Climatic Change

, Volume 119, Issue 3–4, pp 575–583 | Cite as

Reconciling approaches to climate change adaptation for Colombian agriculture

  • Julian Ramirez-Villegas
  • Colin K. Khoury


The projected impact of climate change on agro-ecological systems is considered widespread and significant, particularly across the global tropics. As in many other countries, adaptation to climate change is likely to be an important challenge for Colombian agricultural systems. In a recent study, a national-level assessment of the likely future impacts of climate change on agriculture was performed (Ramirez-Villegas et al. Clim Chang 115:611–628, 2012, RV2012). The study diagnosed key challenges directly affecting major crops and regions within the Colombian agricultural system and suggested a number of actions thought to facilitate adaptation, while refraining from proposing specific strategies at local scales. Further insights on the study were published by Feola (2013) (F2013), who stressed the need for transformative adaptation processes to reduce vulnerability particularly of resource-limited farmers, and the benefits of a predominantly stakeholder-led approach to adaptation. We clarify that the recommendations outlined in RV2012 were not intended as a recipe for multi-scale adaptation, but rather a set of actions that are required to diagnose and develop adaptation actions particularly at governmental levels in coordination with national and international adaptation initiatives. Such adaptation actions ought to be, ideally, a product of inclusive sub-sectorial assessments, which can take different forms. We argue that Colombian agriculture as a whole would benefit from a better outlining of adaptation needs across temporal scales in sub-sectorial assessments that take into account both RV2012 and F2013 orientations to adaptation. We conclude with two case studies of research on climate change impacts and adaptation developed in Colombia that serve as examples of realistic, productive sectorial and sub-national assessments.


Climate Change Impact Colombia Climate Change Adaptation Adaptation Planning Adaptation Initiative 
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.



Authors acknowledge the support of the CGIAR-ESSP Research Program on Climate Change, Agriculture and Food Security (CCAFS). JRV thanks Prof. Andy Challinor from University of Leeds for insightful discussions on signal-to-noise ratio and adaptation. Authors thank Caitlin Corner-Dolloff from CIAT for discussions and literature related to transformative societal change.


