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Climatic Change

, Volume 70, Issue 1–2, pp 73–116 | Cite as

Impacts of Present and Future Climate Variability On Agriculture and Forestry in the Humid and Sub-Humid Tropics

  • Yanxia Zhao
  • Chunyi Wang
  • Shili Wang
  • Lourdes V. Tibig
Article

Abstract

Although there are different results from different studies, most assessments indicate that climate variability would have negative effects on agriculture and forestry in the humid and sub-humid tropics. Cereal crop yields would decrease generally with even minimal increases in temperature. For commercial crops, extreme events such as cyclones, droughts and floods lead to larger damages than only changes of mean climate. Impacts of climate variability on livestock mainly include two aspects; impacts on animals such as increase of heat and disease stress-related death, and impacts on pasture. As to forestry, climate variability would have negative as well as some positive impacts on forests of humid and sub-humid tropics. However, in most tropical regions, the impacts of human activities such as deforestation will be more important than climate variability and climate change in determining natural forest cover.

Keywords

Climate Change Human Activity Cyclone Positive Impact Crop Yield 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Aceituno, P.: 1988, ‘On the functioning of the southern-oscillation in the South America sector’, Monitor. Weather Rev. 116, 505–524.CrossRefGoogle Scholar
  2. Amadore, L. A., Bolhofer, W. C., Cruz, R. V., Feir, R. B., Freysinger, C. A., Guill, S., Jalal, K. F., Iglesias, A., Jose, A., Leatherman, S., Lenhart, S., Mukherjee, S. K., Smith, J., and Wisniewski, J.: 1996, ‘Climate change vulnerability and adaptation in Asia and the Pacific: Workshop summary’, Water Air Soil Pollut. 92, 1–12.Google Scholar
  3. Bawa, K. S. and Dayanandan, S.: 1998, ‘Global climate change and tropical forest genetic resources’, Climatic Change 39, 473–485.CrossRefGoogle Scholar
  4. Bazzaz, F. A.: 1998, ‘Tropical forests in a future climate: changes in biological diversity and impact on the global carbon cycle’, in S. H. Schneider (ed.), Climate Change, Special Issue: Potential Impacts of Climate Change on Tropical Forest Ecosystems, Kluwer Academic Publishers, London, pp. 177–336.Google Scholar
  5. Berman, A.: 1991, ‘Reproductive responses under high temperature conditions’, in Ronchi, B., et al. (eds.), Animal Husbandry in Warm Climates, EAAP Publication No. 55, EAAP, pp. 23–30.Google Scholar
  6. Boonpragob, K. and Santisirisomboon, J.: 1996, ‘Modeling potential impacts of climate changes of forest area in Thailand under climate change’, Water Air Soil Pollut. 92, 107–117.Google Scholar
  7. Brown, H. C. P. and Thomas, V. G.: 1990, ‘Ecological considerations for the future of food security in Africa’, in Edwards, C. A., et al. (eds.), Sustainable Agricultural Systems, Soil and Water Conservation Society, Ankeny, Iowa, pp. 353–377.Google Scholar
  8. Brown, S.: 1997, Estimating Biomass and Biomass Change of Tropical Forests: A Primer, FAO Forestry Paper 134, Rome, Italy.Google Scholar
  9. Buan, R. D., Maglinao, A. R., Evangelista, P. P., and Pajuelas, B. G.: 1996, ‘Vulnerability of rice and corn to climate change in the Philippines’, Water Air Soil Pollut. 92, 41–51.Google Scholar
  10. Centeno, H. G. S., Balbarez, A. D., Fabellar, N. G., Kroff, M. J., and Matthews, R. B.: 1995, pp. 237–251.Google Scholar
  11. Cruz, R. V. O.: 1997, in Proceedings of the Impacts of Climate Change on Tropical Ecosystems in the Consultation Meeting for the 1998 International Conference on Tropical Forests and Climate Change.Google Scholar
