Botany - Research Publications

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Author: search.filters.author.Majeed, AasimSubject: search.filters.subject.Genetic diversity

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    Transcribing molecular and climatic data into conservation management for the Himalayan endangered species, Taxus contorta (Griff.)
    (Springer Science and Business Media B.V., 2020-11-12T00:00:00) Majeed, Aasim; Singh, Amandeep; Bhardwaj, Pankaj
    Owing to the changing climatic scenario globally, and human overexploitation, the risk of extinction of Himalayan endangered species has increased many folds. Taxus contorta, an endangered gymnosperm has reached a decisive state in the Western Himalayas, thus, demands immediate attention to rescue it. This study aims to elucidate population and landscape genetics of T. contorta to plan a successful conservation strategy. We used SSR genotyping to identify genetic diversity hotspots, and ecological niche modeling to reveal climatic hotspots of T. contorta in the Indian Western Himalayas. We observed a substantial genetic diversity, and a negligible level of inbreeding among T. contorta populations. A genetic bottleneck was observed in several populations. We propose that changing climate can cause a failure of an entire conservation management plan if the shift produces a degraded environment in the future, at the sites of conservation. Further, the conservation management is futile if it fails to enhance or conserve the genetic diversity. We propound that use of germplasm from genetic diversity hotspots for propagation in climatic hotspots, and prioritization of these hotspot patches for conservation would ensure greater genetic variability under a safe environment. This integrative approach of translating molecular and climatic data into conservation planning would save our efforts, time, and capital investment, and ensure greater success in managing the revival of T. contorta in the Western Himalayas. � 2020, Springer Nature B.V.
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    Transcribing molecular and climatic data into conservation management for the Himalayan endangered species, Taxus contorta (Griff.)
    (Springer Science and Business Media B.V., 2020-11-12T00:00:00) Majeed, Aasim; Singh, Amandeep; Bhardwaj, Pankaj
    Owing to the changing climatic scenario globally, and human overexploitation, the risk of extinction of Himalayan endangered species has increased many folds. Taxus contorta, an endangered gymnosperm has reached a decisive state in the Western Himalayas, thus, demands immediate attention to rescue it. This study aims to elucidate population and landscape genetics of T. contorta to plan a successful conservation strategy. We used SSR genotyping to identify genetic diversity hotspots, and ecological niche modeling to reveal climatic hotspots of T. contorta in the Indian Western Himalayas. We observed a substantial genetic diversity, and a negligible level of inbreeding among T. contorta populations. A genetic bottleneck was observed in several populations. We propose that changing climate can cause a failure of an entire conservation management plan if the shift produces a degraded environment in the future, at the sites of conservation. Further, the conservation management is futile if it fails to enhance or conserve the genetic diversity. We propound that use of germplasm from genetic diversity hotspots for propagation in climatic hotspots, and prioritization of these hotspot patches for conservation would ensure greater genetic variability under a safe environment. This integrative approach of translating molecular and climatic data into conservation planning would save our efforts, time, and capital investment, and ensure greater success in managing the revival of T. contorta in the Western Himalayas. � 2020, Springer Nature B.V.
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    Genetic diversity and population structure of Melia azedarach in North-Western Plains of India
    (Springer Verlag, 2016) Thakur, Sapna; Choudhary, Shruti; Singh, Amandeep; Ahmad, Kamal; Sharma, Gagan; Majeed, Aasim; Bhardwaj, Pankaj
    Key message: Genetic structure amongM. azedarachpopulations was detected and two subpopulations were present among them. A significant ?isolation by distance? was found inM. azedarachpopulation in North-Western Plains of India. Abstract: Melia azedarach is an important forest tree with pharmaceutical, insecticidal, pesticidal, and commercial significance. It is a good reforestation tree because of its fast growth and drought hardy nature. Genetic variation in a species allows itself to adapt, evolve and respond to environmental stress. It provides the basis for survival of a species and critically influences its evolutionary potential. Assessment of genetic diversity is necessary for improvement and conservation of a species. For this, microsatellite markers are of particular interest given the attributes like co-dominance, reproducibility, hyper variability and abundance throughout the genome. In the present study, we analyzed the genetic diversity and population structure of M. azedarach, an ecologically imperative species growing in the North-Western Plains of India. We developed 43 microsatellite markers, of which 20 were subsequently employed for analysis of diversity and population structure among 33 populations encompassing 318 genotypes representing North-Western Plains of India. A moderate level of diversity (Na?=?5.1, Ho?=?0.506, He?=?0.712, I?=?1.386) was assessed. The highest value of ?K estimated using STRUCTURE indicated 2 subpopulations (K?=?2). AMOVA exhibited 73?% variation within populations and 12?% variation was found among regions. Significant positive correlation between geographical and genetic distance was found (Rxy?=?0.365, P?=?0.010). The present study lays a foundation on a better understanding of genetic dynamics of the species and reveals its diversity and population structure in North-Western Plains of India. ? 2016, Springer-Verlag Berlin Heidelberg.