Abstract
During the past few decades, our understanding of the potential risks from climate change to mountain ecosystem has increased. The Hindu Kush Himalayas (HKH) is characterised by diverse climate due to diversity in geology, monsoon influence and ecosystems. Though paucity in studies, it was observed that the HKH ecosystems witnessed changes in climate over the period with evidence of change in phenology and species range shift altering ecosystem functions. During 1901–2014, annual mean surface air temperature significantly increased in the HKH at a rate of about 0.11 °C per decade showing significant upward trend. The intense precipitation also showed increasing trend in annual intense precipitation amount, days and intensity with 5.28 mm per decade, 0.14 day per decade and 0.39 mm/day per decade respectively. The elevation dependent warming has also been prominent in the HKH with higher warming with the increasing elevation. Higher warming is projected during winter and the projected warming differs by more than 1 °C between the eastern and western HKH, with relatively higher values during winter. The highest warming is projected to be over the central Himalaya for the far-future period with the RCP8.5 scenario. The projections made by the study for the near-future and far-future periods for HKH are relatively higher than the seasonal global means. These changes have indicated that rapidly changing climatic conditions could significantly thwart efforts for ecosystem resilience at a national and regional scales. There have been a wide range of interpretation from observed and people’s perceptions impacting on a wide range of ecosystems and biodiversity at different scales.. However, there is still a major gap in understanding the cross-linkages among areas of research, for example, linking social-ecological knowledge on resilience contributing to evolutionary adaptation. Although numerous important contributions have emerged in recent years, synthesis of such practices and its consequences has not yet been achieved. This chapter is an attempt to relate the climate change science with ecosystem resilience in the HKH, identify gaps, and understand the social-ecological interaction and contribute towards social-ecological resilience.
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References
Aryal K, Poudel S, Chaudhary RP et al (2017) Conservation and management practices of local crop genetic diversity by the farmers: a case from Kailash Sacred Landscape. Nepal J Agric Environ 18:15–28
Aukema JE, Pricope NG, Husak GJ et al (2017) Biodiversity areas under threat: overlap of climate change and population pressures on the world’s biodiversity priorities. PLoS One 12(1):e0170615. https://doi.org/10.1371/journal.pone.0170615
Bajracharya AR, Bajracharya SR, Shrestha AB, Maharjan SB (2018) Climate change impact assessment on the hydrological regime of the Kaligandaki Basin, Nepal. Sci Total Environ 625:837–848. https://doi.org/10.1016/j.scitotenv.2017.12.332
Baker BB, Moseley RK (2007) Advancing treeline and retreating glaciers: implications for conservation in Yunnan, PR China. Arct Antarct Alp Res 39(2):200–209
Barnett TP, Adam JC, Lettenmaier DP (2005) Potential impacts of a warming climate on water availability in snow-dominated regions. Nature 438(7066):303–309
Beckage B, Osborne B, Gavin DG et al (2008) A rapid upward shift of a forest ecotone during 40 years of warming in the Green Mountains of Vermont. PNAS 105(11):4197–4202
Beniston M (2003) Climatic change in mountain regions: a review of possible impacts. In: Diaz et al (eds) Climate variability and change in high elevation regions: past, present and future. Springer, Dordrecht, pp 5–13
Beniston M, Diaz HF, Bradley RS (1997) Climatic change at high elevation sites: an overview. Clim Chang 36(3–4):233–251
