6 results on '"K. Subashree"'
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2. Role of Major Forest Biomes in Climate Change Mitigation: An Eco-Biological Perspective
- Author
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Somaiah Sundarapandian, Ming Xu, Najeeb Ahmad Bhat, Purabi Saikia, Mohammed Latif Khan, K. Subashree, Amit Kumar, Ashwani Kumar, P. K. Khare, and Javid Ahmad Dar
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Habitat fragmentation ,Climate change mitigation ,Geography ,business.industry ,Effects of global warming ,Deforestation ,Environmental resource management ,Forest management ,Climate change ,Ecosystem ,business ,Ecosystem services - Abstract
The rapid alteration in the global climate due to anthropogenic activities has profound eco-biological impacts, which invariably affect the ability of natural communities to effectively perform ecosystem services. The eco-biological impacts could be viewed across various dimensions including loss of biodiversity as well as ecosystem goods and services, changes in phenology, prevalence of droughts and forest fires, disease outbreaks, reduced crop yields and increase in intensity and frequency of extreme weather events. Although, the natural ecosystems are innately endowed with the ability to maintain homeostasis by means of resistance and resilience, this ability to cope up is severely impacted by various other factors like deforestation, habitat fragmentation, land-use change and biological invasion, which exacerbate the effects of climate change. The eco-biological impacts of climate change are tied with socio-economic aspects by means of market values of the produce, poverty, undernourishment, livelihood security, etc. At this crucial juncture, forest biomes offer an immense ecosystem service towards climate change mitigation through carbon sequestration. Nevertheless, the three major forest biomes, viz. tropical, temperate and boreal, with their unique characteristics, vary in their response to climate change as well as mitigation potential and response. This review chapter aims to understand the varied climate change impacts and the crucial roles of major forest biomes in climate change mitigation and their various ecological services to formulate better forest management strategies.
- Published
- 2020
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3. Variation in soil organic carbon stock with forest type in tropical forests of Kanyakumari Wildlife Sanctuary, Western Ghats, India
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K. Subashree, Somaiah Sundarapandian, and Javid Ahmad Dar
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Carbon Sequestration ,010504 meteorology & atmospheric sciences ,Climate Change ,India ,Forests ,010501 environmental sciences ,Management, Monitoring, Policy and Law ,01 natural sciences ,Carbon Cycle ,Soil ,Ecosystem ,0105 earth and related environmental sciences ,General Environmental Science ,Tropics ,Forestry ,General Medicine ,Soil carbon ,Pollution ,Bulk density ,Evergreen forest ,Carbon ,Deciduous ,Soil water ,Terrestrial ecosystem ,Environmental Monitoring - Abstract
Sequestration of atmospheric carbon-dioxide in biospheric carbon (C) pools is a key strategy towards climate change mitigation. Soil is a huge C reservoir and its storage potential varies greatly with forest types. Therefore, in the present study, the soil organic carbon (SOC) storage pattern was assessed from 70 plots laid at three selected forest types comprising seven study sites at Kanyakumari Wildlife Sanctuary, Western Ghats, India: tropical dry deciduous (TDD I and TDD II), tropical semi-evergreen (TSE I and TSE II) and tropical evergreen forest (TEF I, TEF II and TEF III) at three depths (0-10, 10.1-20 and 20.1-30 cm). Statistical analyses were performed to understand the relationships between SOC stocks with other predictor variables. The SOC stock varied markedly with forest type and site-wise. The SOC ranged from 58 (TEF III) to 123.6 (TDD I) Mg C/ha with a mean of 84.9 ± 4.4 Mg C/ha at 0-30 cm depth. SOC stock decreased, while soil bulk density increased with increase in soil depth. The TDD forest type (115.6 Mg C/ha) stocked the highest SOC compared to TEF (75.1 Mg C/ha) and TSE (68.9 Mg C/ha) forest types. Of the total SOC stock (0-30 cm), 44.2, 32.0 and 23.8% were stored in 0-10, 10.1-20 and 20.1-30 cm respectively in all the forest types. In contrast, litter C stock were high in TEF and TSE forest types and low in TDD forest type. SOC showed significant (P < 0.01) negative relationships with bulk density, litter C, and vegetation attributes. The SOC stock stored in the study sites amount to 212.9 (TEF III) to 453.6 (TDD I) Mg of CO2 equivalents. The present study reveals that forest type and site characteristics have a profound impact on SOC stock, which would, in turn, exert a great bearing on the ecosystem C cycling. These results would also enhance our ability to evaluate the role of these forest types in soil C sequestration and for developing and validating SOC models for tropical forest ecosystems.
