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CHAPTER FIFTEEN - Altered grazing systems: pastoralism to conventional agriculture

from Part III - Dealing with climate change effects

Published online by Cambridge University Press:  22 March 2019

David J. Gibson
Affiliation:
Southern Illinois University, Carbondale
Jonathan A. Newman
Affiliation:
University of Guelph, Ontario
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Print publication year: 2019

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References

15.7 References

Galvin, KA. Transitions: pastoralists living with change. Annual Review of Anthropology. 2009;38:185–98.CrossRefGoogle Scholar
Boserup, E. The conditions of agricultural growth: the economics of agrarian change under population pressure. London: Aldine Publishing Company; 1965.Google Scholar
McIntire, J, Bourzat, D, Pingali, P. Crop–livestock interaction in sub-Saharan Africa. Washington, DC: The World Bank; 1992.Google Scholar
Venables, AJ, Limão, N. Geographical disadvantage. Policy Research Working Paper 2256. Washington, DC: The World Bank; 1999.Google Scholar
Steffen, W, Broadgate, W, Deutsch, L, Gaffney, O, Ludwig, C. The trajectory of the Anthropocene: the great acceleration. The Anthropocene Review. 2015;2(1):8198.Google Scholar
Homewood, K, Lambin, EF, Coast, E, Kariuki, A, Kikula, I, Kivelia, J, et al. Long-term changes in Serengeti–Mara wildebeest and land cover: pastoralism, population, or policies? Proceedings of the National Academy of Sciences of the USA. 2001;98(22):12,544–9.CrossRefGoogle ScholarPubMed
Steinfeld, H, Gerber, P, Wassenaar, T, Castel, V, de Haan, C. Livestock’s long shadow: environmental issues and options. Rome: Food & Agriculture Organization; 2006.Google Scholar
Herrero, M, Addison, J, Bedelian, C, Carabine, E, Havlík, P, Henderson, B, et al. Climate change and pastoralism: impacts, consequences and adaptation. Revue Scientifique et Technique, Office International des Epizooties. 2016;35(2):417–33.Google Scholar
Hobbs, NT, Galvin, KA, Stokes, CJ, Lackett, JM, Ash, AJ, Boone, RB, et al. Fragmentation of rangelands: implications for humans, animals, and landscapes. Global Environmental Change. 2008;18(4):776–85.Google Scholar
Thornton, PK, van de Steeg, J, Notenbaert, A, Herrero, M. The impacts of climate change on livestock and livestock systems in developing countries: a review of what we know and what we need to know. Agricultural Systems. 2009;101(3):113–27.Google Scholar
Reid, RS, Fernández-Giménez, ME, Galvin, KA. Dynamics and resilience of rangelands and pastoral peoples around the globe. Annual Review of Environment and Resources. 2014;39:217–42.Google Scholar
Porter, JR, Xie, L, Challinor, AJ, Cochrane, K, Howden, SM, Iqbal, MM, et al. Food security and food production systems. In: Field, CB, Barros, VR, editors. Climate change 2014: impacts, adaptation and vulnerability part A: global and sectoral aspects. Cambridge: Cambridge University Press; 2014.Google Scholar
Boone, RB, Conant, RT, Sircely, J, Thornton, PK, Herrero, M. Climate change impacts on selected global rangeland ecosystem services. Global Change Biology. 2018;24(3):1382–93.Google Scholar
Havlík, P, Leclère, D, Valin, H, Herrero, M, Schmid, E, Soussana, JF, et al. Global climate change, food supply and livestock production systems: a bioeconomic analysis. In: Elbehri, A, editor. Climate change and food systems: global assessments and implications for food security and trade. Rome: Food & Agriculture Organization; 2015.Google Scholar
Homewood, K, Kristjanson, P, Trench, P. Staying Maasai? Livelihoods, conservation and development in East African rangelands. New York, NY: Springer; 2009.Google Scholar
Thornton, PK, Herrero, M. Adapting to climate change in the mixed crop and livestock farming systems in sub-Saharan Africa. Nature Climate Change. 2015;5(9):830.Google Scholar
Reid, RS, Galvin, KA, Kruska, RS. Fragmentation in semi-arid and arid landscapes. In: Galvin, KA, Reid, RS, Behnke, R, Hobbs, NT, editors. Consequences for human and natural systems. Dordrecht: Springer; 2008. pp. 124.Google Scholar