Bhagawati R, Bhagawati K, Jini D et al (2017) Review on climate change and its impact on agriculture of Arunachal Pradesh in the Northeastern Himalayan region of India. Nat Environ Pollut Tech 16(2):535–539
Bharali S, Khan ML (2011) Climate change and its impact on biodiversity; some management options for mitigation in Arunachal Pradesh. Curr Sci 101(7):855–860
Bookhagen B, Burbank DW (2010) Toward a complete Himalayan hydrological budget: spatiotemporal distribution of snowmelt and rainfall and their impact on river discharge. J Geophys Res 115:F3. https://doi.org/10.1029/2009JF001426
Brandt JS, Haynes MA, Kuemmerle T et al (2013) Regime shift on the roof of the world: alpine meadows converting to shrublands in the southern Himalayas. Biol Conserv 158:116–127
Brandt JS, Allendorf A, Radeloff V, Brooks J (2017) Effects of national forest-management regimes on unprotected forests of the Himalaya. Conserv Biol 31(6):1271–1282
Brooks TM, Mittermeier RA, da Fonseca GA et al (2006) Global biodiversity conservation priorities. Science 313(5783):58–61
Burbank DW, Blythe AE, Putkonen J et al (2003) Decoupling of erosion and precipitation in the Himalayas. Nature 426(6967):652–655
Cánovas JB, Trappmann D, Shekhar M et al (2017) Regional flood-frequency reconstruction for Kullu district, Western Indian Himalayas. J Hydrol 546:140–149
Ceballos G, Ehrlich PR, Dirzo R (2017) Biological annihilation via the ongoing sixth mass extinction signaled by vertebrate population losses and declines. Proc Natl Acad Sci U S A 114(30):E6089–E6096
Chakraborty A, Saha S, Sachdeva K, Joshi PK (2018) Vulnerability of forests in the Himalayan region to climate change impacts and anthropogenic disturbances: a systematic review. Reg Environ Chang 18(6):1783–1799
Chaudhary P, Rai S, Wangdi S et al (2011) Consistency of local perceptions of climate change in the Kangchenjunga Himalaya landscape. Curr Sci 101(4):504–513
Chaudhary S, Chettri N, Uddin K et al (2016) Implications of land cover change on ecosystem services and people’s dependency. A case study from the Koshi Tappu Wildlife Reserve, Nepal. Ecol Complex 28:200–211
Chaudhary S, Tshering D, Phuntsho T, Uddin K, Shakya B, Chettri N (2017) Implications of land cover change on mountain ecosystem services: a case study of the Phobjikha valley of Bhutan. Ecosyst Health Sustain 3:1–12
Chaudhary S, MacGregor K, Houston D et al (2018) Environmental justice and ecosystem services: a disaggregated analysis of community access to forest benefits in Nepal. Ecosyst Serv 20:99–115
Chettri N, Sharma E (2016) Reconciling the mountain biodiversity conservation and human wellbeing: drivers of biodiversity loss and new approaches in the Hindu-Kush Himalayas. Proc Indian Natl Sci Acad 82:53–73
Chettri N, Shakya B, Thapa R et al (2008) Status of protected area system in the Hindu Kush Himalaya: an analysis of PA coverage. Int J Biodivers Sci Manag 4(3):164–178
Chettri N, Sharma E, Shakya B et al (2010) Biodiversity in the Eastern Himalayas: status, trends and vulnerability to climate change, Climate change impact and vulnerability in the Eastern Himalayas – technical report 2. ICIMOD, Kathmandu
Chettri N et al (2012) Real world protection for the third pole and its people. In: Huettmann F (ed) Protection of polar regions. Springer, pp 113–133
Chettri N, Uddin K, Chaudhary S et al (2013) Linking spatio-temporal land cover change to biodiversity conservation in Koshi Tappu Wildlife Reserve, Nepal. Diversity 5:335–351
Cumming GS, Peterson GD (2017) Unifying research on social–ecological resilience and collapse. Trends Ecol Evol 32(9):695–713
De Groot RS, Alkemade R, Braat L et al (2010) Challenges in integrating the concept of ecosystem services and values in landscape planning, management and decision making. Ecol Complex 7(3):260–272
Duan AM, Xiao ZX (2015) Does the climate warming hiatus exist over the Tibetan Plateau? Sci Rep 5:13711
Dullinger S, Gattringer A, Thuiller W et al (2012) Extinction debt of high-mountain plants under twenty-first-century climate change. Nat Clim Chang 2(8):619–622
