Notícias
Artigo de investigadores do CEF no blogue Resilience destaca ferramentas do ResAlliance para práticas sustentáveis
Professora Joana Amaral Paulo é a nova representante do ISA no Centro de Competências do Sobreiro e Cortiça
Curso “Subericultura XXI – Fundação científica para a valorização da cortiça e do ecossistema montado”
Novo artigo CEF analisa o desenvolvimento em diâmetro das árvores em plantações jovens de sobreiro
Projeto ResAlliance arranca a 17 de novembro
Investigadores do CEF colaboram na elaboração de recomendações políticas para melhorar as cadeias de valor dos Produtos Alimentares Silvestres
Novo artigo CEF | Cor e porosidade da cortiça virgem como possíveis indicadores da qualidade industrial e da porosidade da cortiça secundeira
CEF na conferência Cork in Science and Applications 2023
CEF é responsável pelo estudo do efeito de diferentes intensidades de descortiçamento
Investigadora CEF em entrevista à Rádio Renascença
CEF no campo
MASTER CLASS PROF. HELENA PEREIRA – 30 JUNHO
CEF participa no kick-off to projeto AcornDew
Trabalho científico do CEF na base da APP – Cartografia de Aptidão para o Sobreiro
4ª reunião da RAIN do projeto AFINET em Portugal
Sistemas Agroflorestais e Inovação: o que se passa pela Europa fora?
AFINET – Agroforestry Innovation Networks – Segunda reunião da RAIN
A intensidade de descortiçamento na primeira extração afeta o calibre da cortiça secundeira?
AFINET – Agroforestry Innovation Networks – Primeira reunião do projecto
3rd European Agroforestry Conference
Publicações
Artigos Científicos (ISI)
Firmino, P., Paulo, J. A., Lourenço, A., Tomé, M., Campagnolo, M. (2024)
How do soil and topographic drivers determine tree diameter spatial distribution in even aged cork oak stands installed in average to high productivity areas.
New Forests. DOI: https://doi.org/10.1007/s11056-024-10047-9
Marques, S., Rodrigues, A.R., Paulo, J.A., Botequim, B., Borges, J.G. (2024)
Addressing Carbon Storage in Forested Landscape Management Planning—An Optimization Approach and Application in Northwest Portugal.
Forests 2024, 15, 408. . DOI: https://doi.org/10.3390/f15030408
Firmino, P. N., Tomé, M., Paulo, J. A. (2023)
Do Distance-Dependent Competition Indices Contribute to Improve Diameter and Total Height Tree Growth Prediction in Juvenile Cork Oak Plantations?
Forests 14(5), 1066. DOI: https://doi.org/10.3390/f14051066
Jorge C., Tomé M., Ruiz-Peinado R., Zribi L., Paulo J.A. (2023)
Quercus suber allometry in the West Mediterranean basin
Forests, 14(3): 649. . DOI: https://doi.org/10.3390/f14030649.
Paulo J.A., Firmino P.N., Tomé M.A (2023)
A tree- and climate-dependent growth model to predict mature annual cork thickness under different climate change scenarios.
Modeling Earth Systems and Environment. . DOI: https://doi.org/10.1007/s40808-022-01652-8.
Paulo, J. A., Santos, D. I. (2023)
Virgin cork colour and porosity as predictors for secondary cork industrial quality
Industrial Crops and Products 205 (1): 117513. . DOI: https://doi.org/10.1016/j.indcrop.2023.117513
Ferreiro-Domínguez N., Palma J.H.N., Paulo J.A., Rigueiro-Rodríguez A., Mosquera-Losada M.R (2022)
Assessment of soil carbon storage in three land use types of a semi-arid ecosystem in South Portugal.
