Skip to main content Accessibility help
×
Hostname: page-component-78c5997874-m6dg7 Total loading time: 0 Render date: 2024-11-03T04:02:30.561Z Has data issue: false hasContentIssue false

Part IV - People and Their Effects on the Himalayas

Published online by Cambridge University Press:  20 April 2017

Herbert H. T. Prins
Affiliation:
Wageningen Universiteit, The Netherlands
Tsewang Namgail
Affiliation:
Snow Leopard Conservancy India Trust
Get access
Type
Chapter
Information
Bird Migration across the Himalayas
Wetland Functioning amidst Mountains and Glaciers
, pp. 317 - 396
Publisher: Cambridge University Press
Print publication year: 2017

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References

Bellezza, J.V. (1997). Notes on three series of unusual symbols discovered on the Byang Thang. East and West, 47, 395405.Google Scholar
Bellezza, J.V. (1998). Thogchags: talismans of Tibet. Arts of Asia (The Asian Arts & Antiques Magazine), 28, 4464.Google Scholar
Bellezza, J.V. (2005). Calling Down the Gods: Spirit-Mediums, Sacred Mountains, and Related Bon Textual Traditions in Upper Tibet. Leiden: Brill (Brill’s Tibetan Studies Library).CrossRefGoogle Scholar
Bellezza, J.V. (2008). Zhang Zhung: Foundations of Civilization in Tibet. A Historical and Ethnoarchaeological Study of the Monuments, Rock Art, Texts, and Oral Tradition of the Ancient Tibetan Upland. Vienna: Verlag der österreichischen Akademie der Wissenschaften.Google Scholar
Bellezza, J.V. (2012). The horned eagle: Tibet’s greatest ancestral and religious symbol across the ages. Flight of the Khyung, January 2012, www.tibetarchaeology.com/january-2012/.Google Scholar
Bellezza, J.V. (2013). High on the khyung. Flight of the Khyung, January 2013, www.tibetarchaeology.com/january-2013/.Google Scholar
Bhatnagar, Y.V., Wangchuk, R., Prins, H.H.T., Van Wieren, S.E. & Mishra, C. (2006). Perceived conflicts between pastoralism and conservation of the kiang Equus kiang in the Ladakh Trans-Himalaya, India, Environmental Management, 38, 934941.Google Scholar
Bruneau, L. & Bellezza, J.V. (2013). The rock art of upper Tibet and Ladakh: Inner Asian cultural adaptation, regional differentiation and the western Tibetan Plateau style, Revue d’Études Tibétaines, 28, 5161.Google Scholar
Bruneau, L. & Vernier, M. (2010). Animal style of the steppes in Ladakh: a presentation of newly discovered petroglyphs. In Olivieri, L.M., Bruneau, L. & Ferrandi, M. (Eds.) Pictures in Transformation: Rock Art Researches between Central Asia and the subcontinent. Oxford: Archeopress (BAR International Series 2167), 2736.Google Scholar
Devers, Q., Bruneau, L. & Vernier, M. (2014). An archaeological account of ten early painted chortens in Ladakh. In Lo Bue, E. & Bray, J. (Eds.) Art and Architecture in Ladakh, Cross-cultural Transmissions in the Himalayas and Karakoram. Leiden: Brill (Brill’s Tibetan Studies Library), pp. 100140.CrossRefGoogle Scholar
Dollfus, P. (1988). La représentation du bouquetin au Ladakh, région de culture tibétaine de l’Inde du Nord. In Tibetan Studies, Proceedings of the 4th seminar of the International Association of Tibetan Studies-Münich 1985, vol. 2. Münich: Kommission für Zentralasiatische Studien, Bayerische Akademie der Wissenschaften, pp. 125138.Google Scholar
Francfort, H.P. & Klodzinski, D., Mascle, G. (1990) Petroglyphes archaïques du Ladakh et du Zanskar. Arts Asiatiques, 45, 527.CrossRefGoogle Scholar
Ganjoo, R.K. & Ota, S.B. (2012). Mountain environment and early human adaptation in NW Himalaya, India: A case study of Siwalik Hill Range and Leh Valley, Quaternary International, 269, 3137.CrossRefGoogle Scholar
IFRAO (International Federation of Rock Art Organisations), e-RockArtGlossary, www.ifrao.com/ifrao-glossary/Google Scholar
Jettmar, K. (1982). Petroglyphs and early history of the Upper Indus Valley: the 1981 expedition – a preliminary report. Zentralasiatische Studien, 16, 293308.Google Scholar
Jettmar, K. (2002). Rock art in northern Pakistan. Researches between 1979–1989. In Kattner, E. (Ed.) Beyond the Gorges of the Indus. Archaeology before Excavation. Karachi: Oxford University Press, pp. 80109.Google Scholar
Koenig, G. (1984). Skythen in Tibet? In Muller, C. & Raunig, W. (Eds.) Der Weg zum Dach der Welt. Innsbruck: Pinguin-Verlag, pp. 318320.Google Scholar
Kubarev, V.D. & Zabelin, V.I. (2006). Avian fauna in Central Asian rock art: archaeological and ethnological evidence. Archaeology, Ethnology & Anthropology of Eurasia, 26, 87103.Google Scholar
Litvinsky, B.A. (1993). Pamir und Gilgit Kulturhistorische Verbindunge. In Jettmar, K. (Ed.) Antiquities of Northern Pakistan: Reports and Studies, vol. 2. Mainz: Philipp von Zabern, pp. 141149.Google Scholar
Namgail, T., Van Wieren, S.E., Mishra, C. & Prins, H.H.T. (2010). Multi-spatial co-distribution of the endangered Ladakh urial and blue sheep in the arid Trans-Himalayan mountains. Journal of Arid Environments, 74, 11621169.Google Scholar
Namgail, T., Van Wieren, S.E. & Prins, H.H.T. (2013). Distributional congruence of mammalian herbivores in the Trans-Himalayan mountains. Current Zoology, 59, 116124.Google Scholar
Nebesky-Wojkowitz, R. (1993). Oracles and Demons of Tibet. The Cult and Iconography of the Tibetan Protective Deities, first reprint. Kathmandu: Tiwari’s Pilgrims Book House.Google Scholar
Norbu, C.N. (2013). A history of Zhang Zhung and Tibet, Volume One, The Early Period. Berkeley, CA: North Atlantic Books.Google Scholar
Ota, S.B. (1993). Evidences of transhumance from Ladakh Himalayas, Jammu & Kashmir, India. In Ganjoo, R.K. & Ota, S.B. (Eds.) Current Advances in Indian Archaeology, vol. 1. Nagpur: Dattsons, pp. 7995.Google Scholar
Parzinger, H. (2001). Bemerkungen zu einigen Tierstillbronzen zwischen Karakorum und Pamir. In Boehmer, R.M. & Maran, J. (Eds.) Lux orientis: Archäologie zwischen Asien und Europa, Festschrift für Harald Hauptmann zum 65. Geburtstag. Rahden, Westf.: M. Leidorf, pp. 321326.Google Scholar
Pfister, O. (2004). Birds & Mammals of Ladakh. New Delhi: Oxford University Press.Google Scholar
Schaller, G. (1998). Wildlife of the Tibetan Steppe. Chicago: University of Chicago Press.Google Scholar
Takeuchi, T. (2012). Old inscriptions near Alchi, in historical development of the Tibetan languages. Journal of Research Institute, 49, 2969.Google Scholar
Vernier, M. (2007). Exploration et documentation des pétroglyphes du Ladakh. 1996–2006. Como: Fondation Carlo Leone et Mariena MontandonGoogle Scholar