Eriksson M, Xu J, Shrestha AB et al (2009) The changing Himalayas: impact of climate change on water resources and livelihoods in the greater Himalayas. ICIMOD, Kathmandu
Fan X, Wang Q, Wang M et al (2015) Warming amplification of minimum and maximum temperatures over high-elevation regions across the globe. PLoS One 10(10). https://doi.org/10.1371/journal.pone.0140213
Forrest JL, Wikramanayake E, Shrestha R et al (2012) Conservation and climate change: assessing the vulnerability of snow leopard habitat to treeline shift in the Himalaya. Biol Conserv 150(1):129–135
Forsythe N, Fowler HJ, Li XF et al (2017) Karakoram temperature and glacial melt driven by regional atmospheric circulation variability. Nat Clim Chang 7:664–670
Gaire NP, Koirala M, Bhuju DR et al (2017) Site-and species-specific treeline responses to climatic variability in eastern Nepal Himalaya. Dendrochronologia 41:44–56
Gardner JS, Dekens J (2007) Mountain hazards and the resilience of social–ecological systems: lessons learned in India and Canada. Nat Hazards 41(2):317–336
Gerlitz JY, Banerjee S, Brooks N et al (2015) An approach to measure vulnerability and adaptation to climate change in the Hindu Kush Himalayas. In: Handbook of climate change adaptation. Springer, Berlin/Heidelberg, pp 151–176
Gosain BG, Negi GCS, Dhyani PP et al (2015) Ecosystem services of forests: Carbon Stock in vegetation and soil components in a watershed of Kumaun Himalaya, India. Int J Ecol Environ Sci 41(3–4):177–188
Grêt-Regamey A, Walz A, Bebi P (2008) Valuing ecosystem services for sustainable landscape planning in alpine regions. Mt Res Dev 28(2):156–165
Grêt-Regamey A, Brunner SH, Kienast F (2012) Mountain ecosystem services: who cares? Mt Res Dev 32(S1):S23–S34
Guo D, Yu E, Wang H (2016) Will the Tibetan Plateau warming depend on elevation in the future? J Geophys Res Atmos 121:3969–3978
Hansen MC, Potapov PV, Moore R et al (2013) High-resolution global maps of 21st-century forest cover change. Science 342(6160):850–853
Hoy A, Katel O, Thapa P et al (2016) Climatic changes and their impact on socio-economic sectors in the Bhutan Himalayas: an implementation strategy. Reg Environ Chang 16(5):1401–1415
Hudson AM, Olsen JW, Quade J et al (2016) A regional record of expanded Holocene wetlands and prehistoric human occupation from paleowetland deposits of the western Yarlung Tsangpo valley, southern Tibetan Plateau. Quat Res 86(1):13–33
ICIMOD, BCN (2017) A multi-dimensional assessment of ecosystems and ecosystem services at Udayapur, Nepal. ICIMOD Working Paper 2017/20. ICIMOD, Kathmandu
ICIMOD; MoFSC (2014) An integrated assessment of the effects of natural and human disturbances on a wetland ecosystem: a retrospective from the Koshi Tappu Wildlife Reserve, Nepal. ICIMOD, Kathmandu
ICIMOD, MoNREC (2017) A multi-dimensional assessment of ecosystems and ecosystem services at Inle Lake, Myanmar. ICIMOD Working Paper 2017/17. ICIMOD, Kathmandu
ICIMOD; RSPN (2014) An integrated assessment of the effects of natural and human disturbances on a wetland ecosystem: a retrospective from Phobjikha Conservation Area, Bhutan. ICIMOD, Kathmandu
ICIMOD, RSPN (2017) A multi-dimensional assessment of ecosystems and ecosystem services in Barshong, Bhutan. ICIMOD Working Paper 2017/6. ICIMOD, Kathmandu
Iizumi T, Sakuma H, Yokozawa M et al (2013) Prediction of seasonal climate-induced variations in global food production. Nat Clim Chang 3(10):904–908
Immerzeel WW, Wanders N, Lutz AF et al (2015) Reconciling high-altitude precipitation in the upper Indus basin with glacier mass balances and runoff. Hydrol Earth Syst Sci 19(11):4673–4687
IPCC (2007) Climate change. The physical sciences basis. Summary for policymakers (summary for policymakers). Intergovernmental Panel on Climate Change (IPCC), p 21