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- 2019
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4. Tree diversity, biomass and carbon storage in sacred groves of Central India
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P. K. Khare, Debojyoti Raha, Javid Ahmad Dar, Mohammed Latif Khan, Ashwani Kumar, and K. Subashree
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Carbon Sequestration ,Health, Toxicology and Mutagenesis ,Biodiversity ,India ,010501 environmental sciences ,Biology ,Forests ,01 natural sciences ,Basal area ,Ecosystem services ,Tree diversity ,Trees ,Soil ,Environmental Chemistry ,Dominance (ecology) ,Biomass ,Ecosystem ,0105 earth and related environmental sciences ,Forestry ,General Medicine ,Soil carbon ,Pollution ,Carbon ,Carbon storage ,Species evenness ,Environmental Monitoring - Abstract
Sacred groves are small or large patches of forest and are rich in biodiversity, store carbon (C) in biomass and soil, besides providing important ecosystem services. However, the information on tree species diversity, biomass, and C storage in sacred groves of Central India, Madhya Pradesh is elusive and fragmented. In the present study, 41 sacred groves were inventoried for tree species diversity, biomass, and C storage in vegetation and soil. A total of 103 tree species from 81 genera belonging to 37 families were recorded. Shannon’s diversity, Dominance, Fisher’s alpha, and species evenness indices for trees varied: 0.77–2.53, 0.07–0.64, 1.58–20.37, and 0.28–0.90 respectively. Tree density ranged 75–675 no. of stems ha−1 with a mean of 271 no. of stems ha−1, while basal area ranged 6.8–47 m2 ha−1 with a mean value of 27 m2 ha−1. Tree biomass ranged 34.9–409.8 Mg ha−1 with a mean value of 194.01 Mg ha−1, while, tree C ranged between 17.5 and 204.9 Mg C ha−1 with a mean value of 97.0 Mg C ha−1. The total soil organic carbon stock (0–30 cm) ranged from 22.4 to 112.5 Mg C ha−1 with the mean value of 62 Mg C ha−1. Biomass C and SOC contributed 61% and 39% of the total C stocks, respectively. Tree C stock showed a significant positive relationship with tree basal area (R2 = 0.968). A total of five tree species belonging to four families were found to be vulnerable in Central India. The present study reveals that the sacred groves of Central India are species rich, have higher C stocks and sequestration potential in both vegetation and soil, and calls for an immediate attention for conservation and planning for long-term C sequestration.
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- 2019
5. Invasive Species and Their Impact on Tropical Forests of Central India: A Review
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P. K. Khare, Somaiah Sundarapandian, Javid Ahmad Dar, Mohammed Latif Khan, K. Subashree, Selvadurai Dayanandan, Amit Kumar, and Purabi Saikia
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Deciduous ,Geography ,Habitat ,Ecology ,Biodiversity ,Climate change ,Ecosystem ,Invasive species ,Floristics ,Biodiversity hotspot - Abstract
Tropical forests are the richest biodiversity hotspots and are under immense natural and anthropogenic pressures that lead to biodiversity loss. One such cause is alien plant invasion that alters the native forest stand structure and composition and disrupts the vital ecosystem functions. Central India, which mainly spans across the three states, viz. Madhya Pradesh, Chhattisgarh and some parts of Maharashtra, is well-known for its sprawling tropical deciduous forests, which are also no less immune to the present-day pressures, including the plant invasion. Alien invasive plants arrive via several pathways and possess unique traits that help them to surpass the barriers in the new habitats, where many influential factors might operate upon them. Once established, they may profoundly impact the invaded ecosystem. Most of the studies from Central India have been focused on floristics, forest structure, impact of disturbances, etc., and relatively few studies have addressed plant invasion. Overall, there are 179 invasive taxa in Central India, mostly from the Asteraceae (17.3%) and Fabaceae (14.5%) families. Majority of them are from Tropical America (52%), and most are herbs (69%). An outline of the most common top ten Central Indian invaders has been presented. Climate change might influence invasive plants, and constant monitoring and modelling is required to understand invasive species dynamics for effective management. Invasive alien species are to be tended with extreme caution and smart and novel approaches of putting them to use might help in better management for controlling them. This review will also provide a conceptual basis for improving our general understanding on invasive species and their impact on tropical forest ecosystems.
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- 2019
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6. Biological Invasion of Vines, Their Impacts and Management
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Sm. Sundarapandian, Chellam Muthumperumal, and K. Subashree
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Geography ,Hedera helix ,biology ,Global distribution ,Ecology ,Lantana camara ,Biodiversity ,Ecosystem ,Integrated approach ,biology.organism_classification ,Mikania micrantha ,Invasive species - Abstract
Invasive species, from their natives enter into new areas where they establish, proliferate, spread and affect the natural communities. They alter the local biodiversity, cause changes in hydrology and ecosystem functions. In this chapter, we review the global distribution of invasive vines, their impacts, widely-used control measures and future prospects. According to Global Invasive Species Database (2013) and other sources, a total of 55 vines are considered as world’s worst invasive species. Approximately 29 % of the vines have drifted from Asia to North America, South America, Europe, Oceania and Africa. However, only 6 % of invasive vines have invaded from North America to Asia and Oceania. Approximately, 21 %, 19 % and 17 % of the invasive vines have spread to Europe, Asia and South America respectively. A concise account on world’s top ten invasive climbers is provided in this chapter. A detailed review on the ecology of two prominent invasive vines in India viz. Mikania micrantha and Lantana camara are also included. Different control measures viz. physical, chemical, biological and cultural methods are in practice to contain the vigorous growth of several invasive vines. However, an integrated approach has been proven to be most successful. Though invasive vines are noxious and notorious to the environment, they also have some ecological and economic benefits as ornamentals, edibles, medicinal plants etc. Considering their impacts on environment on one side and the economic values on the other side, wiser management of these species is emphasized.
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- 2015
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