References

Ahmed, M. (1997a). The salt trade: Rupshu’s annual trek to Tsokar. In Van Beek, M., Bertelsen, B. & Pedersen, P. (eds.) Ladakh: Culture, History and Development between Himalaya and Karakoram. Recent Research on Ladakh 8, pp. 3248. Aarhus (Denmark): Aarhus University Press.Google Scholar
Ahmed, M. (1997b). We Are Warp and Weft – Nomadic Pastoralism and the Tradition of Weaving in Rupshu (Eastern Ladakh). Oxford: Oxford University.Google Scholar
Ahmed, M. (2002). Living Fabric: Weaving among the Nomads of Ladakh Himalaya. Bangkok: Orchid Press.Google Scholar
Ahmed, M. (2004). The politics of pashmina: the Changpas of eastern Ladakh. Nomadic Peoples, 8, 89106.Google Scholar
Ahmed, M. (2009). Why are the Rupshupa leaving the Changthang? In Ahmed, M. & Bray, J. (eds.) Recent Research on Ladakh 2009: Papers from the 12th Colloquium of the International Association for Ladakh Studies, Kargil, International Association for Ladakh Studies, pp. 145151.Google Scholar
Ahmed, M. (2013, January). Negotiating Place on Ladakh’s Changthang – What Happened after 1959? The Himalayan Impasse, University of Bonn: Unpublished paper (presented at the conference).Google Scholar
Angmo, D.K. (2014). Making sense of the border incursions. Stawa, 1, 89.Google Scholar
Bhatnagar, Y.V., Seth, C.M., Takpa, J., et al. (2007). A strategy for conservation of the Tibetan Gazelle Procapra picticaudata in Ladakh. Conservation and Society, 5, 262276.Google Scholar
Bhatnagar, Y.V., Wangchuk, R., Prins, H.H.T., Van Wieren, S.E. & Mishra, C. (2006). Perceived conflicts between pastoralism and conservation of the Kiang Equus kiang in the Ladakh Trans-Himalaya, India. Environmental Conservation, 38, 934941.Google Scholar
Chandrasekhar, K., Rao, K.S., Maikhuri, R.K. & Saxena, K.G. (2007). Ecological implications of traditional livestock husbandry and associated land use practices: a case study from the Trans-Himalaya, India. Journal of Arid Environments, 69, 299314.Google Scholar
Chaudhuri, A. (2000). Change in Changthang: to stay or to leave? Economic and Political Weekly, 35, 5258.Google Scholar
Dolkar, T. (2014). Unstable borders: India vs China? Stawa, 1, 47.Google Scholar
inflation.eu. (2015). Inflation India 1960: www.inflation.eu/inflation-rates/india/historic-inflation/cpi-inflation-india-1960.aspx. (accessed: 6 Dec 2015).Google Scholar
Fox, J.L., Nurbu, C., Bhatt, S. & Chandola, A. (1994). Wildlife conservation and land-use changes in the Transhimalayan region of Ladakh, India. Mountain Research and Development, 14, 3960.Google Scholar
Geneletti, D. & Dawa, D. (2009). Environment impact assessment of mountain tourism in developing regions: a study in Ladakh, Indian Himalaya. Environment Impact Assessment Review, 29, 229242.Google Scholar
Ghosal, S. (2005). The Nomad’s Journey: From Barter to Cash. London: University of London, School of Oriental and African Studies.Google Scholar
Goodall, S. (2004). Rural-to-urban migration and urbanization in Leh, Ladakh: a case study of three nomadic pastoral communities. Mountain Research and Development, 24, 220227.Google Scholar
Goodall, S. (2007). From Plateau Pastures to Urban Fringe: Sedentarisation of Nomadic Pastoralists in Ladakh, North-West India. Adelaide (Australia): University of Adelaide, Department of Geographical and Environment Studies.Google Scholar
LAHDC-Leh. (2014). Statistical Handbook of Leh. Leh-Ladakh: Ladakh Autonomous Hill Development Council, Leh.Google Scholar
Miller, D.J. (1999). Nomads of the Tibetan Plateau rangelands in western China part two: pastoral production practices. Rangelands, 21, 1619.Google Scholar
Mishra, C., Prins, H.H.T. & Van Wieren, S.E. (2001). Overstocking in the Trans-Himalayan rangelands of India. Environmental Conservation, 28, 279283.Google Scholar
Mishra, C., Prins, H.H.T. & Van Wieren, S.E. (2003). Diversity, risk mediation, and change in a Trans-Himalayan agropastoral system. Human Ecology, 31, 595609.Google Scholar
Namgail, S. (2015). Changes in the institution of family in the Changpa community. Ladakh Studies, 32.Google Scholar
Namgail, T., Bhatnagar, Y.V., Mishra, C. & Bagchi, S. (2007). Pastoral nomads of the Indian Changthang: production system, land use and socioeconomic changes. Human Ecology 35, 497504.Google Scholar
Namgail, T., Rawat, G.S., Mishra, C., Van Wieren, S.E. & Prins, H.H.T. (2012). Biomass and diversity of dry alpine plant communities along altitudinal gradients in the Himalayas. Journal of Plant Research, 125, 93101.CrossRefGoogle ScholarPubMed
Namgail, T., Van Wieren, S.E. & Prins, H.H.T. (2010). Pashmina production and socio-economic changes in the Indian Changthang: implications for natural resource management. Natural Resources Forum, 34, 222230.Google Scholar
Petech, L. (1977). The Kingdom of Ladakh. Rome: Istituto Italiano per il Medio ed Estremo Oriente.Google Scholar
Pfister, O. (2004). Birds and Mammals of Ladakh. New Delhi: Oxford University Press.Google Scholar
Prins, H.H.T. & Van Wieren, S.E. (2004). Number, population structure and habitat use of Bar-headed Geese Anser indicus in Ladakh (India) during the brood-rearing period. Acta Zoologica Sinica, 50, 738744.Google Scholar
Raghuvanshi, M.S., Mishra, A.K., Tewari, J.C., Landol, S., Stanzin, J. & Bhatt, R.K. (2016). The growing threat of creeping thistle in Changthang. Stawa, 3, 1112.Google Scholar
Rizvi, J. (1996). Ladakh: Crossroads of High Asia. New Delhi: Oxford University Press.Google Scholar
Rizvi, J. (1999). The trade in pashm and its impact on Ladakh’s history. In Van Beek, M., Bertelsen, B. & Pedersen, P. (eds.) Ladakh: Culture, History and Development between Himalaya and Karakoram. Recent Research on Ladakh 8, Aarhus: Aarhus University, pp. 317338.Google Scholar
Singh, N.J., Bhatnagar, Y.V., Lecomte, N., Fox, J.L. & Yoccoz, N.G. (2013). No longer tracking greenery in high altitudes: pastoral practices of Rupshu nomads and their implications for biodiversity conservation. Pastoralism: Research, Policy and Practice, 3, 115.CrossRefGoogle Scholar
Stobdan, P. (2015). India and China: adversaries or partners? Stawa, 2, 1416.Google Scholar