Joshi V, Kumar K (2006) Extreme rainfall events and associated natural hazards in Alaknanda valley, Indian Himalayan region. J Mt Sci 3(3):228–236
Joshi PK, Rawat A, Narula S, Sinha V (2012) Assessing impact of climate change on forest cover type shifts in Western Himalayan Eco-region. J For Res 23(1):75–80
Kandel P, Tshering D, Uddin K et al (2018) Understanding social–ecological interdependencies through ecosystem services value perspectives in Bhutan, Eastern Himalaya. Ecosphere 9(2). https://doi.org/10.1002/ecs2.2121
Keller F, Goyette S, Beniston M (2005) Sensitivity analysis of snow cover to climate change scenarios and their impact on plant habitats in alpine terrain. Clim Chang 72(3):299–319
Kohler T, Giger M, Hurni H et al (2010) Mountains and climate change: a global concern. Mt Res Dev 30(1):53–55
Krusic PJ, Cook ER, Dukpa D et al (2015) Six hundred thirty-eight years of summer temperature variability over the Bhutanese Himalaya. Geophys Res Lett 42(8):2988–2994
Kulkarni A, Patwardhan S, Kumar KK et al (2013) Projected climate change in the Hindu Kush–Himalayan region by using the high-resolution regional climate model PRECIS. Mt Res Dev 33(2):142–151
Kumar KK, Patwardhan SK, Kulkarni A et al (2011) Simulated projections for summer monsoon climate over India by a high-resolution regional climate model (PRECIS). Curr Sci 101:312–326
Lamsal P, Kumar L, Atreya K (2017a) Historical evidence of climatic variability and changes, and its effect on high-altitude regions: insights from Rara and Langtang, Nepal. Int J Sust Dev World Ecol 24(6):471–484
Lamsal P, Kumar L, Atreya K et al (2017b) The greening of the Himalayas and Tibetan Plateau under climate change. Glob Planet Chang 159:77–92
Lamsal P, Kumar L, Atreya K et al (2017c) Vulnerability and impacts of climate change on forest and freshwater wetland ecosystems in Nepal: a review. Ambio 46(8):915–930
Liu X, Chen B (2000) Climatic warming in the Tibetan Plateau during recent decades. Int J Climatol 20:1729–1742
Liu XD, Cheng ZG, Yan L et al (2009) Elevation dependency of recent and future minimum surface air temperature trends in the Tibetan Plateau and its surroundings. Glob Planet Chang 68(3):164–174
Lo V (2016) Synthesis report on experiences with ecosystem-based approaches to climate change adaptation and disaster risk reduction, Technical series no. 85. Secretariat of the Convention on Biological Diversity, Montreal, p 106
Messerli B, Ives JD (1997) Mountains of the world. Parthenon Publishing, New York
Miehe G, Miehe S, Schlütz F (2009) Early human impact in the forest ecotone of southern High Asia (Hindu Kush, Himalaya). Quat Res 71(3):255–265
Miehe G, Miehe S, Böhner J et al (2014) How old is the human footprint in the world’s largest alpine ecosystem? A review of multiproxy records from the Tibetan Plateau from the ecologists’ viewpoint. Quat Sci Rev 86:190–209
Mittermeier RA et al (2004) Hotspots revisited. Earth’s biologically richest and most endangered terrestrial ecoregions. Cemex, Mexico City
Molden DJ, Vaidya RA, Shrestha AB et al (2014) Water infrastructure for the Hindu Kush Himalayas. Int J Water Resour Dev 30(1):60–77
Molden D, Sharma E, Shrestha AB et al (2017) Advancing regional and transboundary cooperation in the conflict-prone Hindu Kush–Himalaya. Mt Res Dev 37(4):502–508
Mukherji A, Molden D, Nepal S et al (2015) Himalayan waters at the crossroads: issues and challenges. Int J Water Resour Dev 31(2):151–160
Muller F, de Groot RS, Willemen L (2010) Ecosystem services at the landscape scale: the need for integrative approaches. Landsc Online 23:1–11. https://doi.org/10.3097/LO.201023
Murali R, Redpath S, Mishra C (2017) The value of ecosystem services in the high altitude Spiti Valley, Indian Trans-Himalaya. Ecosyst Serv 28:115–123
Negi VS, Maikhuri RK, Pharswan D et al (2017) Climate change impact in the Western Himalaya: people’s perception and adaptive strategies. J Mt Sci 14(2):403–416
