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Dataset 2016-05-02

Autor: Richards, Meryl Bruun, T.B. Campbell, Bruce M. Gregersen LE Huyer, Sophia Kuntze, V. Madsen STN Oldvig MB Vasileiou, Ioannis

Data presented here are the result of an analysis of the adaptation and mitigation contributions of the 162 INDCs (representing 189 Parties) submitted to the UNFCCC as of 28 April 2016, and then revised using information submitted through 31October 2016. Related Info Notes were written using the ...

Enlace original: https://cgspace.cgiar.org/handle/10568/73255

Investigación en Agricultura
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Richards, MerylBruun, T.B.Campbell, Bruce M.Gregersen LEHuyer, SophiaKuntze, V.Madsen STNOldvig MBVasileiou, Ioannis[How countries plan to address agricultural adaptation and mitigation: An analysis of Intended Nationally Determined Contributions. CCAFS dataset]How countries plan to address agricultural adaptation and mitigation: An analysis of Intended Nationally Determined Contributions. CCAFS dataset
Dataset 2018-02-01

Autor: Richards, Meryl Wollenberg, Eva K. Vuuren, Detlef van

Supplemental materials, including dataset for article: National contributions to climate change mitigation from agriculture: allocating a global target, Article abstract: Globally, agriculture and related land use change contributed about 17% of the world’s anthropogenic GHG emissions in 2010 (8....

Enlace original: https://cgspace.cgiar.org/handle/10568/90678

Investigación en Agricultura
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Richards, MerylWollenberg, Eva K.Vuuren, Detlef van[National contributions to climate change mitigation from agriculture: allocating a global target]National contributions to climate change mitigation from agriculture: allocating a global target
Journal Article 2016-05-20

Autor: Richards, Meryl Metzel, Ruth Chirinda, Ngonidzashe Ly, Proyuth Nyamadzawo, George Vu, Quynh Duong de Neergaard, Andreas Oelofse, Myles Wollenberg, Eva K. Keller, Emma Malin, Daniella Olesen, Jorgen E. Hillier, Jonathan Rosenstock, Todd S.

Demand for tools to rapidly assess greenhouse gas impacts from policy and technological change in the agricultural sector has catalyzed the development of ‘GHG calculators’— simple accounting approaches that use a mix of emission factors and empirical models to calculate GHG emissions with minima...

Enlace original: https://cgspace.cgiar.org/handle/10568/74313

Investigación en Agricultura
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Richards, MerylMetzel, RuthChirinda, NgonidzasheLy, ProyuthNyamadzawo, GeorgeVu, Quynh Duongde Neergaard, AndreasOelofse, MylesWollenberg, Eva K.Keller, EmmaMalin, DaniellaOlesen, Jorgen E.Hillier, JonathanRosenstock, Todd S.[Limits of agricultural greenhouse gas calculators to predict soil N2O and CH4 fluxes in tropical agriculture]Limits of agricultural greenhouse gas calculators to predict soil N2O and CH4 fluxes in tropical agriculture
Working Paper 2016-02-09

Autor: Rosenstock, Todd S. Lamanna, Christine Chesterman, Sabrina Bell, P. Arslan, A. Richards, Meryl Rioux, J. Akinleye, AO Champalle, Clara Cheng, Z Corner-Dolloff, Caitlin Dohn, J English, W Eyrich, AS Girvetz, Evan H. Kerr, A Lizarazo, Miguel Madalinska, A McFatridge, S Morris, KS Namoi, N Poultouchidou, N Ravina, da Silva M Rayess, S Ström, H Tully, Katherine L. Zhou, W

Background: ‘Climate-smart agriculture’ (CSA)—agriculture and food systems that sustainably increase food production, improve resilience (or adaptive capacity) of farming systems, and mitigate climate change when possible—has quickly been integrated into the global development agenda. However, th...

Enlace original: https://cgspace.cgiar.org/handle/10568/70967

Investigación en Agricultura
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Rosenstock, Todd S.Lamanna, ChristineChesterman, SabrinaBell, P.Arslan, A.Richards, MerylRioux, J.Akinleye, AOChampalle, ClaraCheng, ZCorner-Dolloff, CaitlinDohn, JEnglish, WEyrich, ASGirvetz, Evan H.Kerr, ALizarazo, MiguelMadalinska, AMcFatridge, SMorris, KSNamoi, NPoultouchidou, NRavina, da Silva MRayess, SStröm, HTully, Katherine L.Zhou, W[The scientific basis of climate-smart agriculture: A systematic review protocol]The scientific basis of climate-smart agriculture: A systematic review protocol

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