References

Assistant Director Tourism (2015). Year-wise tourist arrival by air/road to Ladakh. Unpubl. report. Office of the Assistant Director Tourism, Leh.Google Scholar
Aggarwal, R. & Bhan, M. (2009). ‘Disarming violence’: development, democracy, and security on the borders of India. The Journal of Asian Studies, 68, 519542.Google Scholar
Banskota, K. & Sharma, B. (1998). Understanding sustainability in mountain tourism: case study of Nepal. In East, P., Luger, K., Inmann, K., eds., Sustainability in Mountain Tourism: Perspectives for the Himalayan Countries. Delhi: Book Faith India and Insbruck-Vienna: Studienverlag, pp. 111126.Google Scholar
Bishop, M.A. (1996). Back-necked Crane. In The Cranes: – Status Survey and Conservation Action Plan, Gland, Switzerland, and Cambridge, UK: IUCN, pp. 184194.Google Scholar
Bishop, M.A., Tsamchu, D. & Li, F.X. (2012). Number and distribution of Black-necked Cranes wintering in Shigatse prefecture, Tibet. Chinese Birds, 3, 191198.Google Scholar
Boer, W.F., Cao, L., Barter, M., et al. (2011). Comparing the community composition of European and Eastern Chinese waterbirds and the influence of human factors on the China waterbird community. AMBIO, 40, 6877.Google Scholar
Ceballos-Lascuráin, H. (1996). Tourism, Ecotourism, and Protected Areas: The State of Nature-Based Tourism around the World and Guidelines for Its Development. Gland, Switzerland and Cambridge, UK: IUCN.Google Scholar
China Tibetology Research Center (2009). Report on the Economic and Social Development of Tibet, Zheng Limin Ed. www.cctv.com/english/20090330/106989.shtml.Google Scholar
Cole, V. & Sinclair, A.J. (2002). Measuring the ecological footprint of a Himalayan tourist center. Mountain Research and Development, 22, 132141.Google Scholar
Dame, J. & Nüsser, M. (2008). Development perspectives in Ladakh, India. Geographische Rundschau International Edition Review, 4, 2027.Google Scholar
Dorji, T. (2001). Sustainability of tourism in Bhutan. Journal of Bhutan Studies, 3, 84104.Google Scholar
Dugan, P. (ed.) (2005). Guide to Wetlands. London: Philip’s Octopus Publishing.Google Scholar
Duo, H., Shi, L. & Lei, G. (2014). Remote sensing applications to monitoring wetland dynamics: a case study on Qinghai lake Ramsar site, China. In Wang, G. & Weng, Q., eds., Remote Sensing of Natural Resources, Boca Raton, FL, CRC Press, pp. 479493.Google Scholar
East, P., Luger, K. & Inmann, K. (1998). Himalayan tourism on the sustainable trail? In East, P., Luger, K., Inmann, K., eds., Sustainability in Mountain Tourism: Perspectives for the Himalayan Countries. Delhi: Book Faith India and Insbruck-Vienna: Studienverlag, pp. 114.Google Scholar
Farrington, J.D. & Xiulei, Z. (2013). The Black-necked Cranes of the Longbao National Nature Reserve, Qinghai, China: current status and conservation issues. Mountain Research and Development, 33, 305313.Google Scholar
Fengshan, L.I., Bishop, M.A. & Drolma, T. (2011). Power line strikes by Black-necked Cranes and Bar-headed Geese in Tibet Autonomous Region. Chinese Birds, 2, 167173.Google Scholar
Fox, J.L., Nurbu, C., Bhatt, S., Chandola, A. (1994). Wildlife conservation and land-use changes in the Trans-Himalayan region of Ladakh, India. Mountain Research and Development, 14, 3960.Google Scholar
Geneletti, D. & Dawa, D. (2009). Environmental impact assessment of mountain tourism in developing regions: a study in Ladakh, Indian Himalaya. Environmental Impact Assessment Review, 29, 229242.Google Scholar
Gilbert, N.I., Correia, R.A., Silva, J.P., et al. (2016). Are white storks addicted to junk food? Impacts of landfill use on the movement and behaviour of resident white storks (Ciconia ciconia) from a partially migratory population. Movement Ecology, 4(7), 113.Google Scholar
Gurung, P. & DeCoursey, M.A. (1999). Too much too fast: lessons from Nepal’s lost kingdom of Mustang. In Godde, P.M., Price, M.F., Zimmermann, F.M., eds., Tourism and Development in Mountain Regions. Wallingford (UK) & New York: CAB International, pp. 239254.Google Scholar
Hammitt, W.E., Cole, D.N. & Monz, C.A. (2015). Wildland Recreation: Ecology and Management, 3rd edition. Hoboken, NJ: John Wiley & Sons.Google Scholar
Humbert-Droz, B. (2011). Trends in waterfowl populations and development of tourism in high-altitude wetlands of Ladakh, north-western India. Casarca, 14, 184203.Google Scholar
Humbert-Droz, B. & Dawa, S. (Eds.) (2004). Biodiversity of Ladakh: Strategy and Action Plan. New Delhi: Sampark.Google Scholar
India TV News Desk (2014). China announces opening of new route to Kailash Manasarovar. www.indiatvnews.com/news/india/chinese-prez-may-announce-opening-new-route-to-kailash-manasarov-42109.html.Google Scholar
International Cadmium Association (ICdA) (undated). Environment: Cadmium emissions. www.cadmium.org/environment/cadmium-emissions.Google Scholar
International Crane Foundation, (undated). Cao Hai Project. www.savingcranes.org/cao-hai-project/.Google Scholar
Islam, A. (2014). Impact of armed conflict on economy and tourism: a study of state of Jammu and Kashmir. IOSR Journal of Economics and Finance, 4, 5560.Google Scholar
Islam, M.Z. & Rahmani, A.R. (2008). Potential and Existing Ramsar Sites in India. New Delhi: Oxford University Press.Google Scholar
IUCN, Wetlands International (2008). Resolution 1 of the 11th Meeting of the Goose Specialist Group of Wetlands International & the Species Survival Commission of IUCN concerning the protection of wetlands, grasslands and their water bird populations in Ladakh. Unpublished resolution, dated 29 May 2008, submitted to the Department of Wildlife Protection, Jammu and Kashmir State.Google Scholar
Jacob, J.T. (2011). The Sino-Indian boundary dispute: sub-national units as ice-breakers. Eurasia Border Review, 2, 3545.Google Scholar
Jha, H.B. (2013) Nepal’s border relations with India and China. Eurasia Border Review, 4, 6375.Google Scholar
Jianqiang, L. (2012). Locals fight tourism on Tibet’s holy lakes. The Third Pole. www.thethirdpole.net/locals-fight-tourism-on-tibets-holy-lakes.Google Scholar
