by 2050.Along with worsening of farmland salinization,salt stress has become a major environmental threat to the sustainability of maize production worldwide.Accordingly,there is an urgent need to decipher salt-tolerant mechanisms and facilitate the breeding of salt-tolerant maize.As salt tolerance is a complex trait regulated by multiple genes,and maize germplasm varies widely in salt tolerance,efforts have been devoted to the identification and application of quantitative-trait loci(QTL)for salt tolerance.QTL associated with ion regulation,osmotic tolerance,and other aspects of salt tolerance have been discovered using genomewide association studies(GWAS),linkage mapping,and omics-based approaches.This review highlights recent advances in the molecular-level understanding of salt stress response in maize,in particular in(a)the discovery of salt-tolerance QTL,(b)the mechanisms of salt tolerance,(c)the development of salttolerant maize cultivars,and(d)current challenges and future prospects.
基金Supported by the Jilin Scientific and Technological Development Program(20170203006NY)Central Public-interest Scientific Institution Basal Research Fund(1610342016019)
文摘Identification of kiwifruit germplasm materials is the basis of protecting and utilizing these resources. However,identifying Actinidia arguta varieties based on morphology is difficult,especially for non-specialists. In this study,we collected 180 specimens comprising 60 varieties of three species( A. arguta,A. kolomikta,and A. polygama) from the Northeast of China. The emphasis of our study was on the feasibility of identifying A. arguta varieties. Here,we used common analysis methods( genetic distance,phylogenetic analysis and the DNA barcoding gap) and SNPs analysis to evaluate the discriminatory power of different DNA barcoding markers. The results revealed that common methods were insufficient to identify A. arguta varieties but SNPs analysis based on DNA barcoden was the potential method for identifying A. arguta varieties. Besides,Our study agree that DNA barcoding could be used to analysis the evaluation genetic relationship of the Actinidia plants.
文摘J-integral has served as a powerful tool in characterizing crack tip status. The main feature, i.e. path- independence, makes it one of the foremost fracture parameters. In order to remain the path- independence for fluid-driven cracks, J-integral is revised. In this paper, we present an extended J-in- tegral explicitly for fluid-driven cracks, e.g. hydraulically induced fractures in petroleum reservoirs, for three-dimensional (3D) problems. Particularly, point-wise 3D extended J-integral is proposed to char- acterize the state of a point along crack front. Besides, applications of the extended J-integral to porous media and thermally induced stress conditions are explored. Numerical results show that the extended J- integral is indeed path-independent, and they are in good agreement with those of equivalent domain integral under linear elastic and elastoplastic conditions. In addition, two distance-independent circular integrals in the K-dominance zone are established, which can be used to calculate the stress intensity factor (SIF).