Turner, MD, McPeak, JG, Ayantunde, A. The role of livestock mobility in the livelihood strategies of rural peoples in semi-arid West Africa. Human Ecology. 2014;42(2):231–47.Google Scholar
Megersa, B, Markemann, A, Angassa, A, Ogutu, JO, Piepho, H-P, Zárate, AV. Livestock diversification: an adaptive strategy to climate and rangeland ecosystem changes in southern Ethiopia. Human Ecology. 2014;42(4):509–20.Google Scholar
Lennox, E. Double exposure to climate change and globalization in a Peruvian highland community. Society & Natural Resources. 2015;28(7):781–96.Google Scholar
Shackleton, R, Shackleton, C, Shackleton, S, Gambiza, J. Deagrarianisation and forest revegetation in a biodiversity hotspot on the Wild Coast, South Africa. PLoS ONE. 2013;8(10):e76939.Google Scholar
Liao, C, Fei, D. Sedentarization as constrained adaptation: evidence from pastoral regions in far northwestern China. Human Ecology. 2017;45(1):2335.Google Scholar
López-i-Gelats, F, Paco, JC, Huayra, RH, Robles, ODS, Peña, ECQ, Filella, JB. Adaptation strategies of Andean pastoralist households to both climate and non-climate changes. Human Ecology. 2015;43(2):267–82.CrossRefGoogle Scholar
Namgay, K, Millar, JE, Black, RS, Samdup, T. Changes in transhumant agro-pastoralism in Bhutan: a disappearing livelihood? Human Ecology. 2014;42(5):779–92.Google Scholar
Xu, J, Yang, Y, Li, Z, Tashi, N, Sharma, R, Fang, J. Understanding land use, livelihoods, and health transitions among Tibetan nomads: a case from Gangga Township, Dingri County, Tibetan Autonomous Region of China. EcoHealth. 2008;5(2):104.Google Scholar
Schmidt, M, Pearson, O. Pastoral livelihoods under pressure: ecological, political and socioeconomic transitions in Afar (Ethiopia). Journal of Arid Environments. 2016;124:2230.Google Scholar
Galvin, KA, Beeton, TA, Boone, RB, BurnSilver, SB. Nutritional status of Maasai pastoralists under change. Human Ecology. 2015;43(3):411–24.Google Scholar
Lkhagvadorj, D, Hauck, M, Dulamsuren, C, Tsogtbaatar, J. Pastoral nomadism in the forest-steppe of the Mongolian Altai under a changing economy and a warming climate. Journal of Arid Environments. 2013;88:82–9.Google Scholar
Ogalleh, SA, Vogl, CR, Eitzinger, J, Hauser, M. Local perceptions and responses to climate change and variability: the case of Laikipia District, Kenya. Sustainability. 2012;4(12):3302–25.Google Scholar
Rufino, MC, Thornton, PK, Mutie, I, Jones, PG, Van Wijk, MT, Herrero, M. Transitions in agro-pastoralist systems of East Africa: impacts on food security and poverty. Agriculture, Ecosystems & Environment. 2013;179:215–30.Google Scholar
Antwi-Agyei, P, Stringer, LC, Dougill, AJ. Livelihood adaptations to climate variability: insights from farming households in Ghana. Regional Environmental Change. 2014;14(4):1615–26.CrossRefGoogle Scholar
Ash, A, Thornton, P, Stokes, C, Togtohyn, C. Is proactive adaptation to climate change necessary in grazed rangelands? Rangeland Ecology & Management. 2012;65(6):563–8.Google Scholar
de Leeuw, J, Osano, P, Said, MY, Ayantunde, AA, Dube, S, Neely, C, et al. Pastoral farming systems and food security in Sub-Saharan Africa. Priorities for science and policy. In: Dixon, J, Garrity, DP, Boffa, J-M, Williams, TO, Amede, T, Auricht, C, et al., editors. Farming systems and food security in Africa: priorities for science and policy under global change. London: Routledge; 2017.Google Scholar
Thornton, PK, Boone, RB, Ramirez-Villegas, J. Climate change impacts on livestock. CCAFS Working Paper no. 120. Copenhagen: CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS); 2015.Google Scholar
Asongu, SA, Nwachukwu, JC. The mobile phone in the diffusion of knowledge for institutional quality in sub-Saharan Africa. World Development. 2016;86:133–47.Google Scholar
Rogelj, J, Schaeffer, M, Friedlingstein, P, Gillett, NP, Van Vuuren, DP, Riahi, K, et al. Differences between carbon budget estimates unravelled. Nature Climate Change. 2016;6(3):245.Google Scholar