Kelly (2015). Nine sacred lakes in Tibet. www.chinahighlights.com/tibet/sacred-lake.htm.Google Scholar
Lang, A., Bishop, M.A. & Le Sueur, A. (2007). An annotated list of birds wintering in the Lhasa river watershed and YamzhoYumco, Tibet Autonomous Region, China. Forktail, 23, 111.Google Scholar
Lihua, L. & Jingming, H. (2002). Sustainable rural tourism and its implications for poverty alleviation in Tibet Autonomous Region, P.R. China. In Jodha, et al., eds., Poverty Alleviation in Mountain Areas of China. Feldafin, Germany: InWent, pp. 209220.Google Scholar
Maharana, I., Rai, S.C. & Sharma, E. (2000). Valuing ecotourism in a sacred lake of the Sikkim Himalaya, India. Environmental Conservation, 27, 269277.Google Scholar
Maitland, P.S. & Morgan, N.C. (1997). Conservation Management of Freshwater Habitats. London: Chapman & Hall.Google Scholar
Malik, M.I. & Bhatba, M.S. (2015). Sustainability of tourism development in Kashmir – Is paradise lost? Tourism Management Perspectives, 16, 1121.Google Scholar
Mallon, D.P. (1991). Status and conservation of large mammals in Ladakh. Biological Conservation, 56, 101119.Google Scholar
Ma Ming, R., Zhang, T., Blank, D., Ding, P. & Zhao, X. (2012). Geese and ducks killed by poison and analysis of poaching cases in China. Goose Bulletin, 15, 211.Google Scholar
Mercer, D.C. (1990). Recreation and wetlands: impacts, conflict and policy issues. In Williams, M., ed., Wetlands: A Threatened Landscape. Oxford, UK & Cambridge, MA: Blackwell, pp. 267295.Google Scholar
Mishra, C. & Humbert-Droz, B. (1998). Avifaunal survey of Tso Moriri Lake and adjoining Nuro Sumdo wetland in Ladakh, Indian Trans-Himalaya. Forktail, 14, 6567.Google Scholar
Naim, T. (2010). South Asia. In UNESCO Science Report 2010. UNESCO Publishing, pp. 322347.Google Scholar
Nelson, W.A. & Steinman, A.D. (2013). Changes in the benthic communities of Muskegon Lake, a Great Lakes Area of Concern. Journal of Great Lakes Research, 39, 718.CrossRefGoogle Scholar
Nepal, S.K. (2000). Tourism in protected areas: the Nepalese Himalaya. Annals of Tourism Research, 27, 661681.Google Scholar
Nyaupane, G.P., &Timothy, D.J. (2010). Power, regionalism and tourism policy in Bhutan. Annals of Tourism Research, 37, 969988.Google Scholar
Prins, H.H.T. & Van Wieren, S.E. (2004). Number, population structure and habitat use of Bar-headed Goose, Anser indicus in Ladakh (India) during the brood-rearing period. Acta Zoologica Sinica, 50, 738744.Google Scholar
Prosser, D.J., Cui, P., Takekawa, J.Y., et al. (2011). Wild bird migration across the Qingzang-Tibetan Plateau: a transmission route for highly athogenic H5N1. PLoS one, 6(3), e17622.Google Scholar
Rahman, M.Z. (2014). Territory roads and trans-boundary rivers: an analysis of Indian infrastructure building along the Sino-Indian border in Arunachal Pradesh. Eurasia Border Review, 5, 5975.Google Scholar
Rajagopalan, R.P. & Prakash, R. (2013). Sino-Indian border infrastructure: an update. ORF Occasional Paper #42. New Delhi: Observer Research Foundation.Google Scholar
Ramsar Sites Information Service. Tso Moriri Ramsar Site Number 1213, Wular 461, Hokera 1570, Mapangyong Cuo 1439, Maidika 1438, Eling 1436, Zhaling 1442, Niaodao 552. https://rsis.ramsar.org/ris/ <Ramsar Site Number>..>Google Scholar
Sharma, P. (1998). Sustainable tourism in the Hindu Kush-Himalayas: issues and approaches. In East, P., Luger, K., Inmann, K., eds., Sustainability in Mountain Tourism. Delhi: Book Faith India and Insbruck-Vienna: Studienverlag, pp. 4769.Google Scholar
Sharma, P. (2000). Tourism and livelihood in the mountains regional overview and the experience of Nepal. In Banskota, et al., eds., Growth, Poverty Alleviation and Sustainable Resource Management in the Mountain Areas of South Asia. Proceedings of the International Conference 31.1. – 4.2. 2000, Kathmandu. Feldafing (Germany): InWEnt, pp. 349376.Google Scholar
Sharma, P. (2011). Sustainable mountain tourism development in Nepal: an historicalperspective. In Kruk, et al., eds., Integrated Tourism Concepts to Contribute to Sustainable Mountain Development in Nepal. Feldafing (Germany): GIZ, pp. 4047.Google Scholar
Shen, X., Lu, Z., Li, S., & Chen, N. (2012). Tibetan sacred sites: understanding the traditional management system and its role in modern conservation. Ecology and Society, 17, 113.Google Scholar
Song, H., Zhang, Y., Gao, H., Guo, Y. & Li, S.(2014). Plateau wetlands, an indispensable habitat for the Black-necked Crane (Grus nigricollis). Wetlands, 34, 629639.Google Scholar
The Guardian Weekly (2014). China hopes to revive the Silk Road with bullet trains to Xinjiang. The Guardian Weekly. www.theguardian.com/world/2014/sep/30/china-bullet-high-speed-train.Google Scholar
Wagner, E. (2012). Flight plan. Earth Island Journal Summer, 27. www.earthisland.org/journal/index.php/eij/article/green_dragon/.Google Scholar
Wetlands International – South Asia (2007). Comprehensive management action plan for Wular Lake, Kashmir. Final report. http://sites.wetlands.org/reports/ris/2IN003_mgtplan.pdf.Google Scholar
Xinhua (2015).Tibet sees record high tourist arrivals in 2014. http://news.xinhuanet.com/english/china/2015-01/11/c_133911210.htm.Google Scholar
Yan, X., Zhang, F., Gao, D., et al. (2013). Accumulations of heavy metals in roadside soils close to Zhaling, Eling and Nam Co Lakes in the Tibetan Plateau. International Journal of Environmental Research and Public Health, 10, 23842400.Google Scholar
Yang, R., Yao, T., Xu, B., Jiang, G. & Xin, X. (2007). Accumulation features of organochlorine pesticides and heavy metals in fish from high mountain lakes and Lhasa River in the Tibetan Plateau. Environment International, 33, 151156.Google Scholar
Yousuf, T., Yousuf, A.R. & Mushtaq, Ba. (2015). Comparative account on physico-chemical parameters of two wetlands of Kashmir Valley. International Journal of Recent Scientific Research, 6, 28762882.Google Scholar
Zhang, Y., Jia, Q., Prins, H.H.T., Cao, L. & Boer, W.F. (2015). Effect of conservation efforts and ecological variables on waterbird population sizes in wetlands of theYangtzeRiver. Scientific Reports, 5, 17136.Google Scholar

