New oligochitosan-nanosilica hybrid materials: preparation and application on chili plants for resistance to anthracnose disease and growth enhancement

New biopolymer oligochitosan (OCS) and OCS/nanosilica (OCS/nSiO 2 ) hybrid materials with remarkable synergistic effects are likely to be considered natural vaccines for the growth and disease resistance of plants. This study indicated that OCS (50 mg l −1 ), nSiO 2 (60 mg l −1 ) and OCS/nSiO 2 (50:...

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Published inPolymer journal Vol. 49; no. 12; pp. 861 - 869
Main Authors Nguyen, Ngoc Thuy, Nguyen, Dai Hai, Pham, Dinh Dzung, Dang, Van Phu, Nguyen, Quoc Hien, Hoang, Dong Quy
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.12.2017
Nature Publishing Group
Subjects
631/45
704/172
Biomaterials
Bioorganic Chemistry
Biopolymers
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Chitin
Chitosan
Chlorophyll
Disease control
Fungi
Fungicides
original-article
Plants (organisms)
Polymer Sciences
Surfaces and Interfaces
Synergistic effect
Thin Films
Vaccines
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Summary:New biopolymer oligochitosan (OCS) and OCS/nanosilica (OCS/nSiO 2 ) hybrid materials with remarkable synergistic effects are likely to be considered natural vaccines for the growth and disease resistance of plants. This study indicated that OCS (50 mg l −1 ), nSiO 2 (60 mg l −1 ) and OCS/nSiO 2 (50:50 mg l −1 :mg l −1 ) not only created effective anti-fungal activity in chili plants but also enhanced their growth, even when the plants were infected with Colletotrichum sp. After fungal infection, the disease incidence of the control plants increased to 50.3% (after 14 days), 75.7% (after 21 days) and 100% (after 35 days). However, the plants treated with OCS/nSiO 2 were without disease, even when they have been infected by Colletotrichum sp. during the 35-day investigation. The fresh weight of shoots and roots, shoot length and chlorophyll content of the plants treated with nSiO 2 , OCS or OCS/nSiO 2 hybrid material were higher than those of the control plants. These materials could be considered potential biotic elicitors that not only prevent anthracnose disease but also effectively promote plant growth. Functional oligochitosan-nanosilica (OCS/nSiO 2 ) hybrid material is likely to be considered as natural vaccine for the growth and disease resistance of the plants. Study on hybrid material from low-cost and waste products such as OCS from chitosan and chitin, and nSiO 2 from rice husk is likely to create a novel material with special synergistic effect. The plants treated with OCS/nSiO 2 were not completely diseased by Colletotrichum sp. The biomass, the length, the chlorophyll content of the plants treated with OCS, nSiO 2 or OCS/nSiO 2 were higher than those of the control plants.
ISSN:0032-3896
1349-0540
DOI:10.1038/pj.2017.58