Doherty, RM, Sitch, S, Smith, B, Lewis, SL, Thornton, PK. Implications of future climate and atmospheric CO2 content for regional biogeochemistry, biogeography and ecosystem services across East Africa. Global Change Biology. 2010;16(2):617–40.Google Scholar
Jones, PG, Thornton, PK. Croppers to livestock keepers: livelihood transitions to 2050 in Africa due to climate change. Environmental Science & Policy. 2009;12(4):427–37.Google Scholar
Weindl, I, Lotze-Campen, H, Popp, A, Müller, C, Havlík, P, Herrero, M, et al. Livestock in a changing climate: production system transitions as an adaptation strategy for agriculture. Environmental Research Letters. 2015;10(9):094021.Google Scholar
Havlík, P, Valin, H, Herrero, M, Obersteiner, M, Schmid, E, Rufino, MC, et al. Climate change mitigation through livestock system transitions. Proceedings of the National Academy of Sciences of the USA. 2014;111(10):3709–14.Google Scholar
Lieffering, M, Newton, PCD, Vibart, R, Li, FY. Exploring climate change impacts and adaptations of extensive pastoral agriculture systems by combining biophysical simulation and farm system models. Agricultural Systems. 2016;144:7786.Google Scholar
Thornton, PK, Boone, RB, Galvin, KA, BurnSilver, SB, Waithaka, MM, Kuyiah, J, et al. Coping strategies in livestock-dependent households in east and southern Africa: a synthesis of four case studies. Human Ecology. 2007;35(4):461–76.Google Scholar
Puig, CJ, Greiner, R, Huchery, C, Perkins, I, Bowen, L, Collier, N, et al. Beyond cattle: potential futures of the pastoral industry in the Northern Territory. The Rangeland Journal. 2011;33(2):181–94.Google Scholar
Murakami, D, Yamagata, Y. Estimation of gridded population and GDP scenarios with spatially explicit statistical downscaling. arXiv preprint arXiv:161009041. 2016.Google Scholar
Nelson, A. Estimated travel time to the nearest city of 50,000 or more people in year 2000. Global Environment Monitoring Unit–Joint Research Centre of the European Commission, Ispra, Italy. Available at http://biovaljrceceuropaeu/products/gam/ (accessed 11/07/2017). 2008.Google Scholar
Jurković, RS, Pasarić, Z. Spatial variability of annual precipitation using globally gridded data sets from 1951 to 2000. International Journal of Climatology. 2013;33(3):690–8.Google Scholar
Schilling, J, Akuno, M, Scheffran, J, Weinzierl, T. On raids and relations: climate change, pastoral conflict and adaptation in northwestern Kenya. In: Bronkhorst, S, Urmilla, B, editors. Climate change and conflict: where to for conflict sensitive climate adaptation in Africa? Berlin: Wissenschaftsverlag; 2014. pp. 241–68.Google Scholar
Lipper, L, Thornton, P, Campbell, BM, Baedeker, T, Braimoh, A, Bwalya, M, et al. Climate-smart agriculture for food security. Nature Climate Change. 2014;4(12):1068.Google Scholar
Butler, CK, Gates, S. African range wars: climate, conflict, and property rights. Journal of Peace Research. 2012;49(1):2334.Google Scholar
Davis, J, Lopez-Carr, D. Migration, remittances and smallholder decision-making: implications for land use and livelihood change in Central America. Land Use Policy. 2014;36:319–29.Google Scholar
Jensen, ND, Barrett, CB, Mude, AG. Index insurance quality and basis risk: evidence from northern Kenya. American Journal of Agricultural Economics. 2016;98(5):1450–69.Google Scholar
Köhler-Rollefson, I. Innovations and diverse livelihood pathways: alternative livelihoods, livelihood diversification and societal transformation in pastoral communities. Revue Scientifique et Technique–Office International des Epizooties. 2016;35(2):611–8.Google Scholar
Greiner, R, Puig, J, Huchery, C, Collier, N, Garnett, ST. Scenario modelling to support industry strategic planning and decision making. Environmental Modelling & Software. 2014;55:120–31.Google Scholar
Vervoort, JM, Bendor, R, Kelliher, A, Strik, O, Helfgott, AER. Scenarios and the art of worldmaking. Futures. 2015;74:6270.Google Scholar

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