  12. Davies, M. B. and Zabinski, C.: 1992, ‘Changes in geographical range resulting from greenhouse warming: Effects on biodiversity in forests’, in R. L. Peters and T. E. Lovejoy (eds.), Global Warming and Biological Diversity, Yale University Press, New Haven, CT, USA, pp. 297–308.Google Scholar
  13. Ellery, W., Scholes, M. C., and Scholes, R. J.: 1996, ‘The distribution o sweetveld and sourveld in South Africa’s grassland biome in relation to environmental factors’, African Journal of Range and Forage Science 12, 38–45.Google Scholar
  14. FAO and UNEP: 1981, ‘Forest resources of tropical africa, Asia, and the Americas’, Food and agriculture organization of the United Nations, Rome, Italy.Google Scholar
  15. FAO: 1997, State of the World’s Forests 1997, U.N., Food and Agriculture Organization, Rome, Italy, p. 200.Google Scholar
  16. Gregory, P., Ingram, J., Campbell, B., Goudriaan, J., Hunt, T., et al.: 1999, ‘Managed production systems’, in Walker, B., et al. (eds.), The Terrestrial Biosphere and Global Change, Cambridge University Press, UK, pp. 22–270.Google Scholar
  17. Fearnside, P. M.: 1995, ‘Global warming response options in Brazil’s forest sector: comparison of project-level costs and benefits’, Biomass and Energy 8, 309–322.CrossRefGoogle Scholar
  18. Goldammer, J. G. and Price, C.: 1998, ‘Potential impacts of climate change on fire regimes in the tropics based on MAGICC and a GISS GCM-derived lightning model’, Climatic Change 39, 273–296.CrossRefGoogle Scholar
  19. Grandstaff, T. B.: 1981, ‘Shifting cultivation’,Ceres 4, 28–30.Google Scholar
  20. Hahn, G. L.: 1999, ‘Dynamic responses of cattle to thermal heat loads’,J. Animal Sci. 77(2), 10–20.Google Scholar
  21. Hahn, G. L. and Mader, T. L.: 1997, ‘Heat waves in relation to thermoregulation, feeding behavior, and mortality of feedlot cattle’, in Proceedings of the 5th International Livestock Environment Symposium, Minneapolis, MN, USA, pp. 563–571.Google Scholar
  22. Hastenrath, S. and Greischar, L.: 1993, ‘Further work on northeast Brazil rainfall anomalies’, Journal of Climate 6, 743–758.CrossRefGoogle Scholar
  23. Holland, G. J.: 1997, ‘The maximum potential intensity of tropical cyclones’, J. Atmos. Sci. 54, 2519–2541.CrossRefGoogle Scholar
  24. Horel, J. D. and Cornejo-Garrido, A. G.: 1986, ‘Convection along the Coast of Northern Perú, during 1983: Spatial and temporal variations of clouds and rainfall’, Monitor. Weather Rev. 114, 2091–2105.CrossRefGoogle Scholar
  25. Hulme, M. (ed): 1996, Climate Change in Southern Africa: An Exploration of Some Potential Impacts and Implications in the SADC Region, Climatic Research Unit, University of East Anglia, Norwich, United Kingdom, p. 96.Google Scholar
  26. Iglesias, L. Erda and Rosenzweig, C.: 1996, ‘Climate change in Asia: A review of vulnerability and adaptation of crop production’, Water Air Soil Pollut. 92, 13–21.Google Scholar
  27. IPCC: 1996, ‘Climate change 1995: Impacts, adaptations, and mitigation of climate change: Scientific–technical analyses’, in Watson, R. T., Zinyowera, M. C., and Moss, R. H. (eds.), Contribution of Working Group II to the Second Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, USA, p. 880.Google Scholar
  28. IPCC: 1998, ‘The regional impacts of climate change: An assessment of vulnerability’, in Watson, R. T., Zinyowera, M. C., and Moss, R. H. (eds.), Special Report of IPCC Working Group II, Cambridge University Press, Cambridge, United Kingdom and New York, USA, p. 517.Google Scholar
  29. IPCC: 2001, ‘Climate change 2001: Impacts, adaptation, and vulnerability’, in McCarthy, J. J., Canziani, O. F., Leary, N. A., Dokken, D. J. and White, K. S. (eds.), Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, USA, p. 1032.Google Scholar
  30. Jallow, B. P. and Danso, A. A.: 1997, ‘Assessment of the vulnerability of the forest resources of The Gambia to climate change’, in Republic of The Gambia: Final Report of The Gambia/U.S. Country Study Program Project on Assessment of the Vulnerability of the Major Economic Sectors of The Gambia to the Projected Climate Change, Banjul, The Gambia, (unpublished).Google Scholar
