Free Access
Nat. Sci. Soc.
Volume 23, 2015
Les enjeux de la conférence de Paris. Penser autrement la question climatique
Page(s) S91 - S101
Published online 22 June 2015
  • Akong Minang, P., Van Noordwijk, M., Duguma, L.A., Alemagi, D., Hoan Do, T., Bernard, F., Agung, P., Robiglio, V., Catacutan, D., Suyanto Suyanto, Armas, A., Aguad, C.S., Feudjio, M., Galudra, G., Maryani, R., White, D., Widayati, A., Kahurani, E., Namirembe, S., Leimona, B., 2014. REDD+ Readiness progress across countries: Time for reconsideration, Climate Policy, doi: 10.1080/14693062.2014.905822.
  • Angelsen, A., Brockhaus, M., Kanninen, M., Sills, E., Sunderlin, W.D., Wertz-Kanounnikoff, S. (Eds), 2010. Réaliser la REDD+ : options stratégiques et politiques nationales, Cifor, Bogor, Indonésie.
  • Aquino, A., Guay, B., 2013. Implementing REDD+ in the Democratic Republic of Congo: An analysis of the emerging national REDD+ governance structure, Forest Policy and Economics, 36, 71-79. [CrossRef]
  • Awono, A., Somorin, O.A., Eba’a Atyi, R., Levang, P., 2014. Tenure and participation in local REDD+ projects: Insights from southern Cameroon, Environmental Science and Policy, 35, 76-86. [CrossRef]
  • Bellassen, V., Gitz, V., 2008. Reducing emissions from deforestation and degradation in Cameroon: Assessing costs and benefits, Ecological Economics, 68, doi :10.1016/j.ecolecon.2008.03.015.
  • Bidaud, C., 2012. Le carbone qui cache la forêt : la construction scientifique et la mise en politique du service de stockage du carbone des forêts malgaches. Thèse de doctorat, Institut de hautes études internationales et du développement, Genève.
  • DeFries, R., Achard, F., Brown, S., Herold, M., Murdiyarso, D., Schlamadinger, B., de Souza Jr, C., 2007. Earth observations for estimating greenhouse gas emissions from deforestation in developing countries, Environmental Science and Policy, 10, 385-394. [CrossRef]
  • De Sy, V., Herold, M., Achard, F., Asner, G.P., Held, A., Kellndorfer, J., Verbesselt, J., 2012. Synergies of multiple remote sensing data and sources for REDD+ monitoring, Current Opinion in Environmental Sustainability, 4, 6, 696-706. [CrossRef]
  • Den Besten, J.W., Arts, B., Verkooijen, P., 2014. The evolution of REDD+: An analysis of discursive-institutional dynamics, Environmental Science & Policy, 35, 40-48. [CrossRef]
  • Dkamela, G.P., Brockhaus, M., Kengoum Djieni, F., Schure, J., Assembe Mvondo, S., 2014. Lessons for REDD+ from Cameroon’s past forestry law: A political economy analysis, Ecology and Society, 19, 3, 30. Online: [CrossRef]
  • Ehrenstein, V., 2013. Les professionnels de la préparation. Aider la République démocratique du Congo à réduire sa déforestation : programme REDD+, Sociologies Pratiques, 27, 91-103. [CrossRef]
  • Ferguson, B., 2009. REDD comes into fashion in Madagascar, Madagascar Conservation and Development, 4, 2, 132-137. [CrossRef]
  • Holmgren, S., 2013. REDD+ in the making: Orders of knowledge in the climate-deforestation nexus, Environmental Science & Policy, 33, 369-377. [CrossRef]
  • Houghton, R.A., 1999. The annual net flux of carbon to the atmosphere from changes in land use, 1850-1990, Chemical and Physical Meteorology, 51, 2, 298-313.
  • Jung, M., 2005. The role of forestry projects in the clean development mechanism, Environmental Science & Policy, 8, 87-104. [CrossRef]
  • Kamelarczyk, K.B.F., Smith-Hall, C., 2014. REDD herring: Espistemic community control of the production, circulation and application of deforestation knowledge in Zambia, Forest Policy and Economics, 46, 19-29. [CrossRef]
  • Karsenty, A., 2008. The architecture of proposed REDD schemes after Bali: Facing critical choices, International Forestry Review, 10, 3, 443-457. [CrossRef]
  • Karsenty, A., 2012. Forêts : des instruments économiques décevants, Économie appliquée, Questions pour Rio+20, 65, 2.
  • Karsenty, A., Pirard, R., 2007. Changement climatique : faut-il récompenser la « déforestation évitée » ?, Natures Sciences Sociétés, 15, 4, 357-369. [CrossRef] [EDP Sciences]
  • Karsenty, A., Ongolo, S., 2012. Can “fragile states” decide to reduce their deforestation? The inappropriate use of the theory of incentives with respect to the REDD mechanism, Forest Policy and Economics, 18, 31-48. [CrossRef]
  • Korhonen-Kurki, K., Sehring, J., Brockhaus, M., Di Gregorio, M., 2014. Enabling factors for establishing REDD+ in a context of weak governance, Climate Policy, 14, 2, 167-186. [CrossRef]
  • Mahanty, S., Suich, H., Tacconi, L., 2013. Access and benefits in payments for environmental services and implications for REDD+: Lessons from seven PES schemes, Land Use Policy, 31, 38-47. [CrossRef]
  • Moutinho, P., Schwartzman, S. (Eds), 2005. Tropical Deforestation and Climate Change, Brasilia, Ipam.
  • Murdiyarso, D., Brockhaus, M., Sunderlin, W.D., Verchot, L., 2012. Some lessons learned from the first generation of REDD+ activities, Current Opinion in Environmental Sustainability, 4, 6, 678-685. [CrossRef]
  • Pedroni, L., Dutschke, M., Streck, C., Porru, M.E., 2009. Creating incentives for avoiding further deforestation: The nested approach, Climate Policy, 9, 2, 207-220. [CrossRef]
  • Robiglio, V., Ngendakumana, S., Gockowski J., Yemefac, M., Tchienkoua, M., Mbile, P., Tchawa, P., Tchoundjeu, Z., Bolognesi, M., 2010. Reducing emissions from all land uses in Cameroon. Final national report, ICRAF, Nairobi (online:
  • Somorin, A.O., Visseren-Hamakers, I.J., Arts, B., Sonwa, D.J., Tiani, A.-M., 2013. REDD+ policy strategy in Cameroon: Actors, institutions and governance, Environmental Science & Policy, 35, 87-97 (online: [CrossRef]
  • Tsayem Demaze, M., 2012. Du développement propre à la déforestation évitée : géoscopie des relations Nord-Sud pour atténuer le changement climatique. HDR, Université du Maine, Le Mans.
  • Van der Werf, G.R., Morton, D.C., DeFries, R.S., Olivier, J.G.J., Kasibhatla, P.S., Jackson, R.B., Collatz, G.J., Randerson, J.T., 2009. CO2 emissions from forest loss, Nature Geoscience, 2, 737-738. [CrossRef]
  • Visseren-Hamakers, I.J., Gupta, A., Herold, M., Pena-Claros, M., Vijge, M.J., 2012. Will REDD+ work? The need for interdisciplinary research to adress key challenges, Current Opinion in Environmental Sustainability, 4, 590-596. [CrossRef]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.