Catena, 213: 106196. DOI: https://doi.org/10.1016/j.catena.2022.106196
Lecomte X., Paulo J.A., Tomé M., Veloso S., Firmino P.N., Faias S.P., Caldeira M.C. (2022)
Shrub understorey clearing and drought affects water status and growth of juvenile Quercus suber trees
Forest Ecology and Management, 503, 119760. DOI: https://doi.org/10.1016/j.foreco.2021.119760
Paulo J.A., Firmino P.N., Faias S.P., Tomé M. (2021)
Quantile regression for modelling the impact of climate in cork growth quantiles in Portugal
European Journal of Forest Research, 140: 991–1004. DOI: https://doi.org/10.1007/s10342-021-01379-8
Faias S.P., Tomé M., Paulo J.A. (2020)
Inter-tree competition analysis in undebarked cork oak plantations as a support tool for management in Portugal
New Forests, 51(3): 489-505. DOI: https://doi.org/10.1007/s11056-019-09739-4
Paulo J.A., Villalobos R. (2020)
Quassia amara L. diameter growth under different shading conditions accessed by crown illumination index: implications for the management of Costa Rica natural and planted forests
Agroforestry Systems, 94(3): 761-778. DOI: https://doi.org/10.1007/s10457-019-00446-9
Rolo V., Hartel T., Aviron S., Berg S., Crous-Duran J., Franca A., Mirck J., Palma J.H.N., Pantera A. Paulo J.A., Pulido F.J., Seddaiu G., Thenail C., Varga A., Viaud V., Burgess P.J., Moreno G. (2020)
Challenges and innovations for improving the sustainability of European agroforestry systems of high nature and cultural value: stakeholder perspectives
Sustainability Science, 15(5): 1301-1315. DOI: https://doi.org/10.1007/s11625-020-00826-6
Aubard V., Paulo J.A., Silva J.M.N. (2019)
Long-term monitoring of cork and holm oak stands productivity in Portugal with Landsat imagery
Remote Sensing, 11(5): 525. DOI: https://doi.org/10.3390/rs11050525
Crous-Duran J., Graves A., Paulo J.A., Mirck J., Oliveira T.S., Kaya S., García de Jalón S., Palma J.H.N. (2019)
Modelling tree density effects on provisioning ecosystem services in Europe
Agroforestry Systems, 93, 1985–2007. DOI: https://doi.org/10.1007/s10457-018-0297-4
Crous-Duran J., Graves A.R., Garcia-de-Jalón S., Paulo J.A., Tomé M., Palma J.H.N. (2019)
Assessing food sustainable intensification potential of agroforestry using a carbon balance method
iForest, 12: 85-91. DOI: https://doi.org/10.3832/ifor2578-011
Faias S.P., Paulo J.A., Firmino P.N., Tomé M. (2019)
Drivers for annual cork growth under two understory management alternatives on a podzolic cork oak stand
Forests, 10(2): 133.
Faias, S. P., Paulo, J. A., Tomé, M. (2019)
Competition pattern in Portuguese young cork oak plantations
New Forests 51 (3): 489-505. DOI: https://doi.org/10.1007/s11056-019-09739-4
Gschwantner T., Alberdi I., Balazs A., Bauwens S., Bender S., Borota D., Bosela M., Bouriaud O., Canellas I., Donis J., Freudenschuss A., Herve J.C., Hladnik D., Jansons J., Kolozs L., Korhonen K.T., Kucera M., Kulbokas G., Kuliesis A., Lanz A., Lejeune P., Lind T., Marin G., Morneau F., Nagy D., Nord-Larsen T., Nunes L., Pantic D., Paulo J.A., Pikula T., Redmond J., Rego F.C., Riedel T., Saint-Andre L., Seben V., Sims A., Skudnik M., Solti G., Tomter S.M., Twomey M., Westerlund B., Zell J. (2019)
Harmonisation of stem volume estimates in European National Forest Inventories
Annals of Forest Science, 76(1): 24.