  31. Kirschbaum, M. U. F.: 1998, ‘The impacts of climate change on the growth and ecology of tropical forests’, in Proceedings of the International Conference on Tropical Forests and Climate Change: Status, Issues and Challenges (TFFC’98), College of Forestry and Natural Resources, University of the Philippines, Los Baños, Philippines, pp. 19–44.Google Scholar
  32. Klinedinst, P. L., Wilhite, D. A., Hahn, G. L., and Hubbard, K. G.: 1993, ‘The potential effects of climate change on summer season dairy cattle milk production and reproduction’, Climatic Change 23(1), 21–36.CrossRefGoogle Scholar
  33. Kovats, R. S., Bouma, M. J., and Haines, A.: 1999, El Niño and Health, WHO/SDE/PHE/99.4, World Health Organization, Geneva, Switzerland, p. 48.Google Scholar
  34. Kropff, M. J., Matthews, R. B., Van Laar, J. J., and Ten Berge, J. F. M.: 1995, ‘The rice model ORYZA1 and its testing’, in Matthews, R. B., Kropff, M. J., Bachelet, D. and Van Laar, H. H (eds.), Modeling the Impact of Climate Change on Rice Production in Asia, International Rice Research Institute (Philippines) and CAB International, Wallingford, Oxon, United Kingdom, pp. 27–50.Google Scholar
  35. Lal, R.: 1991, ‘Myths and scientific realities of agroforestry as a strategy for sustainable management of soils in the tropics’, Adv. Soil Sci. 15, 91–137.Google Scholar
  36. Lugo, A. E.: 1988, ‘The future of the forest: Ecosystem rehabilitation in the tropics’, Environment 30(7), 16–22, 41–45.Google Scholar
  37. Linear, M.: 1985, ‘The tsetse war’, Ecologist 15, 27–35.Google Scholar
  38. Mace, G. M., Balmford, A., and Ginsberg, J. R. (eds.): 1998, Conservation in a Changing World, Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, p. 308.Google Scholar
  39. Matthews, R. B., Kropff, M. J., Bachelet, D., and Van Laar, H. H.: 1995, Modeling the Impact of Climate Change on Rice Production in Asia. International Rice Research Institute (Philippines) and CAB International, Wallingford, Oxon, United Kingdom, p. 289.Google Scholar
  40. National Research Council: 1993, Sustainable Agriculture and the Environment in the Humid Tropics, National Academy Press, Washington, DC, pp. 5–137.Google Scholar
  41. Nieuwolt, S.: 1977, Tropical Climatology: An Introduction to the Climates of the Low Latitudes, The Gresham Press, Surrey, p. 207.Google Scholar
  42. Odingo, R. S.: 1990, ‘Implications for African agriculture of the greenhouse effect’, in H. W. Scharpenseel, M. Schomker, and A. Ayoub (eds.), Soils on a Warmer Earth: Proceedings of an International Workshop in Effects of Expected Climate Change on Soil Processes in the Tropics and Subtropics, Nairobi, Kenya, Elsevier Press, New York, NY, USA. p.274.Google Scholar
  43. Oechel, W. C. and Strain, B. R.: 1985, ‘Native species responses to increased carbon dioxide concentration’, in Strain, B. R. (ed.), Direct Effects of Increasing Carbon Dioxide on Vegetation, NTIS, Springfield, VA, pp. 117–154.Google Scholar
  44. Oliver, J. E. and Hidore, J. J.: 1984, Climatology: An introduction, Charles E. Merrill Publishing Company and Bell & Howell Company, Columbus, Ohio, pp. 381, 189.Google Scholar
  45. Oliver, John E. and Hidore, John J.: 1984, ‘Climatology’, Charles E. Merrill Publishing Company, Columbus, p. 198.Google Scholar
  46. PAGASA: 2001a, Documentation and Analysis of Impacts of and Responses to Extreme Climate Events: The Agriculture Sector, PAGASA Publication, Quezon City, Philippines, 43 pp.Google Scholar
  47. PAGASA: 2001b, Documentation and Analysis of Impacts of and Responses to Extreme Climate Events: The Environment Sector, PAGASA Publication, Quezon City, Philippines, 21 pp.Google Scholar