References

Ali, S. & Ripley, S.D. (1983). Handbook of the Birds of India and Pakistan (compact edition). Oxford University Press and BNHS, Mumbai.Google Scholar
Ali, S. & Ripley, S.D. (1995). The Pictorial Guide to the Birds of Indian Sub-continent. Oxford University Press and BNHS, Mumbai.Google Scholar
Baskaran, S.T. (1992). Sighting of Dusky Horned Owl. Newsletter for Birdwatchers, 32, 10.Google Scholar
Bauer, K. (2005). Development and the enclosure movement in pastoral Tibet since the 1980s. Nomadic Peoples, 9, 5381.CrossRefGoogle Scholar
Berger, J., Bayarbaatar, B. & Mishra, C. (2013). Globalization of the cashmere market and the decline of large mammals in Central Asia. Conservation Biology, 27, 679689.Google Scholar
Brantingham, P.J., Gao, X., Olsen, J.W., et al. (2007). A short chronology for the peopling of the Tibetan Plateau. Developments in Quaternary Sciences, 9, 129150.Google Scholar
Brotons, L., MaÑosa, S. & Estrada, J. (2004). Modelling the effects of irrigation schemes on the distribution of steppe birds in Mediterranean farmland. Biodiversity & Conservation, 13, 10391105.Google Scholar
Buckland, S.T., Anderson, D.R., Burnham, K.P. & Laake, J.L. (1993). Assumptions and modelling philosophy. In Distance Sampling. Springer Netherlands, pp. 2951.Google Scholar
Buckland, S.T., Anderson, D.R., Burnham, K.P. & Laake, J.L. (2005). Distance Sampling. John Wiley & Sons, Ltd.Google Scholar
Canavelli, S.B., Swisher, M.E. & Branch, L.C. (2013). Factors related to farmers’ preferences to decrease monk parakeet damage to crops. Human Dimensions of Wildlife, 18, 124137.Google Scholar
da Silva, T.W., Dotta, G. & Fontana, C.S. (2015). Structure of avian assemblages in grasslands associated with cattle ranching and soybean agriculture in the Uruguayan savanna ecoregion of Brazil and Uruguay. The Condor: Ornithological Applications, 117, 5363.Google Scholar
De Mey, Y., Demont, M. & Diagne, M. (2012). Estimating bird damage to rice in Africa: evidence from the Senegal River Valley. Journal of Agricultural Economics, 63, 175200.Google Scholar
Fratkin, E. (1997). Pastoralism: governance and development issues. Annual Review of Anthropology, 26, 235261.Google Scholar
García, C., Renison, D., Cingolani, A.M. & Fernández‐Juricic, E. (2008). Avifaunal changes as a consequence of large‐scale livestock exclusion in the mountains of Central Argentina. Journal of Applied Ecology, 45, 351360.Google Scholar
Gotelli, N.J. & Colwell, R.K. (2001). Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters, 4, 379391.Google Scholar
Gotelli, N.J. & Entsminger, G.L. (2001). EcoSim: Null models software for ecology. www.uvm.edu/~ngotelli/EcoSim/EcoSim.html.Google Scholar
Gregory, R.D. & Van Strien, A. (2010). Wild bird indicators: using composite population trends of birds as measures of environmental health. Ornithological Science, 9, 322.Google Scholar
Grimmett, R., Inskipp, C., Inskipp, T. & Allen, R. (2011). Birds of the Indian Subcontinent. Second edition. Oxford University Press, London.Google Scholar
Guerrero, I., Morales, M.B. & Oñate, J.J. (2012). Response of ground-nesting farmland birds to agricultural intensification across Europe: landscape and field level management factors. Biological Conservation, 152, 7480.Google Scholar
Harris, J. (1994). Cranes, people and nature: preserving the balance. The future of cranes and wetlands. Proceedings of the International Symposium, Wild Bird Society of Japan, Tokyo, pp, 115.Google Scholar
Himachal Pradesh State Government Economics and Statistics Department (2013). Economic Survey of Himachal Pradesh. Public report.Google Scholar
Johnson, M.D., Kellermann, J.L. & Stercho, A.M. (2010). Pest reduction services by birds in shade and sun coffee in Jamaica. Animal Conservation, 13, 140147.Google Scholar
Kirk, D.A., Evenden, M.D. & Mineau, P. (1996). Past and current attempts to evaluate the role of birds as predators of insect pests in temperate agriculture. Current Ornithology, 13, 175269.Google Scholar
Miller, D.L. (2015). Distance: Distance Sampling Detection Function and Abundance Estimation. R package version 0.9.4. https://CRAN.R-project.org/package=Distance.Google Scholar
Mishra, C. (2001). High altitude survival: conflicts between pastoralism and wildlife in the Trans-Himalaya. PhD thesis, Wageningen University, The Netherlands.Google Scholar
Mishra, C., Bagchi, S., Namgail, T. & Bhatnagar, Y.V. (2010). Multiple Use of Trans-Himalayan Rangelands: Reconciling Human Livelihoods with Wildlife Conservation. In du Toit, J.T., Kock, R. and Deutsch, J.C., eds., Wild Rangelands: Conserving Wildlife while Maintaining Livestock in Semi-arid Ecosystems. Chichester: Wiley-Blackwell, pp. 291311.Google Scholar
Mishra, C. & Humbert-Droz, B. (1998). Avifaunal survey of Tsomoriri Lake and adjoining Nuro Sumdo Wetland in Ladakh, Indian Trans-Himalaya. Forktail, 14, 6568.Google Scholar
Mishra, C., Prins, H. H. T. & Van Wieren, S. E. (2001). Overstocking in the Trans-Himalayan rangelands of India. Environmental Conservation, 28, 279283.Google Scholar
Namgail, T., Bhatnagar, Y.V., Mishra, C. & Bagchi, S. (2007). Pastoral nomads of the Indian Changthang: production system, landuse, and socio-economic changes. Human Ecology, 35, 497504.CrossRefGoogle Scholar
Namgail, T., Mudappa, D. & Raman, T.R.S. 2009. Waterbird numbers at high altitude lakes in eastern Ladakh, India. Wildfowl, 59, 137144.Google Scholar
Ning, W. & Richard, C.E. (1999, July). The privatisation process of rangeland and its impacts on the pastoral dynamics in the Hindu Kush Himalaya: the case of Western Sichuan, China. In People and Rangelands. Proceedings of VI International Rangelands Congress, Townsville, Australia, pp. 1421.Google Scholar
Pfister, O. (2004). Birds and Mammals of Ladakh. New Delhi: Oxford University Press.Google Scholar
R Core Team (2016). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. www.R-project.org/.Google Scholar
Shen, X., Li, S., Chen, N., Li, S., McShea, W.J. & Lu, Z. (2012). Does science replace traditions? Correlates between traditional Tibetan culture and local bird diversity in Southwest China. Biological Conservation, 145, 160170.Google Scholar
Shen, X. & Tan, J. (2012). Ecological conservation, cultural preservation, and a bridge between: the journey of Shanshui Conservation Center in the Sanjiangyuan region, Qinghai-Tibetan Plateau, China. Ecology and Society, 17, 38.Google Scholar
Smits, J.E.G. & Fernie, K.J. (2013). Avian wildlife as sentinels of ecosystem health. Comparative Immunology, Microbiology and Infectious Diseases, 36, 333342.Google Scholar
Sullivan, B.L., Aycrigg, J.L., Barry, J.H., et al. (2014). The eBird enterprise: an integrated approach to development and application of citizen science. Biological Conservation, 169, 3140.Google Scholar
Thomas, L., Buckland, S.T., Rexstad, E.A., et al. (2010). Distance software: design and analysis of distance sampling surveys for estimating population size. Journal of Applied Ecology, 47, 514.Google Scholar
Urgenson, L., Schmidt, A.H., Combs, J., et al. (2014). Traditional livelihoods, conservation and meadow ecology in Jiuzhaigou National Park, Sichuan, China. Human Ecology, 42, 481491.Google Scholar
Woodhouse, E. (2012). The role of Tibetan Buddhism in environmental conservation under changing socio-economic conditions in China (Doctoral dissertation, Imperial College London).Google Scholar
Zhang, Y. (2016). Wild geese of the Yangtze River: their ecology and conservation. PhD thesis submitted to Wagningen University. The Netherlands.Google Scholar
Zhou, Z.Q., & Liu, T. (2005). The current status, threats and protection way of Sanjiang Plain wetland, Northeast China. Journal of Forestry Research, 16, 148152.Google Scholar

