Notícias
CEF contribui para o debate sobre soluções para os desafios das regiões tropicais no Tropical Summit 2024
Investigadores do CEF no Top 2% dos mais influentes do mundo
Investigadores CEF na lista “World’s Top 2% Scientists”
CEF em conferência sobre a ciência do café
Investigadores do CEF reconhecidos pelo ranking Research.com
8 investigadores do CEF entre os 2% mais citados do mundo em 2021
Investigadores do CEF entre os mais citados a nível mundial
Resiliência do cafeeiro (Coffea arabica L.) às alterações climáticas
Publicações
Artigos Científicos (ISI)
Alberto J.N., Ramalho J.C., Ribeiro-Barros A.I., Viana A.P., Krohling C.A., Moiane S.S., Alberto Z., Rodrigues W.P., Partelli F.L. (2023)
Diversity in Coffea arabica cultivars in the Mountains of Gorongosa National Park – Mozambique regarding bean and leaf nutrient accumulation and physical fruit traits
Agronomy, 13, 1162. DOI: https://doi.org/10.3390/agronomy13041162
Bernado W.P., Santos A.R., Vale E.M., Pireda S., Correia L.Z., Souza G.A.R., Abreu D.P., Carvalho L.K.O., Almeida F.A., Baroni D,F., Partelli F.L., Bressan-Smith R.H., Rakocevic M., Ramalho J.C., Campostrini E., Rodrigues W.P (2023)
UV-B Reduction and Excess: Management Strategies Regarding Coffea sp. Crop.
Scientia Horticulturae, 323: 112499.. DOI: https://doi.org/10.1016/j.scienta.2023.112499
Cassamo C.T., Draper D., Romeiras M.M., Marques I., Chiulele R., Rodrigues M., Stalmans M., Partelli F.L., Ribeiro-Barros A., Ramalho J.C. (2023)
Impact of Climate Changes in the Suitable Areas for Coffea arabica L. Production in Mozambique: Agroforestry as an Alternative Management System to Strengthen Crop Sustainability.
Agriculture, Ecosystems and Environment, 346: 108341. DOI: https://doi.org/10.1016/j.agee.2022.108341
Daccak D., Lidon F.C., Coelho A.R.F., Luís I.C., Marques A.C., Pessoa C.C., Brito M.G., Kullberg J.C., Ramalho J.C., Rodrigues A.P., Campos P.S., Pais I.P., Semedo J.M.N., Silva M.M. (2023)
Assessment of Physicochemical Parameters in two Winegrapes Varieties after Foliar Application of ZnSO4 and ZnO
Plants, 12: 1426. DOI: https://doi.org/10.3390/plants12071426
Marques A.C., Lidon F.C., Coelho A.R.F., Pessoa C.C., Daccak D., Luís I.C., Simões M., Scotti-Campos P., Almeida A.S., Guerra M., Leitão R.G., Bagulho A., Moreira J., Pessoa M.F., Legoinha P., Ramalho J.C., Semedo J.M.N., Palha L., Silva C., Silva M.M., Oliveira K., Pais I.P., Reboredo F.H. (2023)
Elemental Composition and Implications on Brown Rice Flour Biofortified with Selenium
Plants, 12: 1611. DOI: https://doi.org/10.3390/plants12081611
Marques I., Fernandes I., Paulo O.S., Batista D., Lidon F.C., Partelli F.L., DaMatta F.M., Ribeiro-Barros A.I., Ramalho J.C. (2023)
Overexpression of Water-Responsive Genes Promoted by Elevated CO2 to Reduce ROS and Enhances Drought Tolerance in Coffea Species.
International Journal of Molecular Sciences, 24(4): 3210. DOI: https://doi.org/10.3390/ijms24043210.
Pais I.P., Moreira R., Semedo J.N., Ramalho J.C., Lidon F.C., Coutinho J., Maçãs B., Scotti-Campos P. (2023)
Wheat Crop Under Waterlogging: Potential Soil and Plant Effects
Plants, 12: 149. DOI: https://doi.org/10.3390/plants12010149
Rakocevic M., Baroni D.F., Souza G.A.R., Bernado W.P., Almeida C.M., Matsunaga F.I., Rodrigues W.P., Ramalho J.C., Campostrini E. (2023)
Correlating Coffea canephora 3D Architecture to Plant Photosynthesis at Daily Scale and Vegetative Biomass Allocation.