  1. Agrawal A (1995) Dismantling the divide between indigenous and scientific knowledge. Dev Chang 26:413–439CrossRefGoogle Scholar
  2. Arguello RC, Lozano MC (2007) Agricultural sector and competition policy in Colombia. Universidad del Rosario, Facultad de Economía, Bogotá, ColombiaGoogle Scholar
  3. Battisti DS, Naylor RL (2009) Historical warnings of future food insecurity with unprecedented seasonal heat. Science 323:240–244CrossRefGoogle Scholar
  4. Challinor AJ, Simelton ES, Fraser EDG, Hemming D, Collins M (2010) Increased crop failure due to climate change: assessing adaptation options using models and socio-economic data for wheat in China. Environ Res Lett 5:034012CrossRefGoogle Scholar
  5. Claessens L, Antle JM, Stoorvogel JJ, Valdivia RO, Thornton PK, Herrero M (2012) A method for evaluating climate change adaptation strategies for small-scale farmers using survey, experimental and modeled data. Agric Syst 111:85–95CrossRefGoogle Scholar
  6. Costa Posada C (2007) La adaptación al cambio climático en Colombia. Rev Ing 26:74–80Google Scholar
  7. Deininger K, Lavadenz I (2004) Colombia: Política agraria en transición. En breve, World BankGoogle Scholar
  8. DNP (2011a) Documento CONPES 3700: Estrategia Institucional para la Articulación de Políticas y Acciones en Materia de Cambio Climático en Colombia. Departamento Nacional de Planeación, Bogotá, ColombiaGoogle Scholar
  9. DNP (2011b) Índice de Pobreza Multidimensional (IPM-Colombia) 1997–2010 y meta del Plan Nacional de Desarrollo para 2014. Departamento Nacional de Planeacion (DNP); Dirección de Desarrollo Social (DDS); Subdirección de Promoción Social y Calidad de Vida (SPSPV), Bogotá, ColombiaGoogle Scholar
  10. Dow K, Berkhout F, Preston BL, Klein RJT, Midgley G, Shaw MR (2013) Limits to adaptation. Nat Clim Chang 3:305–307CrossRefGoogle Scholar
  11. Easterling WE, Aggarwal PK, Batima P, Brander KM, Erda L, Howden SM, Kirilenko A, Morton J, Soussana J-F, Schmidhuber J, Tubiello FN (2007) Food, fibre and forest products. In: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) Climate change 2007: Impacts, adaptation and vulnerability. Contribution of working group ii to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, pp 273–313Google Scholar
  12. Eslava JA, Pabon JD (2001) Proyecto: proyecciones climáticas e impactos socioeconómicos del cambio climático en Colombia. Meteorol Colomb 3:1–8Google Scholar
  13. Feola G (2013) What (science for) adaptation to climate change in Colombian agriculture? A commentary on “A way forward on adaptation to climate change in Colombian agriculture: perspectives towards 2050” by J. Ramirez-Villegas, M. Salazar, A. Jarvis, C. E. Navarro-Racines. Climatic Change this volumeGoogle Scholar
  14. Fischlin A, Midgely G, Price J, Leemans R, Gopal B, Turley C, Rounsevell MDA, Dube P, Tarazona J, Velichko A (2007) Ecosystems, their properties, goods and services. Climate Change 2007: Impacts, adaptation and vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel of Climate Change (IPCC). Cambridge University Press, Cambridge, UK, Cambridge, UKGoogle Scholar
  15. Howden SM, Soussana J-F, Tubiello FN, Chhetri N, Dunlop M, Meinke H (2007) Adapting agriculture to climate change. Proc Natl Acad Sci 104:19691–19696CrossRefGoogle Scholar
  16. Jones PG, Thornton PK (2009) Croppers to livestock keepers: livelihood transitions to 2050 in Africa due to climate change. Environ Sci Pol 12:427–437CrossRefGoogle Scholar
  17. Kok K, van Vliet M, Bärlund I, Dubel A, Sendzimir J (2011) Combining participative backcasting and exploratory scenario development: experiences from the SCENES project. Technol Forecast Soc Chang 78:835–851CrossRefGoogle Scholar
  18. Moser SC, Ekstrom JA (2010) A framework to diagnose barriers to climate change adaptation. Proc Natl Acad Sci 107:22026–22031CrossRefGoogle Scholar
  19. Navarrete C, Nowak A, Lavado A, Bustillos C (2013) Agricultura, Vulnerabilidad y Adaptación (AVA): Desarrollo compatible con el clima en el sector agrícola del Alto Cauca Colombiano. Reporte Final. Alianza Clima y Desarrollo, CDKN. Cali, Colombia, p 31pGoogle Scholar
  20. Norton RD, Balcázar AV (2003) A study of Colombia’s agricultural and rural competitiveness. Report to United Nations Food and Agriculture Organization, The World Bank and United States Agency for International Development, Washington DC, USAGoogle Scholar
  21. Osborne T, Rose G, Wheeler T (2013) Variation in the global-scale impacts of climate change on crop productivity due to climate model uncertainty and adaptation. Agric For Meteorol 170:183–194CrossRefGoogle Scholar
  22. Pabon JD (2003) El cambio climático global y su manifestación en Colombia. Cuad Geogr 12:111–119Google Scholar
  23. Peterson C, Nowak A, Jarvis A, Navarrete C, Figueroa A, Riaño N, Vargas J (2012) Analysing vulnerability: a multi-dimensional approach from Colombia’s Upper River Basin. Inside Stories on Climate Compatible Development. Climate & Development Knowledge Network (CDKN)Google Scholar
  24. Ramirez J, Jarvis A, Salazar M, Zapata E (2009) Documento de Discusión Nacional acerca de Asuntos Claves en el Análisis del Sector Agricultura (Adaptación). United Nations Development Programme (UNDP), Bogotá, ColombiaGoogle Scholar
  25. Ramirez-Villegas J, Salazar M, Jarvis A, Navarro-Racines C (2012) A way forward on adaptation to climate change in Colombian agriculture: perspectives towards 2050. Clim Chang 115:611–628CrossRefGoogle Scholar
  26. Rickards L, Howden SM (2012) Transformational adaptation: agriculture and climate change. Crop Pasture Sci 63:240–250.
  27. Ruiz D, Martinson D, Vergara W (2012) Trends, stability and stress in the Colombian Central Andes. Clim Chang 112:717–732CrossRefGoogle Scholar
  28. Smith LA, Stern N (2011) Uncertainty in science and its role in climate policy. Philos Trans R Soc A Math Phys Eng Sci 369:4818–4841Google Scholar
  29. Vermeulen SJ, Challinor AJ, Thornton P, Campbell BM, Eriyagama N, Vervoort J, Kinyangi J, Jarvis A, Laderach P, Ramirez-Villegas J, Nicklin KJ, Hawkins E, Smith D (2013) Addressing uncertainty in adaptation planning for agriculture. Proc Natl Acad Sci 110(21):8357–8362Google Scholar

Copyright information

© Springer Science+Business Media Dordrecht 2013

Authors and Affiliations

  1. 1.International Center for Tropical Agriculture (CIAT)CaliColombia
  2. 2.CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS)CaliColombia
  3. 3.Institute for Climate and Atmospheric Science (ICAS), School of Earth and EnvironmentUniversity of LeedsLeedsUK
  4. 4.Centre for Crop Systems AnalysisWageningen UniversityWageningenNetherlands

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