References

Ali, S. & Ripley, D.S. (1978). Handbook of the Birds of India and Pakistan Together with those of Bangladesh, Nepal, Bhutan and Sri Lanka. New Delhi, India: Oxford University Press.Google Scholar
Bassi, N., Kumar, M.D., Sharma, A. & Pardha-Saradhia, P. (2014). Status of wetlands in India: a review of extent, ecosystem benefits, threats and management strategies. Journal of Hydrology: Regional Studies, 2, 119.Google Scholar
Gopal, B. & Sah, M. (1995). Inventory and classification of wetlands in India. Vegetatio, 118, 3948.Google Scholar
Grumbine, R.E. & Pandit, M.K. (2013). Threats from India’s Himalaya dams. Science, 339, 3637.Google Scholar
Horne, J.S., Garton, E.O., Krone, S.M. & Lewis, J.S. (2007). Analyzing animal movements using Brownian bridges. Ecology, 88, 23542363.Google Scholar
Islam, M.Z. & Rahmani, A.R. (2008). Existing and Potential Ramsar Sites of India. Mumbai, India: Oxford University Press.Google Scholar
Kanwal, K.S., Samal, P.K., Lodhi, M.S. & Kuniyal, J. (2013). Climate change and high-altitude wetlands of Arunachal Pradesh. Current Science, 105, 10371038.Google Scholar
Kumar, A., Sati, J.P., Tak, P.C. & Alfred, J.R.B. (2005). Handbook on Indian Wetland Birds and Conservation. Dehradun, India: Shiva Printing Press.Google Scholar
Li, D.Z.W., Bloem, A., Delany, S., Martakis, G. & Quintero, J.O. (2009). Status of Waterbirds in Asia. Results of the Asian Waterbird Census: 1987–2007. Wetlands International, Wageningen, the Netherlands.Google Scholar
Manly, B.F.J., McDonald, L.L. & Thomas, D.L. (1993). Resource Selection by Animals. London, UK: Chapman & Hall.Google Scholar
Nagarajan, R. & Thiyagesan, K. (2006). The effects of coastal shrimp farming on birds in Indian mangrove forests and tidal flat. Acta Zoologica Sinica, 52, 541554.Google Scholar
Panigrahy, S., Murthy, T.V.R., Patel, J.G. & Singh, T.S. (2012) Wetlands of India: inventory and assessment at 1:50,000 scale using geospatial techniques. Current Science, 102, 852856.Google Scholar
R Development Core Team (2008). R: A Language and Environment for Statistical Computing. Vienna, Austria: R Foundation for Statistical Computing.Google Scholar
Rahmani, A.R. & Islam, M.Z. (2008). Ducks, Geese and Swans of India: Their Status and Distribution. Mumbai, India: Oxford University Press.Google Scholar
Ramsar Convention Secretariat (2010). Wise use of wetlands: concepts and approaches for the wise use of wetlands. Ramsar Handbooks for the Wise Use of Wetlands, 4th edition, vol. 1. Ramsar Convention Secretariat, Gland, Switzerland.Google Scholar
Singh, M.P. (2009). Rice Productivity in India under Variable Climates. Proceedings of the MARCO Symposium 2009 ‘Next Challenges of Agro-Environmental Research in Monsoon Asia’. www.niaes.affrc.go.jp/marco/marco2009/english/program/W2-02_Singh_P.pdfGoogle Scholar
Thomas, D. and Taylor, E. (1990). Study designs and tests for comparing resource use and availability. Journal of Wildlife Management, 54, 322330.Google Scholar
Venkataraman, K. (2008). Coastal and marine wetlands in India. Proceedings of the Taal 2007: the 12th World Lake Conference, pp. 392400.Google Scholar
Wetlands International (2002). Waterbird population estimates. Wetlands International, Wageningen, The Netherlands.Google Scholar
Wetlands International (2016). ‘Waterbird Population Estimates’. Retrieved from wpe.wetlands.org on 1 February 2016.Google Scholar