Tree Physiology, 43(4): 556-574. DOI: https://doi.org/10.1093/treephys/tpac138
Rakocevic M., Scholz M.B.S., Pazianotto R.A.A., Matsunaga F.T., Ramalho J.C (2023)
Variation in Yield, Berry Distribution and Chemical Attributes of Coffea arabica Beans among the Canopy Strata of Four Genotypes Cultivated under Contrasted Water Regimes.
Horticulturae, 9(2): 215. DOI: https://doi.org/10.3390/horticulturae9020215
Ramalho J.C., Pelica J., Lidon F.C., Silva M.M.A., Simões M.M., Guerra M., Reboredo F.H (2023)
Soil Arsenic Toxicity Impact on the Growth and C-Assimilation of Eucalyptus nitens
Sustainability, 15: 6665. DOI: https://doi.org/10.3390/su15086665
Souza A.H., Oliveira U.S., Oliveira L.A., Carvalho P.H.N., Andrade M.T., Pereira T.S., Gomes Jr. C.C., Cardoso A.Á., Ramalho J.D.C., Martins S.C.V., DaMatta F.M. (2023)
Growth and Leaf Gas Exchange Upregulation by Elevated CO2 is Light Dependent in Coffee Plants
Plants, 12: 1479. DOI: https://doi.org/10.3390/plants12071479
Tapaça I.P.E., Mavuque L., Corti R., Pedrazzani S., Maquia I., Tongai C., Partelli F., Ramalho J.C., Marques I., Ribeiro-Barros A.I. (2023)
Genomic Evaluation of Coffea arabica and Its Wild Relative Coffea racemosa in Mozambique: Settling Resilience Keys for the Coffee Crop in the Context of Climate Changes
Plants, 12: 244. DOI: https://doi.org/10.3390/plants12102044
António CBS, Obieze C, Jacinto J, Maquia ISA, Massad T, Ramalho JC, Ribeiro NS, Máguas C, Marques I, Ribeiro-Barros AI (2022)
Linking bacterial rhizosphere communities of two pioneer species, Brachystegia boehmii and B. spiciformis, to the ecological processes of Miombo woodlands
Forests 13, 1840. DOI: https://doi.org/10.3390/f13111840
Bernado W.D.P., Baroni D.F., Ruas K.F., Santos A.R., de Souza S.B., Passos L.C., Façanha A.R., Ramalho J.C., Campostrini E., Rakocevic M., Rodrigues W.P. (2022)
Ultraviolet radiation underlies metabolic energy reprograming in Coffea arabica and Coffea canephora genotypes
Scientia Horticulturae, 295:110881. DOI: https://doi.org/10.1016/j.scienta.2022.110881
Cassamo C.T., Mangueze A.V.J., Leitão A.E., Pais I.P., Moreira R., Campa C., Chiulele R., Reis F.O., Marques I., Scotti-Campos P., Lidon F.C., Partelli F.L., Ribeiro-Barros A.I., Ramalho J.C. (2022)
Shade and Altitude Implications on the Physical and Chemical Attributes of Green Coffee Beans from Gorongosa Mountain, Mozambique
Agronomy, 12: 2540. DOI: https://doi.org/10.3390/agronomy12102540
Coelho A.R.F., Lidon F.C., Pessoa C.C., Daccak D., Luís I.C., Marques A.C., Ramalho J.C., Semedo J.M.N., Silva M.M., Pais I.P., Brito M.G., Kullberg J.C., Legoinha P., Simões M., Scotti-Campos P., Pessoa M.F., Reboredo F.H (2022)
Mineral monitorization in different tissues of Solanum tuberosum L. during calcium biofortification process
Horticulturae, 8(11): 1020. DOI: https://doi.org/10.3390/horticulturae8111020
Coelho A.R.F., Ramalho J.C., Lidon F.C., Marques A.C., Daccak D., Pessoa C.C., Luís I.C., Guerra M., Leitão R.G., Semedo J.M.N., Silva M.M., Pais I.P., Leal N., Galhano C., Rodrigues A.P., Legoinha P., Silva M.J., Simões M., Campos Scotti P., Pessoa M.F., Reboredo F.H. (2022)
Foliar spraying of Solanum tuberosum L. with CaCl2 and Ca(NO3)2: interactions with nutrients accumulation in tubers
Plants, 11(13): 1725. DOI: https://doi.org/10.3390/plants11131725
Daccak D., Lidon F.C., Pessoa C.C., Luís I.C., Coelho A.R.F., Marques A.C., Ramalho J.C., Silva M.J., Rodrigues A.P., Guerra M (2022)
