The importance for food security of maintaining rust resistance in wheat

被引:87
作者
Chaves, Marcia Soares [1 ]
Martinelli, Jose Antonio [2 ]
Wesp-Guterres, Caroline [3 ]
Sganzerla Graichen, Felipe Andre [4 ]
Brammer, Sandra Patussi [1 ]
Scagliusi, Sandra Mansur [1 ]
da Silva, Paulo Roberto [5 ]
Wiethoelter, Paula [1 ]
Montan Torres, Gisele Abigail [1 ]
Lau, Elene Yamazaki [1 ]
Consoli, Luciano [1 ]
Soares Chaves, Ana Lucia [6 ]
机构
[1] Brazilian Agr Res Corp EMBRAPA, Natl Wheat Res Ctr, BR-99001970 Passo Fundo, RS, Brazil
[2] Univ Fed Rio Grande do Sul, BR-91540000 Porto Alegre, RS, Brazil
[3] Cent Cooperat Gaucha Ltd, Technol Unit CCGL TEC, BR-98005970 Cruz Alta, RS, Brazil
[4] Univ Estadual Mato Grosso do Sul, BR-79200000 Aquidauana, MS, Brazil
[5] Midwestern State Univ Parana, BR-85015415 Guarapuava, PR, Brazil
[6] Univ Fed Pelotas, BR-96010900 Pelotas, RS, Brazil
关键词
Breeding; Food production; Genetics; Puccinia graminis tritici Ug99; Sustainable development; United Nations Millenium Development Goals; F-SP TRITICI; ADULT-PLANT RESISTANCE; LEAF RUST; STRIPE RUST; STEM RUST; PUCCINIA-TRITICINA; HEXAPLOID WHEAT; ECONOMIC-IMPACT; MOLECULAR POLYMORPHISM; TRANSCRIPTOME ANALYSIS;
D O I
10.1007/s12571-013-0248-x
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Wheat is one of the main sources of calories and protein of the world's population and therefore the pathogens that cause rust diseases of the crop are a real threat to food security. Besides the continuous evolution of rust pathogens which repeatedly results in overcoming the resistance of commercial varieties throughout the world, plant breeders are also now challenged by the impacts of global climatic changes. Agricultural practices will need to keep pace with the intensification of sustainable food production in order to face the challenge of feeding a world population estimated to reach about nine billion by 2050. Contemporary wheat breeding has increasingly focused on the future, culminating in the emergence of a global partnership for breeding new wheat varieties with resistance to rust pathogens. Plant breeding now employs a wide range of both long-established and frontier technologies aimed at achieving the United Nations Millennium Development Goals of ending hunger and extreme poverty (MDG1), while concurrently promoting environmental sustainability (MDG7) through global partnerships for development (MDG8).
引用
收藏
页码:157 / 176
页数:20
相关论文
共 50 条
[21]   A Combination of Resistance Genes Confers High and Durable Resistance Against Stripe Rust in Wheat Cultivar Lantian 26 [J].
Wang, Hongmei ;
Wang, Yamei ;
Liu, Jindong ;
Zhang, Huaizhi ;
He, Rui ;
Yang, Fangping ;
Guo, Ying ;
Bai, Bin .
PLANT DISEASE, 2024, 108 (08) :2550-2557
[22]   Genetic mapping of the wheat leaf rust resistance gene Lr2a and its importance in Canadian wheat cultivars [J].
Thambugala, Dinushika ;
Lewarne, Mallorie K. ;
McCallum, Brent D. ;
Bilichak, Andriy ;
Hiebert, Colin W. ;
McCartney, Curt A. .
THEORETICAL AND APPLIED GENETICS, 2023, 136 (09)
[23]   MOLECULAR GENETIC VARIATION FOR STRIPE RUST RESISTANCE IN SPRING WHEAT [J].
Iqbal, Muhammad ;
Ejaz, Mahwish ;
Ahmed, Iftikhar ;
Shahzad, Armghan ;
Ali, Ghulam M. .
PAKISTAN JOURNAL OF AGRICULTURAL SCIENCES, 2016, 53 (01) :143-150
[24]   Characterizing Resistance Genes in Wheat-Stem Rust Interaction [J].
Mojerlou, S. ;
Safaie, N. ;
Moghaddam, A. Abbasi ;
Shams-Bakhsh, M. .
JOURNAL OF AGRICULTURAL SCIENCE AND TECHNOLOGY, 2020, 22 (06) :1629-1644
[25]   Genome-wide atlas of rust resistance loci in wheat [J].
Tong, Jingyang ;
Zhao, Cong ;
Liu, Dan ;
Jambuthenne, Dilani T. ;
Sun, Mengjing ;
Dinglasan, Eric ;
Periyannan, Sambasivam K. ;
Hickey, Lee T. ;
Hayes, Ben J. .
THEORETICAL AND APPLIED GENETICS, 2024, 137 (08)
[26]   Stem rust resistance in wheat is suppressed by a subunit of the mediator complex [J].
Hiebert, Colin W. ;
Moscou, Matthew J. ;
Hewitt, Tim ;
Steuernagel, Burkhard ;
Hernandez-Pinzon, Inma ;
Green, Phon ;
Pujol, Vincent ;
Zhang, Peng ;
Rouse, Matthew N. ;
Jin, Yue ;
McIntosh, Robert A. ;
Upadhyaya, Narayana ;
Zhang, Jianping ;
Bhavani, Sridhar ;
Vrana, Jan ;
Karafiatova, Miroslava ;
Huang, Li ;
Fetch, Tom ;
Dolezel, Jaroslav ;
Wulff, Brande B. H. ;
Lagudah, Evans ;
Spielmeyer, Wolfgang .
NATURE COMMUNICATIONS, 2020, 11 (01)
[27]   Adult Plant Resistance of Selected Kenyan Wheat Cultivars to Leaf Rust and Stem Rust Diseases [J].
Figlan, S. ;
Baloyi, T. A. ;
Hlongoane, T. ;
Terefe, T. G. ;
Shimelis, H. ;
Tsilo, T. J. .
CEREAL RESEARCH COMMUNICATIONS, 2017, 45 (01) :68-82
[28]   Four Consistent Loci Confer Adult Plant Resistance to Leaf Rust in the Durum Wheat Lines Heller#1 and Dunkler [J].
Li, Zhikang ;
Yuan, Chan ;
Herrera-Foessel, Sybil A. ;
Randhawa, Mandeep S. ;
Huerta-Espino, Julio ;
Liu, Demei ;
Dreisigacker, Susanne ;
Singh, Ravi P. ;
Lan, Caixia .
PHYTOPATHOLOGY, 2020, 110 (04) :892-899
[29]   Breeding Wheat for Durable Leaf Rust Resistance in Southern Africa: Variability, Distribution, Current Control Strategies, Challenges and Future Prospects [J].
Figlan, Sandiswa ;
Ntushelo, Khayalethu ;
Mwadzingeni, Learnmore ;
Terefe, Tarekegn ;
Tsilo, Toi J. ;
Shimelis, Hussein .
FRONTIERS IN PLANT SCIENCE, 2020, 11
[30]   Three co-located resistance genes confer resistance to leaf rust and stripe rust in wheat variety Borlaug 100 [J].
Ye, Bowei ;
Singh, Ravi P. ;
Yuan, Chan ;
Liu, Demei ;
Randhawa, Mandeep S. ;
Huerta-Espino, Julio ;
Bhavani, Sridhar ;
Lagudah, Evans ;
Lan, Caixia .
CROP JOURNAL, 2022, 10 (02) :490-497