References

Alerstam, T. & Gudmundsson, G.A. (1999). Migration patterns of tundra birds: tracking radar observations along the Northeast Passage. Arctic, 52, 346371.Google Scholar
Ali, S. & Ripley, S.D. (1995). A Pictorial Guide to the Birds of the Indian Subcontinent (2nd ed.). Oxford: Oxford University Press.Google Scholar
Bhatnagar, Y.V., Wangchuk, R., Prins, H.H.T., Van Wieren, S.E. & Mishra, C. (2006). Perceived conflicts between pastoralism and conservation of the kiang Equus kiang in the Ladakh Trans-Himalaya. Environmental Management, 38, 934941.Google Scholar
Bruderer, B. (1999). Three decades of tracking radar studies on bird migration in Europe and the Middle East. In Leshem, Y., Mandalik, Y., Shamoun-Barangs, J. (Eds.) Migrating Birds Know No Boundaries: Proceedings International Seminar on Birds and Flight Safety in the Middle East, Israel. Tel Aviv: Tel Aviv University, pp. 107141.Google Scholar
Bruderer, B. & Jenni, L. (1990). Migration across the Alps. In Gwinner, E. (ed.). Bird Migration. Berlin Heidelberg: Springer, pp. 6077.Google Scholar
Cramp, S. & Simmons, K.E.L. (eds.) (1977). Handbook of the Birds of Europe, the Middle East and North Africa. The Birds of the Western Palaearctic, Vol. I. Ostrich to Ducks. Oxford: Oxford University Press.Google Scholar
Cramp, S. & Simmons, K.E.L. (eds.) (1983). Handbook of the Birds of Europe, the Middle East and North Africa. The Birds of the Western Palaearctic, Vol. III. Waders to Gulls. Oxford: Oxford University Press.Google Scholar
Delany, S., Scott, D., Dodman, T. & Stroud, D. (Eds.) (2009). An Atlas of Wader Populations in Africa and Western Eurasia. Wageningen: Wetlands International.Google Scholar
Dillon, M.E., Frazier, M.R. & Dudley, R. (2006). Into thin air: physiology and evolution of alpine insects. Integrative and Comparative Biology, 46, 4961.Google Scholar
Dragon, S., Carey, C., Martin, K. & Baumann, R. (1999). Effects of high altitude and in vivo adenosine/beta-adrenergic receptor blockade on ATP and 2,3BPG concentrations in red blood cells of avian embryos. Journal of Experimental Biology, 202, 27872795.Google Scholar
Fedde, M.R., Orr, J.A., Shams, H. & Scheid, P. (1989). Cardiopulmonary function in exercising Bar-headed Geese during normoxia and hypoxia. Respiration Physiology, 77, 239252.Google Scholar
Grimmett, R., Inskipp, C. & Inskipp, T. (1999). Pocket Guide to the Birds of the Indian Subcontinent. New Delhi: Oxford University Press.Google Scholar
Hiebl, I. & Braunitzer, G. (1988). Anpassungen der Haemmoglobine von Streifengans (Anser indicus), Andengans (Chloephaga melanoptera) und Sperbergeier (Gyps rueppellii) an hypoxische Bedingungen. Journal fuer Ornithologie, 129, 217226.Google Scholar
Jacobsen, D. (2008). Low oxygen pressure as a driving factor for the altitudinal decline in taxon richness of stream macro invertebrates. Oecologia, 154, 795807.Google Scholar
Landmann, A. & Winding, N. (1993). Niche segregation in high-altitude Himalaya chats (Aves, Turdidae): does morphology match ecology? Oecologia, 95, 506519.Google Scholar
Landmann, A. & Winding, N. (1995a). Adaptive radiation and resource partitioning in Himalayan high-altitude finches. Zoology (Jena), 99, 820.Google Scholar
Landmann, A. & Winding, N. (1995b). Guild organisation and morphology of high-altitude granivorous and insectivorous birds: convergent evolution in an extreme environment. Oikos, 73, 237250.Google Scholar
Liechti, F. & Schaller, E. (1999). The use of low-level jets by migrating birds. Naturwissenschaffen, 86, 549551.Google Scholar
Liu, N. (2000). Breeding of Beicki’s blood pheasant (Ithaginis cruentus beicki) in northwestern Gansu, China. Game and Wildlife Science, 17, 1727.Google Scholar
Mani, M.S. (1978). Ecology & Phytogeography of High-Altitude Plants of the Northwest Himalaya. London: Chapman & Hall.Google Scholar