Enrichment of grapes with zinc-efficiency of foliar fertilization with ZnSO4 and ZnO and implications on winemaking
Plants, 11(11): 1399. DOI: https://doi.org/10.3390/plants11111399
Dalazen J.R., Valani G.P., Vieira H.D., Ramalho J.C., Jr Lacerda V., Romão W., Partelli F.L (2022)
Nutrient accumulation in fruits and grains of black pepper at different ripening stages
Ciência Rural, 52(9): e20210470. DOI: https://doi.org/10.1590/0103-8478cr20210470
Fernandes I, Paulo OS, Marques I, Sarjkar I, Sen A, Graça I, Pawlowski K, Ramalho JC, Ribeiro-Barros AI (2022)
Fernandes I, Paulo OS, Marques I, Sarjkar I, Sen A, Graça I, Pawlowski K, Ramalho JC, Ribeiro-Barros AI. Salt stress tolerance in Casuarina glauca: insights from the branchlets transcriptome
Plants 11, 2942. DOI: https://doi.org/10.3390/plants11212942
Fernandes J., Reboredo F.H., Luis I., Silva M.M., Simões M.M., Lidon F.C., Ramalho J.C. (2022)
Elemental composition of commercial herbal tea plants and respective infusions
Plants, 11(11): 1412. DOI: https://doi.org/10.3390/plants11111412
Koutouleas A., Sarzynski T., Bertrand B., Bordeaux M., Bosselmann A.S., Campa C., Etienne H., Turreira-García N., Léran S., Markussen B., Marraccini P., Ramalho J.C., Vaast P., Ræbild A. (2022)
Shade effects on yield across different Coffea arabica cultivars — how much is too much? A meta-analysis
Agronomy for Sustainable Development, 42(4). DOI: https://doi.org/10.1007/s13593-022-00788-2
Koutouleas A., Sarzynski T., Bordeaux M., Bosselmann A.S., Campa C., Etienne H., Turreira-García N., Rigal C., Vaast P., Ramalho J.C., Marraccini P., Ræbild A. (2022)
Shaded-coffee: a nature-based strategy for coffee production under climate change? A review
Frontiers in Sustainable Food Systems, 6: 877476. DOI: https://doi.org/10.3389/fsufs.2022.877476
Marques I, Rodrigues AP, Gouveia D, Lidon FC, Martins S, Semedo MC, Gaillard JC, Pais IP, Semedo JN, Scotti-Campos P, Reboredo FH, Partelli FL, DaMatta F, Armengaud J, Ribeiro-Barros AI, Ramalho JC (2022)
High-resolution shotgun proteomics reveals that increased air [CO2] amplifies the acclimation response of Coffea species to drought regarding antioxidative, energy, sugar, and lipid dynamics
Journal of Plant Physiology 276, 153788. . DOI: ttps://doi.org/10.1016/j.jplph.2022.153788
Marques I., Gouveia D., Gaillard J.-C., Martins S., SemedoM.C., Lidon, F.C., Damatta F.M., Ribeiro-Barros A.I., Armengaud J., Ramalho J.C. (2022)
Next-generation proteomics reveals a greater antioxidative response to drought in Coffea Arabica than in Coffea canephora
Agronomy, 12 (1): 148.DOI. DOI: https://doi.org/10.3390/agronomy12010148
Marques I., Ribeiro-Barros A., Ramalho J.C. (2022)
Editorial: Tropical Plant Responses to Climate Change
International Journal of Molecular Sciences, 23(13): 7236. DOI: https://doi.org/10.3390/ijms23137236
Pessoa C.C., Lidon F.C., Coelho A.R.F., Marques A.C., Daccak D., Luís I.C., Caleiro J.C., Kullberg J.C., Legoinha P., Brito M.G, Ramalho J.C., Silva M.J., Rodrigues A. (2022)
Magnesium accumulation in two contrasting varieties of Lycopersicum esculentum L. fruits: interaction with calcium at tissue level and implications on quality
Plants, 11: 1854. DOI: https://doi.org/10.3390/plants11141854
Ribeiro-Barros A.I., Pawlowski K., Ramalho J.C. (2022)
Mechanisms of salt stress tolerance in Casuarina: a review of recent research
Journal of Forest Research, 27(2): 113 – 116. DOI: https://doi.org/10.1080/13416979.2022.2036416
