A biopolymer with antimicrobial properties and plant resistance inducer against phytopathogens: Chitosan

Abstract: Some synthetic fungicides have been currently prohibited due to their adverse effects; thus, searching for alternatives to decrease their application is a priority worldwide. An alternative to the application of synthetic fungicides is chitosan -a natural biopolymer- because of its biocompatibility, biodegradability, and bioactivity. Chitosan has been used in different industries, such as cosmetology, pharmaceutics, food, among others. In agriculture, it has been used as a resistance inductor and bio-fungicide… Show more

“…The results presented here demonstrate that the foliar application of 1.0~1.5% chitosan significantly (p < 0.01) reduced the MDA content of leaves in R. roxburghii and increased its flavonoids, indicating the chitosan application alleviated the membrane lipid peroxidation and promoted the disease resistance of R. roxburghii plants. PPO catalyzes phenolic substances to synthesize lignin, strengthen the cell wall structure and avoid entrance and colonization of phytopathogens toward plants [20]. SOD is responsible for eliminating reactive oxygen species to avoid plants from oxidative stress during phytopathogen invasion [20,37].…”

“…PPO catalyzes phenolic substances to synthesize lignin, strengthen the cell wall structure and avoid entrance and colonization of phytopathogens toward plants [20]. SOD is responsible for eliminating reactive oxygen species to avoid plants from oxidative stress during phytopathogen invasion [20,37]. In this study, the foliar application of 0.5~1.5% chitosan significantly (p < 0.01) enhanced SOD and PPO activities of leaves in R. roxburghii, further evidencing the chitosan application enhanced the disease resistance of R. roxburghii plants.…”

“…in R. roxburghii with the inducing effect of 61.45%. Chitosan, a natural de-acetylated chitin derivative, is an ideal resource for sustainable agriculture due to its bioactivity, biocompatibility, biodegradability, non-toxicity, and renewability [18][19][20]. A wide range of studies shows that chitosan can be used as a resistance inductor and bio-fungicide for controlling plant diseases and as a growth promoter for enhancing plant development [21][22][23][24][25][26].…”

“…A wide range of studies shows that chitosan can be used as a resistance inductor and bio-fungicide for controlling plant diseases and as a growth promoter for enhancing plant development [21][22][23][24][25][26]. In the control of plant diseases, chitosan induces morphological changes and structural alterations in fungal cells that cause cell death [20,27]. When chitosan is used to improve plant defense, it induces resistant enzymes, pathogenesis-related proteins, phytoalexins, callose formation, and promotes lignification [20,28].…”

“…In the control of plant diseases, chitosan induces morphological changes and structural alterations in fungal cells that cause cell death [20,27]. When chitosan is used to improve plant defense, it induces resistant enzymes, pathogenesis-related proteins, phytoalexins, callose formation, and promotes lignification [20,28]. Up to date, however, there is no attention or documentation available about whether chitosan induces resistance of R. roxburghii to Sphaerotheca sp.…”

Chitosan Can Induce Rosa roxburghii Tratt. against Sphaerotheca sp. and Enhance Its Resistance, Photosynthesis, Yield, and Quality

“…The results presented here demonstrate that the foliar application of 1.0~1.5% chitosan significantly (p < 0.01) reduced the MDA content of leaves in R. roxburghii and increased its flavonoids, indicating the chitosan application alleviated the membrane lipid peroxidation and promoted the disease resistance of R. roxburghii plants. PPO catalyzes phenolic substances to synthesize lignin, strengthen the cell wall structure and avoid entrance and colonization of phytopathogens toward plants [20]. SOD is responsible for eliminating reactive oxygen species to avoid plants from oxidative stress during phytopathogen invasion [20,37].…”

“…PPO catalyzes phenolic substances to synthesize lignin, strengthen the cell wall structure and avoid entrance and colonization of phytopathogens toward plants [20]. SOD is responsible for eliminating reactive oxygen species to avoid plants from oxidative stress during phytopathogen invasion [20,37]. In this study, the foliar application of 0.5~1.5% chitosan significantly (p < 0.01) enhanced SOD and PPO activities of leaves in R. roxburghii, further evidencing the chitosan application enhanced the disease resistance of R. roxburghii plants.…”

“…in R. roxburghii with the inducing effect of 61.45%. Chitosan, a natural de-acetylated chitin derivative, is an ideal resource for sustainable agriculture due to its bioactivity, biocompatibility, biodegradability, non-toxicity, and renewability [18][19][20]. A wide range of studies shows that chitosan can be used as a resistance inductor and bio-fungicide for controlling plant diseases and as a growth promoter for enhancing plant development [21][22][23][24][25][26].…”

“…A wide range of studies shows that chitosan can be used as a resistance inductor and bio-fungicide for controlling plant diseases and as a growth promoter for enhancing plant development [21][22][23][24][25][26]. In the control of plant diseases, chitosan induces morphological changes and structural alterations in fungal cells that cause cell death [20,27]. When chitosan is used to improve plant defense, it induces resistant enzymes, pathogenesis-related proteins, phytoalexins, callose formation, and promotes lignification [20,28].…”

“…In the control of plant diseases, chitosan induces morphological changes and structural alterations in fungal cells that cause cell death [20,27]. When chitosan is used to improve plant defense, it induces resistant enzymes, pathogenesis-related proteins, phytoalexins, callose formation, and promotes lignification [20,28]. Up to date, however, there is no attention or documentation available about whether chitosan induces resistance of R. roxburghii to Sphaerotheca sp.…”

Chitosan Can Induce Rosa roxburghii Tratt. against Sphaerotheca sp. and Enhance Its Resistance, Photosynthesis, Yield, and Quality

Chitosan Biopolymer Nanocomposites for Agriculture Applications

Effect of value-added organic co-products from four industrial chains on functioning of plant disease suppressive soil and their potentiality to enhance soil quality: A review from the perspective of a circular economy