P. M. Jacob’s research while affiliated with Central Plantation Crops Research Institute and other places

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Publications (1)


Component plot in rotated space for the 17 variables analyzed by PCA for the three Lakshadweep Islands indicating key factors influencing the high coconut yield. The soil organic carbon %, potassium, and organic carbon added via the palm litter and AM spore load scoring > ± 0.95 in PC1, whereas, available K in the soil, bacteria and actinomycetes, phosphate solubilizers and fluorescent pseudomonads scored above > ± 0.95 in PC2
Autochthonous nutrient recycling driven by soil microbiota could be sustaining high coconut productivity in Lakshadweep Islands sans external fertilizer application
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September 2022

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185 Reads

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5 Citations

World Journal of Microbiology and Biotechnology

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P. M. Jacob

The soils of Lakshadweep Islands are formed as a result of the fragmentation of coral limestone, that is carbonate-rich, with neutral pH, but poor in plant nutrients. Coconut palm (Cocos nucifera L.) is the main crop cultivated, supporting the life and livelihood of the islanders. No external fertilizer application or major plant protection measures are adopted for their cultivation as the Islands were declared to go organic decades back. Yet, Lakshadweep has one of the highest productivity of coconut compared with other coconut growing areas in India. Therefore, a question arises: how is such a high coconut productivity sustained? We try to answer by estimating in three main islands (i) the nutrients added to the soil via the litter generated by coconut palms and (ii) the role of soil microbiota, including arbuscular mycorrhizae, for the high productivity. Our results indicated that, besides adding a substantial quantum of organic carbon, twice the needed amount of nitrogen, extra 20% phosphorus to the already P-rich soils, 43–45% of potassium required by palms could be easily met by the total coconut biomass residues returned to the soil. Principal Component Analysis showed that soil organic carbon %, potassium, and organic carbon added via the palm litter and AM spore load scored >± 0.95 in PC1, whereas, available K in the soil, bacteria, actinomycetes, phosphate solubilizers and fluorescent pseudomonads scored above >± 0.95 in PC2. Based on our analysis, we suggest that the autochthonous nutrients added via the coconut biomass residues, recycled by the soil microbial communities, could be one of the main reasons for sustaining a high productivity of the coconut palms in Lakshadweep Islands, in the absence of any external fertilizer application, mimicking a semi-closed-loop forest ecosystem.

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Citations (1)


... Many studies have already revealed the natural occurrence of AMF in palm fields and the occurrence of mycorrhizal structures inside the palm roots (Rai et al., 2019;Chebaane et al., 2020;Gómez et al., 2020;Ritaqwin et al., 2021;Maia et al., 2021). However, most such field and experimental studies on AMF in palms are carried out in the date palm, whereas such studies on AMF in coconuts are meager (Thomas and Ghai, 1987;Ambili et al., 2012;Rajeshkumar et al., 2015;Lara-Pérez et al., 2020;Gopal et al., 2022). ...

Reference:

Ecology of Arbuscular Mycorrhizal Association in Coconut (Cocos nucifera L.) Palms: Analysis of Factors Influencing AMF in Fields.
Autochthonous nutrient recycling driven by soil microbiota could be sustaining high coconut productivity in Lakshadweep Islands sans external fertilizer application

World Journal of Microbiology and Biotechnology