Nogués-Bravo D, Araújo MB, Romdal T et al (2008) Scale effects and human impact on the elevational species richness gradients. Nature 453(7192):216–219
Norman LM, Villarreal ML, Lara-Valencia F et al (2012) Mapping socio-environmentally vulnerable populations access and exposure to ecosystem services at the US–Mexico borderlands. Appl Geogr 34:413–424
Olson DM, Dinerstein E (2002) The global 200: priority ecoregions for global conservation. Ann Mo Bot Gard 89(2):199–224
Palomo I (2017) Climate change impacts on ecosystem services in high mountain areas: a literature review. Mt Res Dev 37(2):179–187
Pandey R, Bardsley DK (2015) Social-ecological vulnerability to climate change in the Nepali Himalaya. Appl Geogr 64:74–86
Pandey R, Jha S (2012) Climate vulnerability index-measure of climate change vulnerability to communities: a case of rural Lower Himalaya, India. Mitig Adapt Strat Glob Chang 17(5):487–506
Pandit MK, Sodhi NS, Koh LP et al (2007) Unreported yet massive deforestation driving loss of endemic biodiversity in Indian Himalaya. Biodivers Conserv 16(1):153–163
Parmesan C (2006) Ecological and evolutionary responses to recent climate change. Annu Rev Ecol Evol Syst 37:637–669
Pauchard A, Kueffer C, Dietz H et al (2009) Ain’t no mountain high enough: plant invasions reaching new elevations. Front Ecol Environ 7(9):479–486
Pauchard A, Milbau A, Albihn A et al (2016) Non-native and native organisms moving into high elevation and high latitude ecosystems in an era of climate change: new challenges for ecology and conservation. Biol Invasions 18(2):345–353
Paudyal K, Baral H, Burkhard B et al (2015) Participatory assessment and mapping of ecosystem services in a data-poor region: case study of community-managed forests in central Nepal. Ecosyst Serv 13:81–92
Pecl GT, Araújo MB, Bell JD et al (2017) Biodiversity redistribution under climate change: impacts on ecosystems and human well-being. Science 355(6332):1–9
Pepin N, Bradley RS, Diaz HF et al (2015) Elevation-dependent warming in mountain regions of the world. Nat Clim Chang 5(5):424–430
Quyang H (2009) The Himalayas – water storage under threat. Sustain Mt Dev 56:3–5
Rajbhandari R, Shrestha AB, Kulkarni A et al (2015) Projected changes in climate over the Indus river basin using a high resolution regional climate model (PRECIS). Clim Dyn 44(1):339–357
Rajbhandari R, Shrestha AB, Nepal S et al (2016) Projection of future Climate over the Koshi River basin based on CMIP5 GCMs. Atmos Clim Sci 6:190–204
Rashid I, Romshoo SA (2013) Impact of anthropogenic activities on water quality of Lidder River in Kashmir Himalayas. Environ Monit Assess 185(6):4705–4719
Rasul G, Sharma B (2016) The nexus approach to water–energy–food security: an option for adaptation to climate change. Clim Pol 16(6):682–702
Ravindranath NH, Chaturvedi RK, Joshi NV et al (2011) Implications of climate change on mitigation potential estimates for forest sector in India. Mitig Adapt Strat Glob Chang 16(2):211–227
Reddy CS, Sreelekshmi S, Jha CS et al (2013) National assessment of forest fragmentation in India: landscape indices as measures of the effects of fragmentation and forest cover change. Ecol Eng 60:453–464
Reddy CS, Satish KV, Jha CS et al (2016) Development of deforestation and land cover database for Bhutan (1930–2014). Environ Monit Assess 188(12):658. https://doi.org/10.1007/s10661-016-5676-6
Reddy CS, Pasha SV, Satish KV, Saranya KRL, Jha CS, Murthy YK (2018) Quantifying nationwide land cover and historical changes in forests of Nepal (1930–2014): implications on forest fragmentation. Biodivers Conserv 27(1):91–107. https://doi.org/10.1007/s10531-017-1423-8
Ren GY, Shrestha AB (2017) Climate change in the Hindu Kush Himalaya. Adv Clim Chang Res 8:137–140
Ren YY, Ren GY, Sun XB et al (2017) Observed changes in surface air temperature and precipitation in the Hindu Kush Himalayan region over the last 100-plus years. Adv Clim Chang Res 8(3):148–156
