CEF em conferência sobre a ciência do café
CEF em conferência sobre a ciência do café
Investigadores do CEF participaram na 29th ASIC Conference on Coffee Science, em Hanoi, no Vietname.A … Ler mais
CEF no projeto Ciência Viva nos Pátios
CEF no projeto Ciência Viva nos Pátios
No âmbito do projeto Ciência Viva nos Pátios, a investigadora Isabel Marques realizou uma atividade … Ler mais
Investigadores do CEF colaboram no programa Ciência Viva nos Pátios
Investigadores do CEF colaboram no programa Ciência Viva nos Pátios
Os investigadores do CEF, António Santos, Carla Pimentel, Francisca Aguiar, Filipe Costa e Silva e … Ler mais


Artigos Científicos (ISI)

Donhouedé JCF, Marques I, Salako KV, Assogbadjo AE, Ribeiro N, Ribeiro-Barros AI (2023)

Genetic and morphological diversity in populations of Annona senegalensis Pers. occurring in Western (Benin) and Southern (Mozambique) Africa

PeerJ 11, e15767. DOI:

Donhouedé JCF, Marques I, Salako KV, Assogbadjo AE, Ribeiro-Barros AI, Ribeiro N (2023)

The relative role of soil, climate, and genotype in the variation in nutritional value of Annona senegalensis fruits and leaves DOI:

Laamari I, Marques I, Ribeiro-Barros AI, Béjaoui Z, Abassi M (2023)

Can saline preconditioning enhance plant survival in degraded soils? Physiological, biochemical, and molecular responses in Casuarina glauca saplings.

Plant Ecology 224, 905–919 . DOI:

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:

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:

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:

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:

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://

Marques I., Draper D., Mairal M., Macfarlane T.D., Moreno-Saiz J.C. (2022)

Overcoming the global climate crisis: solutions to minimize the loss of mediterranean plants

Frontiers in Ecology and Evolution, 10: 971982. DOI:

Marques I., Draper D., Riofrío L., Naranjo C. (2022)

Early signs of the effects of forest fragmentation on the genetic diversity and structure of the threatened ecuadorian tree Ocotea rotundata (Lauraceae)

Forests, 13(11):1940. DOI:

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:

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:

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:

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:

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:

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:

Maquia I.S., Fareleira P., Castro I.V.E., Brito D.R.A., Soares R., Chaúque A., Ferreira-Pinto M.M., Lumini E., Berruti A., Ribeiro N.S., Marques I., Ribeiro-Barros A.I. (2020)

Mining the microbiome of key species from african savanna woodlands: potential for soil health improvement and plant growth promotion

Microorganisms, 8(9): 1291. DOI:

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:

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:

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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 €