de Jalón S.G., Burgess P.J., Graves A., Moreno G., McAdam J., Pottier E., Novak S., Bondesan V., Mosquera-Losada R., Crous-Duran J., Palma J.H.N., Paulo J.A., Oliveira T.S., Cirou E., Hannachi Y., Pantera A., Wartelle R., Kay S., Malignier N., Lerberghe P.V., Tsonkova P., Mirck J., Rois M., Kongsted A.G., Thenail C., Luske B., Berg S., Gosme M., Vityi A. (2018)
How is agroforestry perceived in Europe? An assessment of positive and negative aspects by stakeholders
Agroforestry Systems, 92(4): 829-848. DOI: https://doi.org/10.1007/s10457-017-0116-3
Demertzi M., Paulo J.A., Faias S.P., Arroja L., Dias A.C. (2018)
Evaluating the carbon footprint of the cork sector with a dynamic approach including biogenic carbon flows
International Journal of Life Cycle Assessment, 23(7): 1448-1459. DOI: https://doi.org/10.1007/s11367-017-1406-8
Faias S.P., Paulo J.A., Palma J.H.N., Tomé M. (2018)
Understory effect on tree and cork growth in cork oak woodlands
Forest Systems, 27(1).
Moreno G., Aviron S., Berg S., Crous-Duran J., Franca A., de Jalón S.G., Hartel T., Mirck J., Pantera A., Palma J.H.N., Paulo J.A., Re G.A., Sanna F., Thenail C., Varga A., Viaud V., Burgess P.J. (2018)
Agroforestry systems of high nature and cultural value in Europe: provision of commercial goods and other ecosystem services
Agroforestry Systems, 92(4): 877–891.
Palma J.H.N., Crous-Duran J., Graves A., García de Jálon S., Upson M., Oliveira T., Paulo J.A., Ferreiro-Dominguez N., Moreno G., Burgess P. (2018)
Integrating belowground carbon dynamics into Yield-SAFE, a parameter sparse agroforestry model
Agroforestry Systems, 92 (4): 1047-1057.
Rois-Díaz M., Lovrić N., Lovrić M., Ferreiro-Domínguez N., Mosquera-Losada M.R., den Herder M., Graves A., Palma J.H.N., Paulo J.A., Pisanelli A., Smith J., Moreno G., García S., Varga A., Pantera A., Mirck J., Burgess P. (2018)
Farmers’ reasoning behind the uptake of agroforestry practices: evidence from multiple case-studies across Europe
Agroforesty Systems, 92(4): 811-828.
Demertzi M., Sierra-Pérez J., Paulo J.A., Arroja L., Dias A.C. (2017)
Environmental performance of expanded cork slab and granules through life cycle assessment
Journal of Cleaner Production, 145: 294–302. DOI: http://dx.doi.org/10.1016/j.jclepro.2017.01.071
den Herder M., Moreno G., Mosquera-Losada R., Palma J.H.N, Sidiropoulou A., Freijanes J.J.S., Crous-Duran J., Paulo J.A., Tomé M., Pantera A., Papanastasis V.P., Mantzanas K., Pachana P., Papadopoulos A., Plieninger T., Burgess P.J. (2017)
Current extent and stratification of agroforestry in the European Union
Agriculture, Ecosystems and Environment, 241: 121–132. DOI: https://doi.org/10.1016/j.agee.2017.03.005
Paulo J.A., Pereira H., Tomé M. (2017)
Analysis of variables influencing tree cork caliper in two consecutive cork extractions using cork growth index modelling
Agroforestry Systems, 91(2): 221–237.
Paulo J.A., Tomé M. (2017)
Using the SUBER model for assessing the impact of cork debarking rotation on equivalent annual annuity in Portuguese stands
Forest Systems, 26(1): e008.
Paulo J.A., Tomé M. (2017)
Does debarking intensity in the first cork extraction affect future cork thickness?
