Biological and Chemical Characterization of Musa paradisiaca Leachate

There is a growing demand for molecules of natural origin for biocontrol and biostimulation, given the current trend away from synthetic chemical products. Leachates extracted from plantain stems were obtained after biodegradation of the plant material. To characterize the leachate, quantitative det...

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Published in:Biology (Basel, Switzerland) Switzerland), 2023-10, Vol.12 (10), p.1326
Main Authors: Boulogne, Isabelle, Petit, Philippe, Desfontaines, Lucienne, Durambur, Gaëlle, Deborde, Catherine, Mirande-Ney, Cathleen, Arnaudin, Quentin, Plasson, Carole, Grivotte, Julie, Chamot, Christophe, Bernard, Sophie, Loranger-Merciris, Gladys
Format: Article
Language:English
Subjects:
Acids
Agricultural production
Alkaloids
Anthracnose
Biodegradation
Biological control
Biosynthesis
Calibration
Cell walls
Chromatography
Colletotrichum gloeosporioides
Defense mechanisms
Environmental Sciences
Experiments
Foliar applications
Food
Fulvic acids
Fungicides
fungistatic activity
Gene expression
indole alkaloids
Jasmonic acid
Leachates
Leaf area
Magnesium
Mass spectrometry
Metabolism
Metabolomics
Minerals
organic and inorganic salts
Organic compounds
Phosphorus
plant elicitor
Plant extracts
PNPP
Proline dehydrogenase
Salicylic acid
Scientific imaging
Seedlings
Stem cells
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Summary:There is a growing demand for molecules of natural origin for biocontrol and biostimulation, given the current trend away from synthetic chemical products. Leachates extracted from plantain stems were obtained after biodegradation of the plant material. To characterize the leachate, quantitative determinations of nitrogen, carbon, phosphorus, and cations (K , Ca , Mg , Na ), Q2/4, Q2/6, and Q4/6 absorbance ratios, and metabolomic analysis were carried out. The potential role of plantain leachates as fungicide, elicitor of plant defense, and/or plant biostimulant was evaluated by agar well diffusion method, phenotypic, molecular, and imaging approaches. The plant extracts induced a slight inhibition of fungal growth of an aggressive strain of , which causes anthracnose. Organic compounds such as cinnamic, ellagic, quinic, and fulvic acids and indole alkaloid such as ellipticine, along with some minerals such as potassium, calcium, and phosphorus, may be responsible for the inhibition of fungal growth. In addition, jasmonic, benzoic, and salicylic acids, which are known to play a role in plant defense and as biostimulants in tomato, were detected in leachate extract. Indeed, foliar application of banana leachate induced overexpression of , , and genes, which are involved in phenylpropanoid metabolism, jasmonic acid biosynthesis, and salicylic acid metabolism, respectively. Leachate also activated root growth in tomato seedlings. However, the main impact of the leachate was observed on mature plants, where it caused a reduction in leaf area and fresh weight, the remodeling of stem cell wall glycopolymers, and an increase in the expression of proline dehydrogenase.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology12101326