Marquiss, M. & Duncan, K. (1993). Variation in the abundance of Red-breasted Mergansers Mergus serrator on a Scottish river in relation to season, year, river hydrography, salmon density and spring culling. Ibis, 135, 3341.Google Scholar
McLure, H.E. (1974). Migration and Survival of the Birds of Asia. United States Army Medical Component, South East Asia Treaty Organisation (SEATO) Medical Project, Bangkok.Google Scholar
Mishra, C. (2001). High Altitude Survival: Conflicts between Pastoralism and Wildlife in the Trans-Himalaya. PhD thesis, Wageningen UniversityGoogle Scholar
Namgail, T., van Wieren, S.E. & Prins, H.H.T. (2010). Pashmina production and socio-economic changes in the Indian Changthang: implications for natural resource management. Natural Resources Forum, 34, 222230.Google Scholar
Nummi, P. & Poysa, H. (1995). Breeding success of ducks in relation to different habitat factors. Ibis, 137, 145150.Google Scholar
Pfister, O. (2004). Birds & Mammals of Ladakh. New Delhi: Oxford University Press.Google Scholar
Prins, H.H.T. & van Wieren, S.E. (2004). Number, population structure and habitat use of Bar-headed Geese Anser indicus in Ladakh (India) during the brood-rearing period. Acta Zoologica Sinica, 50, 738744.Google Scholar
Rogacheva, H. (1992). The Birds of Central Siberia. Husum: Husum Druck- und Verlaggesellschaft.Google Scholar
Shimazaki, H., Tamura, M., Darman, Y., et al. (2004). Network analysis of potential migration routes for Oriental White Storks (Ciconia boyciana). Ecological Research, 19, 683689.Google Scholar
Si, Y., Xin, Q., de Boer, W.F., Gong, P., Ydenberg, R.C. & Prins, H.H.T. (2015). Do Arctic breeding geese track or overtake a green wave during spring migration? Scientific Reports, 5, 8749.Google Scholar
Singh, R., Sharma, R.K. & Babu, S. (2015). Pastoralism in transitions: livestock abundance and composition in Spiti, Trans-Himalayan Region. Human Ecology, 43: 799810.Google Scholar
Velarde, F.L., Espinoza, D., Monge, C.C. & de Muizon, C. (1991). A genetic response to high altitude hypoxia: high hemoglobin-oxygen affinity in chickens (Gallus gallus) from the Peruvian Andes. Comptes Rendus de l’Academie des Sciences, serie III Sciences de la Vie, 313, 401406.Google Scholar
Velarde, F.L., Mejia, O., Palacios, J.A. & Monge, C.C. (1997a). Changes in whole blood oxygen affinity and eggshell permeability in high altitude chickens translocated to sea level. Comparative Biochemistry and Physiology B, 118, 5357.Google Scholar
Velarde, F.L., Monge, C.C. & Carey, C. (1997b). Physiological strategies of oxygen transport in high altitude bird embryos. Comparative Biochemistry and Physiology A, 118, 3137.Google Scholar
Velarde, F.L., Sanchez, J., Bigard, A.X., Brunet, A., Lesley, C. & Monge, C.C. (1993). High altitude tissue adaptation in Andean coots: capillary, fibre area, fibre type and enzymatic activities of skeletal muscles. Journal of Comparative Physiology B Biochemical Systemic and Environmental Physiology, 163, 5258.Google Scholar
Verberk, W.C.E.P., Bilton, D.T., Calosi, P. & Spicer, J.I. (2011). Oxygen supply in aquatic ectotherms: partial pressure and solubility together explain biodiversity and size patterns. Ecology, 92, 15651572.Google Scholar
Weber, R.E., Jessen, T.H., Malte, H. & Tame, J. (1993). Mutant hemoglobins (alpha-119-Ala and beta-55-Ser): functions related to high altitude respiration in geese. Journal of Applied Physiology, 75, 26462655.Google Scholar
Ydenberg, R.C., Butler, R.W., Lank, D.B., Smith, B.D. & Ireland, J. (2004). Western sandpipers have altered migration tactics as peregrine falcon populations have recovered. Proceedings of the Royal Society of London, Series B: Biological Sciences, 271, 12631269.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×