Annals of Forest Science, 74: 66. DOI: https://doi.org/10.1007/s13595-017-0662-x
Reyer C., Bathgate S., Blennow K., Borges J.G., Bugmann H., Delzon S., Faias S.P., Garcia-Gonzalo J., Gardiner B., Gonzalez-Olabarria J.R., Gracia C., Guerra J., Kellomäki S., Kramer K., Lexer M.J., Lindner M., van der Maaten E., Maroschek M., Muys B., Nicoll B., Palahi M., Palma J.H.N., Paulo J.A., Peltola H., Pukkala T., Rammer W., Ray D., Sabaté S., Schelhaas M., Seidl R., Temperli C., Tomé M., Yousefpour R., Zimmermann N.E., Hanewinkel M. (2017)
Are forest disturbances amplifying or canceling out climate change-induced productivity changes in European forests?
Environmental Research Letters, 12(3).
Demertzi M., Paulo J.A., Arroja L., Dias A.C. (2016)
A carbon footprint simulation model for the cork oak sector
Science of the Total Environment, 566–567:499–511. DOI: http://dx.doi.org/10.1016/j.scitotenv.2016.05.135
Paulo J.A., Faias S.P., Ventura-Giroux C., Tomé M. (2016)
Estimation of stand crown cover using a generalized crown diameter model: application for the analysis of Portuguese cork oak stands stocking evolution
iForest – Biogeosciences and Forestry, 9: 437-444.
Palma J.H.N., Paulo J.A., Faias S.P., Garcia-Gonzalo J., Borges J.G., Tomé M. (2015)
Adaptive management and debarking schedule optimization of Quercus suber L. stands, under climate change. Case study in Chamusca, Portugal
Regional Environmental Change, 15:(8): 1569-1580.
Paulo J.A., Faias S., Gomes A.A., Palma J.H.N., Tomé J., Tomé M. (2015)
Predicting site index from climate and soil variables for cork oak (Quercus suber L.) stands in Portugal
New Forests, 46(2):293-307.
Paulo, J. A., Oliveira, V. Pereira, H. (2015)
Book of abstracts of the 2nd Centro de Estudos Florestais (CEF) conference from research to practice.
Cork oak stands and cork oak. 25th September 2015. Instituto Superior de Agronomia, Lisboa, Portugal. 27 pp. . URL: http://hdl.handle.net/10400.5/9280
Palma J.H.N., Paulo J.A., Tomé M. (2014)
Carbon sequestration of modern Quercus suber L. silvoarable agroforestry systems in Portugal: a YieldSAFE-based estimation
Agroforestry Systems, 88(5): 791-801.
Raftoyannis Y., Nocentini S., Marchi E., Calama Sainz R., Garcia Guemes C., Pilas I., Peric S., Paulo J.A., Moreira-Marcelino A.C., Costa-Ferreira M., Kakouris E., Lindner M. (2014)
Perceptions of forest experts on climate change and fire management in European Mediterranean forests
iForest, 7: 33-41. DOI: https://doi.org/10.3832/ifor0817-006
Coelho M.B., Paulo J.A., Palma J.H.N., Tomé M. (2012)
Contribution of cork oak plantations installed after 1990 in Portugal to the Kyoto commitments and to the landowners economy
Forest Policy and Economics, 17: 59-68.
Faias S.P., Palma J.H.N., Barreiro S., Paulo J.A., Tomé M. (2012)
sIMfLOR – Platform for the Portuguese forest simulators
Forest Systems, 21 (3): 543-548.
Paulo J.A., Tomé J., Tomé M. (2011)
Nonlinear fixed and random generalized height-diameter models for Portuguese cork oak stands
Annals of Forest Science, 68(2): 295-309.
Paulo J.A., Tomé M. (2010)
Predicting mature cork biomass with t years of growth from one measurement taken at any other age
Forest Ecology and Management, 259: 1993-2005.
Livros
Estudo prospetivo para o setor florestal
Caldeira B., Praxedes J., Santos P.M., Brígido S., Paulo J.A., Palma J.H.N., Pina J.P., Garcia-Gonzalo J., Borges J.G.C., Tomé M., Soares P., Barreiro S., Mendes A.M.S.C., Sottomayor M. (2013)
Associação para a Competitividade da Indústria da Fileira Floresta, 295 p.. URL: http://www.aiff.pt/assets/ESTUDO_Prospetivo_-Sector-Florestal.pdf
Book of abstracts of the 1st Centro de Estudos Florestais (CEF) conference from research to practice.