Rodríguez-Rodríguez D, Bomhard B (2012) Mapping direct human influence on the world’s mountain areas. Mt Res Dev 32(2):197–202
Royal Monetary Authority (RMA), Bhutan (2011) Annu Rep 2009/10
Sandhu H, Sandhu S (2014) Linking ecosystem services with the constituents of human Well-being for poverty alleviation in Eastern Himalayas. Ecol Econ 107:65–75
Sanjay J, Krishman R, Shrestha AB et al (2017) Downscaled climate change projections for the Hindu Kush Himalayan region using CORDEX South Asia regional climate models. Adv Clim Chang Res 8(3):185–198
Serreze MC (2010) Understanding recent climate change. Conserv Biol 24(1):10–17
Sharma E, Chettri N, Tse-ring K et al (2009) Climate change impacts and vulnerability in the Eastern Himalayas. ICIMOD, Kathmandu, p 27
Sharma E, Chettri N, Oli KP (2010) Mountain biodiversity conservation and management: a paradigm shift in policies and practices in the Hindu Kush-Himalayas. Ecol Res 25(5):909–923
Sharma B, Rasul G, Chettri N (2015) The economic value of wetland ecosystem services: evidence from Koshi Tappu Wildlife Reserve, Nepal. Ecosyst Serv 12:84–93
Sharma K, Robeson SM, Thapa P et al (2017) Land-use/land-cover change and forest fragmentation in the Jigme Dorji National Park, Bhutan. Phys Geogr 38(1):18–35
Shrestha AB, Aryal R (2011) Climate change in Nepal and its impact on Himalayan glaciers. Reg Environ Chang 11:S65–S77
Shrestha AB, Wake CP, Mayewski PA et al (1999) Maximum temperature trends in the Himalaya and its vicinity: an analysis based on temperature records from Nepal for the period 1971–94. J Clim 12:2775–2786
Shrestha UB, Gautam S, Bawa KS (2012) Widespread climate change in the Himalayas and associated changes in local ecosystems. PLoS One 7(5):e36741
Singh SP, Singh V, Skutsch M (2010) Rapid warming in the Himalayas: ecosystem responses and development options. Clim Dev 2(3):221–232
Singh SP et al (2011) Climate change in the Hindu Kush-Himalayas: the state of current knowledge. International Centre for Integrated Mountain Development (ICIMOD), Kathmandu
Srivastava P, Agnihotri R, Sharma D et al (2017) 8000-year monsoonal record from Himalaya revealing reinforcement of tropical and global climate systems since mid-Holocene. Sci Rep 7(1):14515
Suberi B, Tiwari KR, Gurung DB et al (2018) People’s perception of climate change impacts and their adaptation practices in Khotokha valley, Wangdue, Bhutan. Indian J Tradit Knowl 17(1):97–105
Sun XB, Ren GY, Shrestha AB et al (2017) Changes in extreme temperature events over the Hindu Kush Himalaya during 1961–2015. Adv Clim Chang Res 8(3):157–165
Telwala Y, Brook BW, Manish K et al (2013) Climate-induced elevational range shifts and increase in plant species richness in a Himalayan biodiversity epicentre. PLoS One 8(2):e57103
Tewari VP, Verma RK, von Gadow K (2017) Climate change effects in the Western Himalayan ecosystems of India: evidence and strategies. For Ecosyst 4(1):13
Tiwari PC, Joshi B (2012) Environmental changes and sustainable development of water resources in the Himalayan headwaters of India. Water Resour Manag 26(4):883–907
Trisal C (2009) Wetland of the Hindu Kush Himalayas: ecosystem functions, services and implications of climate change. In: Sharma E (ed) Proceedings on international mountain biodiversity conference, 16–18 November 2008. ICIMOD, Kathmandu, pp 169–178
Uddin K, Chaudhary S, Chettri N et al (2015) The changing land cover and fragmenting forest on the roof of the world: a case study in Nepal’s Kailash Sacred Landscape. Landsc Urban Plan 141:1–10
UN (1992) Report of the United Nations conference on environment and development. Rio de Janeiro 3–14 June 1992. A/CONF.151/26 (Vol. 1)
Vedwan N (2006) Culture, climate and the environment: local knowledge and perception of climate change among apple growers in northwestern India. J Ecol Anthropol 10(1):4–18
