Root Disease Complexes of Arable Crops: Where Do We Stand and Where Should We Go? DOI Creative Commons
Abhay K. Pandey, Martin J. Barbetti, Abhishek Kumar

et al.

Critical Reviews in Plant Sciences, Journal Year: 2025, Volume and Issue: unknown, P. 1 - 29

Published: March 20, 2025

Root diseases are a major global threat to sustainable agricultural production. Complexes of interacting soilborne fungal, oomycete and nematode pathogens involved in causing these that generally termed root disease complexes. These pathogen complexes typically have resilient long-term survival mechanisms, the ability cross-infect multiple crop genera species, wide range spatial dispersal modes. Although, some instances, individual within complex been identified using classical molecular techniques, most cases full remain undefined. At level, it is increasingly obvious different engage unique sets proteins infect hosts successfully. In addition, unpredictable ever-changing nature space time challenges their management. A better understanding whole system dynamics thus prerequisite for effective management, especially under climate change scenarios. Management dependent upon improved detection diagnostic techniques accurately define complement involved, along with an evolution complexes, epidemiology, adaptation across wide-ranging dynamic systems. This review will focus on arable crops, particular emphasis diagnosis, genetic diversity, management options, and, how airborne interact, identify future scope research.

Language: Английский

Root Disease Complexes of Arable Crops: Where Do We Stand and Where Should We Go? DOI Creative Commons
Abhay K. Pandey, Martin J. Barbetti, Abhishek Kumar

et al.

Critical Reviews in Plant Sciences, Journal Year: 2025, Volume and Issue: unknown, P. 1 - 29

Published: March 20, 2025

Root diseases are a major global threat to sustainable agricultural production. Complexes of interacting soilborne fungal, oomycete and nematode pathogens involved in causing these that generally termed root disease complexes. These pathogen complexes typically have resilient long-term survival mechanisms, the ability cross-infect multiple crop genera species, wide range spatial dispersal modes. Although, some instances, individual within complex been identified using classical molecular techniques, most cases full remain undefined. At level, it is increasingly obvious different engage unique sets proteins infect hosts successfully. In addition, unpredictable ever-changing nature space time challenges their management. A better understanding whole system dynamics thus prerequisite for effective management, especially under climate change scenarios. Management dependent upon improved detection diagnostic techniques accurately define complement involved, along with an evolution complexes, epidemiology, adaptation across wide-ranging dynamic systems. This review will focus on arable crops, particular emphasis diagnosis, genetic diversity, management options, and, how airborne interact, identify future scope research.

Language: Английский

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