Rosa N., Àvila G., Carbó J., Verjans W., Bonany J., Ramalho J.C., Asín L., Oliveira C.M. (2022)
Response of Malus x domestica Borkh to metamitron and high night temperature: effects on physiology and fruit abscission
Scientia Horticulturae, 292: 110610. DOI: https://doi.org/10.1016/j.scienta.2021.110610
Schmidt R., Silva L.O.E., Ferreira A., Gontijo I., Guimarães R.J., Ramalho J.C., Partelli F.L. (2022)
Variability of root system size and distribution among Coffea canephora genotypes
Agronomy, 12 (3): 647. DOI: https://doi.org/10.3390/agronomy12030647
Vinci G., Marques I., Rodrigues A.P., Martins S., Leitão A.E., Semedo M.C., Silva M.J., Lidon F.C., DaMatta F.M., Ribeiro-Barros A.I., Ramalho J.C. (2022)
Protective Responses at the Biochemical and Molecular Level Differ between a Coffea arabica L. Hybrid and Its Parental Genotypes to Supra-Optimal Temperatures and Elevated Air [CO2]
Plants, 11: 2702. DOI: https://doi.org/10.3390/plants11202702
Gomes A.M.F., Draper D., Nhantumbo N., Massinga R., Ramalho J.C., Marques I., Ribeiro-Barros A.I. (2021)
Diversity of Cowpea [Vigna unguiculata (L.) Walp] landraces in Mozambique: new opportunities for crop improvement and future breeding programs
Agronomy, 11(5): 991. DOI: https://doi.org/10.3390/agronomy11050991
Marques I., Fernandes I., Paulo O.S, Lidon F.C, DaMatta F.M., Ramalho J.C, Ribeiro-Barros A.I. (2021)
A transcriptomic approach to understanding the combined impacts of supra-optimal temperatures and co2 revealed different responses in the polyploid Coffea arabica and its diploid progenitor C. canephora
International Journal of Molecular Sciences, 22(6): 3125-3125. DOI: https://doi.org/10.3390%2Fijms22063125
Rodrigues A.M., Jorge T., Osorio S., Pott D.M., Lidon F.C., DaMatta F.M., Marques I., Ribeiro-Barros A.I., Ramalho J.C., António C. (2021)
Primary metabolite profile changes in Coffea spp. promoted by single and combined exposure to drought and elevated CO2 concentration
Metabolites, 11(7): 427. DOI: https://doi.org/10.3390/metabo11070427
Semedo J.N., Rodrigues A.P., Lidon F.C., Pais I.P., Marques I., Gouveia D., Armengaud J., Silva M.J., Martins S., Semedo M.C., Dubberstein D., Partelli F.L., Reboredo F.H., Scotti-Campos P., Ribeiro-Barros A.I., DaMatta F.M., Ramalho J.C. (2021)
Intrinsic non-stomatal resilience to drought of the photosynthetic apparatus in Coffea spp. is strengthened by elevated air [CO2]
Tree Physiology, 41(5): 708 – 727. DOI: https://doi.org/10.1093/treephys/tpaa158
Dubberstein D., Lidon F.C., Rodrigues A.P., Semedo J.N., Marques I., Rodrigues W.P., Gouveia D., Armengaud J., Semedo M.C., Martins S., Simões-Costa M.C., Moura I., Pais I.P., Scotti-Campos P., Partelli F.L., Campostrini E., Ribeiro-Barros A.I., DaMatta F.M., Ramalho J.C. (2020)
Resilient and sensitive key points of the photosynthetic machinery of Coffea spp. to the single and superimposed exposure to severe drought and heat stresses
Frontiers in Plant Science, 11: 1049. DOI: https://doi.org/10.3389/fpls.2020.01049
Gomes A.M.F., Draper D., Talhinhas P., Santos P.B., Simões F., Nhantumbo N., Massinga R., Ramalho J.C., Marques I., Ribeiro-Barros A.I. (2020)
Genetic diversity among Cowpea (Vigna unguiculata (L.) Walp.) landraces suggests central mozambique as an important hotspot of variation
Agronomy, 10(12): 1893. DOI: https://doi.org/10.3390/agronomy10121893
Gomes A.M.F., Rodrigues A.P., António C., Rodrigues A.M., Leitão A.E., Batista-Santos P., Nhantumbo N., Massinga R., Ribeiro-Barros A.I., Ramalho J.C. (2020)
