V. V. Shinde scite author profile

V. V. Shinde

5Publications

9Citation Statements Received

18Citation Statements Given

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Indian Council of Agricultural Research

Publications

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Productivity and carbon sequestration potential of coconut-based cropping system as influenced by integrated nutrient management practices

Shinde

Maheswarappa

Ghavale

et al. 2020

JPC

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A field experiment was carried out at Regional Coconut Research Station, Bhatye (DBSKKV, Dapoli), Maharashtra (India) during 2013-2018 to study the productivity and carbon sequestration potential as influenced by integrated nutrient management (INM) practices in coconut based cropping system. INM practices viz., T1- 75 per cent of RDF+25 per cent of N through organic recycling with vermicompost, T2- 50 per cent of RDF+50 per cent of N through organic recycling with vermicompost + vermiwash application + bio-fertilizer application + in situ green manuring (cowpea), T3- fully organic: 100 per cent N through organic recycling with vermicompost + vermiwash application + bio-fertilizer application + in situ green manuring (cowpea) and green leaf manuring + composted coir pith, husk incorporation and mulching with coconut leaves were imposed in coconut based cropping system involving nutmeg, cinnamon, banana and pineapple. For comparison, T4- control: monocrop of coconut with recommended NPK and organic manure was maintained. Four treatments were laid out in a block of 0.45 ha area each. Among the different INM practices, treatment T1 sequestered the highest amount of above ground (coconut + nutmeg) carbon stock (31.1 t ha-1) followed by T2 (30.3 t ha-1) and T3 (27.3 t ha-1). In contrast, the treatment T4 - coconut monocrop alone had sequestered 25.6 t ha-1. The below-ground soil carbon stock in the rhizosphere of different crops was the highest in the nutrient management under T3 followed by T2 and T1, whereas, it was the lowest in coconut monocrop. The productivity of the system was higher in the intercropping garden. The coconut nut yield (5-year average) was higher yield under T1 (147.2 nuts palm-1 year-1), followed by T2 (138.4 nuts palm-1 year-1) and T3 (123.6 nuts palm-1 year-1), whereas, monocrop had recorded a significantly lower number of nuts (97.2 nuts palm-1 year-1).

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Carbon Sequestration and Productivity Potential of Coconut (Cocos nucifera L.) Hybrids and Varieties under Coastal Eco-System of Maharashtra

Ghavale¹,

Shinde²,

Wankhede³

et al. 2020

CJAST

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Field experiment was carried out at All India Coordinated Research Project on Palms, Regional Coconut Research Station, Bhatye (DBSKKV, Dapoli), Maharashtra, (India) during the period of 2004-2016 to assess the carbon sequestration and productivity potential of twelve coconut hybrids and three varieties which was laid out in a randomized block design with three replications. Results showed that the two hybrids viz, GBGD x ECT (127.6 nuts/palm/year) and COD x LCT (108.0 nuts/palm/year) are superior with respect to nut production followed by WCT x MYD (107.6 nuts), ECT x GBGD (106.9 nuts) and the standard variety ‘Pratap’. Furthermore, the coconut orchard substantially contributed towards improving the above and below ground carbon stock. The above ground standing biomass and carbon stock recorded was the highest in the variety East Coast Tall (312 kg/plant and 27.32 t/ha, respectively) followed by hybrid WCT x GBGD (308.69 kg/plant and 27.01 t/ha, respectively) and the lowest was in hybrid MYD x ECT (138.71 kg/plant and 12.14 t/ha, respectively). The highest soil carbon stock 39.12 t/ha and 37.16 t/ha at 0-30 and 31-60 cm depth was recorded in the rhizosphere of hybrid ECT x MYD and the lowest soil carbon stock (35.52 t/ha and 34.71 t/ha) was observed in hybrid PHOT x GBGD.

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Soil Fertility Properties, Leaf Nutrient Status and Yield Of Coconut and Intercrops as Influenced and Coconut Based Cropping System in Coastal Plain of Western India

2021

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An experiment was conducted during 2013 -2019 to study the impact of intergrated nutrient management through organic matter recycling (OMR) on the soil properties, leaf nutrient status and yield of coconut and its components crops at Regional Coconut Research Station (AICRP on Palms), Bhatye, Maharashtra, India. The experiment was laid out in 0.40 ha with four treatments namely T1, T2, T3 and T4. Results showed that, INM practices significantly improved the soil physico-chemical, biological properties and leaf nutrient status, whereas it was more prominent for the T1 treatment. The soil organic carbon content during post experimental period gradually increased in the organic recyclable treatment under cropping system (0.80 to 0.86%) compared to monocropping (0.60%). The recyclable biomass produced from the system varied between 9.0 - 18.0 t/ha/year and vermicompost produced was 4.8 to 10.2 t/ha/year by composting through earthworm. The nut yield (147.2 and 138.4 nuts/palm), copra output (25.75 and 23.06 kg/palm) and oil output (17.11 and 15.72 kg/palm) under treatment T1 and T2 were on par and differed significantly compared to monocrop. Bangladesh J. Bot. 50(4): 1067-1075, 2021 (December)

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Systems approach in coconut for higher productivity and profitability in coastal ecosystem of Maharashtra

Shinde¹,

Ghavale²,

Wankhede³

et al. 2021

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Assessment of economic potentiality and employment generation through integrated nutrient management in coconut-based cropping system

Shinde¹,

Ghavale²,

Wankhede³

et al. 2021

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V. V. Shinde

Productivity and carbon sequestration potential of coconut-based cropping system as influenced by integrated nutrient management practices

Carbon Sequestration and Productivity Potential of Coconut (Cocos nucifera L.) Hybrids and Varieties under Coastal Eco-System of Maharashtra

Soil Fertility Properties, Leaf Nutrient Status and Yield Of Coconut and Intercrops as Influenced and Coconut Based Cropping System in Coastal Plain of Western India

Systems approach in coconut for higher productivity and profitability in coastal ecosystem of Maharashtra

Assessment of economic potentiality and employment generation through integrated nutrient management in coconut-based cropping system

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