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Showing 3 results for Pathogens
Role of Soil Solarization in Management of Soil-Borne Diseases
Zabihollah Azami-Sardooei , Abdolrahman Mirzaei , Farnaz Fekrat ,
Volume 6, Issue 1 (2-2017)
Abstract

Nowadays, control of plant pathogens and weeds is more difficult and expensive than in the past. In last decades, due to adoption of inappropriate management methods and excessive use of agrochemicals, the soil fauna and flora threatened. Accordingly, many of ecologists and plant pathologists tried to find some alternative methods of pest and pathogen control. Soil solarization is of these approaches that is widely used against soil pathogens. This is an ecofriendly and safe as well as low cost and efficient method which can be used to control the plant pathogens, pests and weeds. As a part of integrated pest management program, this approach applies the ecological principles to protect the environment and reduce the hazards of pesticides. In this review, we have described the history and benefits of soil solarization and also the principles of this method


Control methods of plant pathogens in irrigation system
Eisa Nazerian, Sahar Sayad,
Volume 10, Issue 1 (2-2021)
Abstract
Nazerian E, Sayad S (2021) Control methods of plant pathogens in irrigation system. Plant Pathology Science 10(1): 117-127.     Doi: 10.2982/PPS.10.1.117.
 
Many plant pathogens can spread into irrigation water in farms, gardens or greenhouses and cause disease in various crops. So far, a large number of plant pathogens including 43 fungal-like organisms, 27 fungi, eight bacteria, 26 viruses and 13 nematodes have been isolated and reported from water sources and water transmission systems. In many greenhouses, various pesticides are used to prevent the spread and control of these pathogens, which imposes costs, soil or water pollution, and the possibility of resistance in pathogens. Different methods of water treatment to control aquatic pathogens in the irrigation system using chemicals such as chlorine, chlorine dioxide, copper, silver and ozone, physical methods such as water filtration, heat, ultraviolet rays and the use of biosurfactants such as rhamnolipid and  nitrapyrin, are described in this article.


 
Defense responses by nitric oxide in plant-pathogen interaction
Saeedeh Dehghanpour Farashah,
Volume 12, Issue 2 (9-2023)
Abstract
Dehghanpour Farashah S (2023) Defense responses by nitric oxide in plant-pathogen interaction. Plant Pathology Science 12(2):130-142.
The control of diseases in agriculture often relies on pesticides and chemical fertilizers, which negatively affect the rhizosphere natural microflora and ecosystem balance. Today, researchers are looking to replace these chemicals with other environment friendly agents to improve agricultural production and control plant pathogens. Research on the interaction of nitric oxide (NO) with plant pathogens has shown that NO is a key messenger in the response of plants to biotic and abiotic stresses. Due to the role of NO in the regulation of plant defense genes, especially through programmed cell death, it has attracted the attention of many plant pathologists. Although NO plays an important role in the hypersensitive reaction in response to various biotic and abiotic stresses, it has been found that NO also plays a role in regulating the expression of genes related to non-specific resistance. In this review, the role of nitric oxide in plant-pathogens interaction has been investigated.

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