Viviroli D, Archer DR, Buytaert W et al (2011) Climate change and mountain water resources: overview and recommendations for research, management and policy. Hydrol Earth Syst Sci 15(2):471–504
Wang B, Bao Q, Hoskins B et al (2008) Tibetan plateau warming and precipitation changes in East Asia. Geophys Res Lett 35:L14702
Wang Q, Fan X, Wang M (2014) Recent warming amplification over high elevation regions across the globe. Clim Dyn 43(1–2):87–101
Wang Q, Fan X, Wang M (2016) Evidence of high-elevation amplification versus Arctic amplification. Sci Rep 19219. https://doi.org/10.1038/srep19219
Wang W, Jia M, Wang G et al (2017) Rapid warming forces contrasting growth trends of subalpine fir (Abies fabri) at higher-and lower-elevations in the eastern Tibetan Plateau. For Ecol Manag 402:135–144
Wangchuk S (2007) Maintaining ecological resilience by linking protected areas through biological corridors in Bhutan. Trop Ecol 48(2):176–187
Wijngaard RR, Lutz AF, Nepal S et al (2017) Future changes in hydro-climatic extremes in the Upper Indus, Ganges, and Brahmaputra River basins. PLoS One 12(12):e0190224. https://doi.org/10.1371/journal.pone.0190224
Xu J, Grumbine RE (2014) Building ecosystem resilience for climate change adaptation in the Asian highlands. Wiley Interdiscip Rev Clim Chang 5(6):709–718
Xu J, Grumbine RE, Shrestha A et al (2009) The melting Himalayas: cascading effects of climate change on water, biodiversity, and livelihoods. Conserv Biol 23(3):520–530
Yan LB, Liu XD (2014) Has climatic warming over the Tibetan Plateau paused or continued in recent years? J Earth Ocean Atmos Sci 1:13–28
Yan LB, Liu Z, Chen G et al (2016) Mechanisms of elevation-dependent warming over the Tibetan plateau in quadrupled CO2 experiments. Clim Chang 135:509–519
Yao T, Thompson GL, Mosbrugger V et al (2012) Third pole environment (TPE). Environ Dev 3:52e64
You QL, Kang SC, Aguilar E et al (2008) Changes in daily climate extremes in the eastern and central Tibetan Plateau during 1961–2005. J Geophys Res Atmos 113
You QL, Kang SC, Pepin N et al (2010) Relationship between temperature trend magnitude, elevation and mean temperature in the Tibetan Plateau from homogenized surface stations and reanalysis data. Glob Planet Chang 71:124–133
You QL, Ren GY, Zhang YQ et al (2017) An overview of studies of observed climate change in the Hindu Kush Himalayan (HKH) region. Adv Clim Chang Res 8(3):141–147
Yu H, Luedeling E, Xu J (2010) Winter and spring warming result in delayed spring phenology on the Tibetan Plateau. Proc Natl Acad Sci U S A 107(51):22151–22156
Zhan YJ, Ren GY, Shrestha AB et al (2017) Change in extreme precipitation events over the Hindu Kush Himalayan region during 1961–2012. Adv Clim Chang Res 8(3):166–175
Zhou YQ, Ren GY (2011) Change in extreme temperature events frequency over mainland China during 1961–2008. Clim Res 50:125–139
Zomer RJ, Trabucco A, Metzger MJ et al (2014) Projected climate change impacts on spatial distribution of bioclimatic zones and ecoregions within the Kailash Sacred Landscape of China, India, Nepal. Clim Chang 125(3–4):445–460
Acknowledgement
The authors would like to express their gratitude to Dr. David Molden, Director General of ICIMOD, for his inspiration and support. The continuous support and commitment from ICIMOD’s eight regional member countries is also acknowledged, as is the support of the Austrian Development Agency (ADA) and the German Federal Ministry for Economic Cooperation and Development through its German Agency for International Cooperation (GIZ), which made this publication possible.
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Chettri, N., Shrestha, A.B., Sharma, E. (2020). Climate Change Trends and Ecosystem Resilience in the Hindu Kush Himalayas. In: Dimri, A., Bookhagen, B., Stoffel, M., Yasunari, T. (eds) Himalayan Weather and Climate and their Impact on the Environment . Springer, Cham. https://doi.org/10.1007/978-3-030-29684-1_25
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