  48. Parry, M., Rosenzweig, C., Iglesias, A., Fischer, G., and Livermore, M.: 1999, ‘Climate change and world food security: A new assessment’, Global Environmental Change 9, S51–S67.CrossRefGoogle Scholar
  49. Parton, W. J., Coughenour, M. B., Scurlock, J. M. O., and Ojima, D. S.: 1996, ‘Global grassland ecosystem modeling: Development and test of ecosystem models for grassland ecosystems’, in Breymeyer, A. I., et al. (eds.), Global Change: Effects on Coniferous Forests and Grasslands, Scientific Committee on Problems of the Environment (SCOPE), Chichester, NY, USA, Wiley, pp. 229–269.Google Scholar
  50. Paul, B. and Rashid, H.: 1993, ‘Flood damage to rice crop in Bangladesh’, Geo. Rev. 83(2), 151–159.Google Scholar
  51. Phillips, O. L.: 1997, ‘The changing ecology of tropical forests’ Biodiversity and Conservation 6, 291–311.CrossRefGoogle Scholar
  52. Pimentel, D.: 1993, ‘Climate changes and food supply’, Forum for Applied Research and Public Policy 8(4), 54–60.Google Scholar
  53. Poore D., Burgess, P., Palmer, J., Rietbergen, S., and Synnott, T., et al.: 1990, ‘No timber without trees, sustainability in the tropical forest’, A Study for ITTO, Earscan Publicans, London, p. 252.Google Scholar
  54. Rao, V. B., Satyamurty, P., and Brito, J. I. B.: 1986, ‘On the 1983 drought in Northeast Brazil’, J. Clim. 6, 43–51.Google Scholar
  55. Rosenzweig, C., Parry, M. L., Fischer, G., and Frohberg, K.: 1993, ‘Climate change and world food supply’, Research Report No. 3, Environmental Change Unit, Oxford University, Oxford, United Kingdom, p. 28.Google Scholar
  56. Rounsevell, M. D. A., Evans, S. P., and Bullick, P.: 1999, ‘Climate change and agricultural soils-impacts and adaptation’, Climate Change 43, 683–709.CrossRefGoogle Scholar
  57. Shukla, J., Nobre, C., and Sellers, P.: 1990, ‘Amazon deforestation and climate change’, Science 247, 1322–1325.Google Scholar
  58. Sinha, S. K., Rai, M., and Singh, G. B.: 1998, Decline in Productivity in Punjab and Haryana: A Myth or Reality? Indian Council of Agricultural Research (ICAR) Publication, New Delhi, India, p. 89.Google Scholar
  59. Skole, D. and Tucker, C.: 1993, ‘Tropical deforestation and habitat fragmentation in the Amazon: Satellite data from 1978 to 1988’, Science 260, 1905–1910.Google Scholar
  60. Somaratne, S. and Dhanapala, A. H.: 1996, ‘Potential impact of global climate change on forest distribution in Sri Lanka’, Water, Air, and Soil Pollution 92, 129–135.Google Scholar
  61. Solbrig, O., Goldstein, G., Medina, E., Sarmiento, G., and Silva, J. F.: 1992, ‘Responses of tropical savannas to stress and disturbance: A research approach’, in Wail, M. K. (ed.), Ecosystem Rehabilitation, vol. 2, SPB Academica Publishing, The Hague, The Netherlands, pp. 63–73.Google Scholar
  62. Somaratne, S. and Dhanapala, A. H.: 1996, ‘Potential impact of global climate change on forest distribution in Sri Lanka’, Water Soil Air Pollut. 92, 129–135.Google Scholar
  63. Webster, C. C. and Wilson, P. N.: 1980, Agriculture in the Tropics, Longman, New York, pp. 1–10.Google Scholar
  64. Whetton, P. H. and Rutherford, I.: 1994, ‘Historical ENSO teleconnections in the eastern hemisphere’, Climate Change 28, 221–253.CrossRefGoogle Scholar
  65. Wijeratne, M. A.: 1996, ‘Vulnerability of Sri Lanka tea production to global climate change’,Water Air Soil Pollut.92, 87–94.Google Scholar

Copyright information

© Springer Science + Business Media, Inc. 2005

Authors and Affiliations

  • Yanxia Zhao
    • 1
    • 2
  • Chunyi Wang
    • 1
  • Shili Wang
    • 1
  • Lourdes V. Tibig
    • 3
  1. 1.Chinese Academy of Meteorological SciencesChina Meteorological AdministrationBeijingChina
  2. 2.School of PhysicsPeking UniversityBeijingChina
  3. 3.Phllippine AtmosphericGeophysical and Astronomical Services AdministrationQuezon CityPhilippines

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