Paulo, J. A., Pereira, H. (2013)
Cork oak stands and cork oak. 31st January 2014. Instituto Superior de Agronomia, Lisboa, Portugal. 17 pp. . URL: http://hdl.handle.net/10400.5/6758
Capítulos de Livros
Tomé, M., Cañellas, I., Bonet, J. A., Paulo, J. A., Palma, J. H. N., Martínez de Aragón, J., Miina, J., Sheppard, J., Kurttila, M., Sanchés-Gonzalez, M., Pasalodos, M., de-Miguel, Sergio. (2019)
Resource and management – Novel management concepts to boost product diversity and secure higher product flows
In: Wolfslehner, B., Prokofieva, I. and Mavsar, R. (editors). Non-wood forest products in Europe: Seeing the forest around the trees. What Science Can Tell Us 10. European Forest Institute. pp 114. . URL: https://efi.int/sites/default/files/files/publication-bank/2019/efi_wsctu_10_2019.pdf
Tomé, M., Sheppard, J., Alma, M. H., Carrasquinho, I., Christensen, C. J., Hellström, J., Kurttila, M., Marnila, P., Mattila, P., Miina, J., Mutke, S., Paulo, J. A., Palma, J. H., Pihlava, J., Pignatti, G., Sanchéz-González, M., Silva, C. S., Soares, P., Vanhanen, H. (2019)
Non-wood tree products in Europe.
In: Harald Vacik, Mike Hale, Heinrich Spiecker, Davide Pettenella & Margarida Tomé (Eds.) 2020: Non-Wood Forest Products in Europe, Ecology and management of mushrooms, tree products, understory plants and animal products, Outcomes of the COST Action FP1203 on European NWFPs, BoD, Norderstedt, 416p.. ISBN: 978-3-7494-7546-9
Cañellas I., Sánchez-González M., Bogino S.M., Adame P., Moreno-Fernández D., Herrero C., Roig S., Tomé M., Paulo J.A., Bravo F. (2017)
Carbon sequestration in Mediterranean oak forests
In: Managing Forest Ecosystems: the Challenge of Climate Change. Bravo F., LeMay V., Jandl R. (Eds.). Managing Forest Ecosystems, Vol. 34, Part V, pp. 403-427. Springer, Cham. ISBN: 978-3-319-28248-0
Projetos
ResAlliance
Landscape resilience knowledge alliance for agriculture and forestry in the Mediterranean basin
Duração: 2022-2024
Orçamento CEF: 329187.50€ €
ACORNDEW
Impulso à sustentabilidade da floresta de carvalhos do Parque Natural de Montesinho através da inovação: valorização da bolota e da melada
Duração: 2021-2025
Orçamento CEF: 249.976,88 €
FIRE-RES
Tecnologias inovadoras & soluções sócio-ecológicas-económicas para territórios resistentes aos incêndios na Europa
Duração: 2021-2025
Orçamento CEF: 633455.84 € €
SUDOE-COMFOR
Gestão integrada e inteligente de florestas complexas e plantações mistas no SUDOE
Duração: 2020-2023
Orçamento CEF: 149931,27€ €
WILDFOOD
Eating the wild: Improving the value-chain of Mediterranean Wild Food Products
Duração: 2020-2023
Orçamento CEF: 67000 €
INCREDIBLE
Redes de Inovação de Cortiça, Resinas e Comestíveis da bacia Mediterrânica
Duração: 2017-2020
Orçamento CEF: 158.063 €
CorkNeighbors
Estudo e modelação da interação de sobreiros com a vegetação circundante
Duração: 2016-2019
Orçamento CEF: 156.000 €
SUFORUN
Models and decision SUpport tools for integrated FOrest policy development under global change and associated Risk and UNcertainty
Duração: 2016-2020
Orçamento CEF: 275333.00 €