Drought response of cowpea (Vigna unguiculata (L.) Walp.) landraces at leaf physiological and metabolite profile levels
Environmental and Experimental Botany, 175: 104060. DOI: https://doi.org/10.1016/j.envexpbot.2020.104060
Marques A.C., Lidon F.C., Coelho A.R.F., Pessoa C.C., Luís I.C., Scotti-Campos P., Simões M., Almeida A.S., Legoinha P., Pessoa M.F., Galhano C., Guerra M.A.M., Leitão R.G., Ramalho J.C., Semedo J.M.N., Bagulho A., Moreira J., Rodrigues A.P., Marques P., Silva C., Ribeiro-Barros A., Silva M.J., Silva M.M., Oliveira K., Ferreira D., Pais I.P., Reboredo F.H. (2020)
Quantification and tissue localization of selenium in rice (Oryza sativa l., poaceae) grains: a perspective of agronomic biofortification
Plants, 9(12): 1670. DOI: https://doi.org/10.3390/plants9121670
Marques I., Fernandes I., David P.H.C., Paulo O.S., Goulão L.F., Fortunato A.S., Lidon F.C., DaMatta F.M., Ramalho J.C., Ribeiro-Barros A.I. (2020)
Transcriptomic leaf profiling reveals differential responses of the two most traded coffee species to elevated [CO2]
International Journal of Molecular Sciences, 21(23): 9211. DOI: https://doi.org/10.3390/ijms21239211
Roda F.A., Marques I., Batista-Santos P., Esquivel M.G., Ndayiragije A., Lidon F.C., Swamy B.P.M., Ramalho J.C., Ribeiro-Barros A.I. (2020)
Rice biofortification with zinc and selenium: a transcriptomic approach to understand mineral accumulation in flag leaves
Frontiers in Genetics, 11: 543. DOI: https://doi.org/10.3389/fgene.2020.00543
Rosa N., Avila G., Carbo J., Verjans W., Pais I.P., da Silva A.B, Martins L.L., Mourato M.P., Carvalho L.C., Scotti-Campos P., Bonany J., Asin L., Ramalho J.C., Oliveira C.M. (2020)
Metamitron and shade effects on leaf physiology and thinning efficacy of Malus x domestica Borkh
Agronomy-Basel, 10(12): 1924. DOI: https://doi.org/10.3390/agronomy10121924
Livros
Capítulos de Livros
Rodrigues W.P., Campostrini E., Bernado W.P., Baroni D.F., Machado-Filho J.A., Partelli F.L., Ramalho J.C., Ribeiro A.I., Leitao A.E., Lidon F.J.C, Scotti-Campos P., Rakocevic M., DaMatta F.M. (2021)
Coffee plants in the context of global climate change
In: Adapting to climate change: Strategies for Brazilian agricultural and livestock systems. Sotta E.D., Sampaio F.G., Marzall K., Silva W.G. (Eds.), p. 50-51. Edition from Ministry of Agriculture, Livestock, and Food Supply, MAPA / SENAR, Brazil. 187 p. ISBN: 978-65-86803-39-6 URL: https://www.gov.br/agricultura/pt-br/assuntos/sustentabilidade/plano-abc/arquivo-publicacoes-plano-abc/adapting-to-climate-change-strategies-for-brazilian-agricultural-and-livestock-systems.pdf/view
Dias J, Lage P, Valério J, Santos T, Lampreia C, Horta M, Carvalho MJ, Floro AM, Russo R, Silva A, Martins JC, Caeiro JJ, Geng S, Lidon F, Pessoa F, Reboredo F, Leitão AE, Ramalho JC, Garcia J, Coelho L, Pássaro J, Martins APL, Gonçalves E, Alvarenga N (2020)
Influência das condições atmosféricas na cura de queijos artesanais
In: Dias J., Duarte M.F., Garcia J., Lidon F., Alvarenga N., Carvalho G. (eds.) Aplicação da Mecânica dos Fluídos Computacional e Monitorização Remota em Queijarias Tradicionais, Capítulo 4, p. 85-104. Edição do Instituto Politécnico de Beja. ISBN: 978-989-8008-46-6
Figueira, A. M., Nhantumbo, N., Ferreira-Pinto, M., Massinga, R., Ramalho, J. C., & Ribeiro-Barros, A. (2019)
