Chitti Bharatkumar scite author profile

Chitti Bharatkumar

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11Citation Statements Given

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Genetic Inheritance of Anthocyanin Pigmentation in Rice (Oryza sativa L.)

Manoj

Surendra

Bharatkumar³

et al. 2023

IJECC

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Rice is an important cereal crop that belongs to the grass family Poaceae. A unique feature of purple-coloured anthocyanin pigmentation is possessed by some of the rice varieties and the accumulation of anthocyanin in plants offers resistance to UV radiation and brings out responses to various biotic and abiotic stresses. Knowledge of the inheritance of pigmentation will aid breeders in developing appropriate selection strategies to improve the trait under consideration. In order to study the inheritance of anthocyanin pigmentation, an experiment involving the F1 and segregated F2 populations obtained by crossing the two Oryza sativa subsp. indica varieties, viz., BPT-5204 (non-pigmented) and HY-256 Purple (pigmented), was conducted during three consecutive growing seasons at AICRIP, ARS (Paddy), Sirsi. Hybridization between the female parent, BPT-5204 and male parent, HY-256 Purple, was done during summer 2021 and the seeds obtained from hybridization constituted the F1 generation and were sown during kharif 2021. The same were subjected to selfing to obtain seeds to generate the F2 population, which were evaluated along with the parents and F1 plants during summer 2022. Observations on the presence or absence of anthocyanin pigmentation for different morphological traits, viz., leaf blade, leaf tip, leaf margin, midrib, juncture and junctura back, were recorded in the parents, F1’s and F2 populations in such a way that the presence of pigmentation was recorded as purple, while its absence was recorded as non-pigmented or green. Purple-coloured anthocyanin pigmentation was absent in all the characters in the F1 plant. Similarly, varied segregation for pigmentation was observed and documented in 1276 plants that constituted the F2 generation. The data was analyzed for colour pigmentation to determine the fitness with diverse segregation ratios and to determine the mode of inheritance by chi-square test, which revealed the involvement of two to three genes with different gene interactions.

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Induced chlorophyll and morphological mutations in Bambara Groundnut (Vigna subterranea (L.) Verdc.)

Bharatkumar¹,

Nandini²,

Mannikeri³

et al. 2022

EEC

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The present study was conducted at K-block, University of Agricultural Sciences, Bengaluru. Theexperimental material for the present investigation consists of two varieties of Bambara groundnut havinggood agronomic base belonging to different accessions viz., SB-42 (light brown, round shape and whitehilum) and S165A (dark brownish, dark spotted surface and oval shape). Five different concentrations ofEMS 0.1, 0.2, 0.3, 0.4 and 0.5 per cent were used to treat the seeds. After the treatment, the seeds were sownin the field along with control (untreated seeds) to raise M1 generation. The M2 generation was raisedduring 2014 summer season by pooling all the seeds of M1 plants on plant to row basis along with controlplants. In both the varieties of Bambara groundnut, the mutagenic effectiveness and efficiency of mutagenictreatments varied not only between the two varieties but also between the treatments. A concentration of0.3 per cent EMS was more effective than the other concentrations of EMS. Hence 0.3 per cent EMS has beenregarded as LD50 for inducing useful mutations.

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Inheritance of Resistance to Yellow Mosaic Virus Disease on Bambara Groundnut

Bharatkumar¹,

Nandini²,

Chandra³

et al. 2020

Int.J.Curr.Microbiol.App.Sci

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Association of Physiological Parameters with Yield in Double and Single Cross Derivatives of Upland Cotton Gossypium hirsutum L.

Bharatkumar¹,

Patil²,

Pawar³

et al. 2012

MAJ

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Correlation and path analysis were studied in sixty two single cross, forty two double cross and seven three-way cross derivatives in F4/F5 generation of upland cotton G. hirsutum L. lines generated from crossing among selected hybrids of the All India Coordinated Cotton Improvement Project. Five physiological characters and yield contributing traits were studied at the Agricultural Research Station, Dharwad. Correlation among physiological traits viz. photosynthetic rate, stomatal conductance, transpiration rate, chlorophyll content and relative water content revealed significant correlation with seed cotton yield. Path analysis among physiological characters showed that the traits photosynthesis rate, stomatal conductance and chlorophyll content revealed high positive direct effect on seed cotton yield whereas, transpiration rate and relative water content revealed direct negative effect on seed cotton yield.

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