Debashish Pradhan scite author profile

Debashish Pradhan

4Publications

5Citation Statements Received

77Citation Statements Given

How they've been cited

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Affiliations

Central Institute of Freshwater Aquaculture, Siksha O Anusandhan University

Publications

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Evaluation of minor carps intercropping in carp polyculture vis‐à‐vis other grow‐out cropping patterns of carp farming

et al. 2019

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One year grow‐out evaluation of four cropping patterns of carps, viz. control: single stock single harvest (SSSH); T‐1:intercrop of minor carps and Indian major carps (IMC); T‐2:single stock multiple harvests (SSMH); and T‐3:multiple stock multiple harvests (MSMH) was conducted in eight earthen ponds (0.09 ha each). Ponds were stocked with three IMCs (catla, rohu and mrigal) at 1:1:1 ratio at 10,000 fingerlings/ha combined density. T‐1 was additionally stocked with 10,000 fingerlings/ha of minor carps (Puntius gonionotus, Labeo fimbriatus and Puntius sarana), while T‐2 with additional 10,000 fingerlings/ha of the IMC. Periodic removal of partial biomass ensured prevalence of better water quality in treatments (higher water pH, higher dissolved oxygen and reduced inorganic nutrients). It helped to improve fish growth as average harvested weight of rohu and mrigal remained similar in treatments despite the presence of greater inter‐ and intraspecific competitions in intercrop and SSMH, respectively, and periodic stocking of younger juveniles in MSMH. Catla showed significantly higher growth in MSMH. The biomass yield in intercrop, SSMH and MSMH were 21%, 17% and 24% higher than SSSH, but the respective net incomes were 32.9, 21.3 and 56.5% higher. Partial harvest also helped reducing FCR in the order T‐3

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Spider Monkey Optimization Technique For Damping Inter Area Oscillations Through Unified Design of PSS and TCSC

Choudhury

Rout

Satpathy

et al. 2018

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Brewer’s spent yeast replacement in carp diet leads to muscle biomass production, recycling, waste management and resource conservation

Pradhan

Mahanty

Mohanty

et al. 2022

Fish Physiol Biochem

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Brewer's-spent-yeast (BSY) is among the most voluminous byproducts generated in brewery industry that adds to the waste; however, smart utilization of BSY could lead to edible biomass production besides waste management. To utilize it for biomass production, it is being used in sh feeds; however, its effect on the sh physiology has been scantily studied. The present study investigated the proteomic changes in muscle tissues of carp Labeo rohita fed with BSY-based diet, to understand its impact on muscle physiology and biomass. Six feeds were prepared with different grades of BSY (0, 20, 30, 40, 50, 100% replacement of shmeal with BSY) and shes were fed for 90 days.Highest weight gain%, feed conversion e ciency, speci c growth rate% were observed in 30% BSY-replaced group and this group was considered for the proteomic study. Comparative shotgun proteomic analysis was carried out by LC-MS/MS and data generated have been deposited in ProteomeXchange Consortium with dataset identi er PXD020093. A total of 62 proteins showed differential abundance; 29 increased and 33 decreased in the 30%BSY replaced group. Pathway analysis using IPA and Panther tools revealed that the proteins tyrosine protein kinase, PDGFα, PKRCB and Collagen promote muscle growth by inducing the PI3K-AKT pathway. Conversely, the proteins Serine/threonine-protein phosphatase, Phosphatidylinositol 3,4,5-trisphosphate5-phosphatase 2A, Ras-speci c guanine-nucleotide-releasing factor inhibit muscle growth indicating that 30% BSY replaced feed promote muscle growth in a highly controlled manner. Findings suggest that BSY could be recycled for carp feed production in largescale thereby leading to resource conservation, reducing environmental effects.

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Brewer’s spent yeast replacement in carp diet leads to muscle biomass production, recycling, waste management and resource conservation

Pradhan

Mahanty

Mohanty

et al. 2022

Preprint

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Brewer’s-spent-yeast (BSY) is among the most voluminous byproducts generated in brewery industry that adds to the waste; however, smart utilization of BSY could lead to edible biomass production besides waste management. To utilize it for biomass production, it is being used in fish feeds; however, its effect on the fish physiology has been scantily studied. The present study investigated the proteomic changes in muscle tissues of carp Labeo rohita fed with BSY-based diet, to understand its impact on muscle physiology and biomass. Six feeds were prepared with different grades of BSY (0, 20, 30, 40, 50, 100% replacement of fishmeal with BSY) and fishes were fed for 90 days. Highest weight gain%, feed conversion efficiency, specific growth rate% were observed in 30% BSY-replaced group and this group was considered for the proteomic study. Comparative shotgun proteomic analysis was carried out by LC-MS/MS and data generated have been deposited in ProteomeXchange Consortium with dataset identifier PXD020093. A total of 62 proteins showed differential abundance; 29 increased and 33 decreased in the 30%BSY replaced group. Pathway analysis using IPA and Panther tools revealed that the proteins tyrosine protein kinase, PDGFα, PKRCB and Collagen promote muscle growth by inducing the PI3K-AKT pathway. Conversely, the proteins Serine/threonine-protein phosphatase, Phosphatidylinositol 3,4,5-trisphosphate5-phosphatase 2A, Ras-specific guanine- nucleotide-releasing factor inhibit muscle growth indicating that 30% BSY replaced feed promote muscle growth in a highly controlled manner. Findings suggest that BSY could be recycled for carp feed production in large-scale thereby leading to resource conservation, reducing environmental effects.

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