Breeding Elite Cowpea [Vigna unguiculata (L.) Walp] Varieties for Improved Food Security and Income in Africa: Opportunities and Challenges
In: Legume Crops – Characterization and Breeding for Improved Food Security. El-Esawi, M. (Ed). IntechOpen, ISBN 978-1-83968-087-8. DOI: https://doi.org/10.5772/intchopen.84985
Dubberstein D, Rodrigues WP, Semedo JN, Rodrigues AP, Pais IP, Leitão AE, Partelli FL, Campostrini E, Reboredo F, Scotti-Campos P, Lidon FC, Ribeiro-Barros AI, DaMatta FM, Ramalho JC (2018)
Mitigation of the negative impact of warming on the coffee crop: the role of increased air [CO2] and management strategies
In: In: Climate resilient agriculture – strategies and perspectives. A Shanker, C Shanker, C Srinivasarao (Eds), Intech, London. DOI: http://dx.doi.org/10.5772/intechopen.72374
Ribeiro-Barros AI, Silva MJ, Moura I, Ramalho JC, Máguas-Hanson C, Ribeiro NS (2018)
The potential of tree and shrub legumes in agroforestry systems
In: Nitrogen in agriculture – Updates, p. 223-239. Khan A., Fahad S. (eds). InTech, London. DOI: http://dx.doi.org/10.5772/intechopen.69995
Semedo JN, Rodrigues WP, Dubberstein D, Martins MQ, Martins LD, Pais IP, Rodrigues AP, Leitão AE, Partelli F, Campostrini E, Tomaz MA, Reboredo FH, Scotti-Campos P, Ribeiro-Barros AI, Lidon FC, DaMatta FM, Ramalho JC (2018)
Coffee responses to drought, warming and high [CO2] in a context of future climate change scenarios
In: Climate change management: Theory and practice of climate adaptation, p. 465-477. F Alves, WL Filho, Azeiteiro U (Eds), Springer, Cham.. DOI: https://doi.org/10.1007/978-3-319-72874-2_26
Projetos
TRICAFÉ II
Produção sustentável de café em sistema agroflorestal
Duração: 2024-2027
Orçamento CEF: 550 000 € €
Coffea canephora Genotypes
Desenvolvimento e produtividade de Diversos Genótipos de Coffea canephora em Cinco Ambientes
Duração: 2023-2025
Coffee Flower
O aquecimento global ameaça a sustentabilidade da cultura do café através da infertilidade floral. Uma visão integrada para desvendar as perturbações no desenvolvimento floral e o potencial efeito protetor do CO2 atmosférico elevado
Duração: 2023-2026
Orçamento CEF: 191646,30 €
CoffeeFlower
O aquecimento Global Ameaça a Sustentabilidade da Cultura do Café Através da Infertilidade Floral. Uma Visão Integrada Para Desvendar As Perturbações no Desenvolvimento Floral e o Potencial Efeito Protector do CO2 Atmosférico Elevado
Duração: 2023-2025
Orçamento CEF: 191646,30 € €
Agrinatura/ERAIFT
Capacity Building of Biodiversity Practitioners, Scientists and Policy Makers for the Sustainable Management of Protected Areas and Forest Ecosystems in Africa
Duração: 2021-2025
Orçamento CEF: 155 000 € €
Coffea canephora Genotypes Under Deep Shade Conditions of Rubber Tree
Avaliação de Diversos Genótipos de Coffea canephora Sob Alto Nível de Sombreamento Com Seringueira
Duração: 2021-2023
Coffea canephora Genotypes in Espírito Santo and Bahia Productivity
Produtividade e Desenvolvimento de 42 Genótipos Promissores de Coffea canephora no norte do Espírito Santo e Sul da Bahia
Duração: 2019-2022
CoffeeOmic’sClimate
Uma Estratégia Integrada Para o Estudo do Impacto das Alterações Climáticas em Coffea spp.
Duração: 2018-2022
Orçamento CEF: 188313,30 € €
ESA – EcoSystemAdapt
Intervenções de Resiliência dos Territórios Face ao Risco – Combate a Desertificação Através da Rearborização e de Ações que Promovam o Aumento da Fixação de Carbono e de Nutrientes no Solo
Duração: 2018-2022
Orçamento CEF: 131220,88 € €