TY - JOUR AU - Akbar, K. F. PY - 2017 TI - POTENTIAL IMPACTS OF CLIMATE CHANGE ON PLANT DIVERSITY OF HILLY AREAS OF AZAD KASHMIR AND THEIR MITIGATION: A REVIEW JF - Journal of Mountain Area Research; Vol 2 (2017) DO - 10.53874/jmar.v2i0.24 KW - Azad Kashmir, floral diversity, climate change, conservation N2 - Azad Kashmir has variety of mountain ecosystems which are rich in floral and faunal diversity. These ecosystems are fragile and are under stress due to various natural and anthropogenic pressures. Mountain ecosystems of Azad Kashmir are more vulnerable to global warming and are expected to show its impacts rapidly. Climate change may cause major changes in distribution ranges of different vegetation types. As a result of climate change, the area of three vegetation groups (alpine, grassland/arid woodlands and deserts) is expected to decrease and the areas of five types (cold conifer/mixed woodland, cold conifer/mixed forests, temperate conifer/mixed forests, warm conifer/mixed forests, and steppe/arid shrub lands) are expected to increase. Climate change is going to affect conservation of plant species and ecosystems by causing direct loss of plant species and intensify the effects of existing threats such as habitat degradation, deforestation and over-harvesting of plants by local communities, pollution and invasive species. These stresses, acting individually and collectively on species, communities and ecosystems, are depleting and will continue to deplete biodiversity. The negative impacts of climate change are multi-dimensional and wide-ranging. Their mitigation requires an integrated and coordinated policy response for conservation of plant resources. These measures include a regular monitoring and observation system, restoration of degraded habitats and forests, identifying new solutions involving cross-sectoral linkages to conserve biological diversity of Azad Kashmir by supporting the intricate and complex responses of species and ecosystems to climate change. UR - https://journal.kiu.edu.pk/index.php/JMAR/article/view/24