Member

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

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

Correia A.C., Faias S.P., Ruiz-Peinado R., Chianucci F., Cutini A., Fontes L., Manetti M.C., Montero G., Soares P., Tomé M. (2018)

Generalized biomass equations for Stone pine (Pinus pinea L.) across the Mediterranean basin

Forest Ecology and Management, 429: 425-436.

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).

Guerra-Hernández J., González-Ferreiro E., Monleón V. J., Faias S.P., Tomé M., Díaz-Varela R. A. (2017)

Use of Multi-Temporal UAV-Derived Imagery for estimating individual tree growth in Pinus pinea stands

Forests, 8(8): 300.

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).

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.

Blennow K., Persson E., Lindner M., Faias S.P., Hanewinkel M. (2014)

Forest owner motivations and attitudes towards supplying biomass for energy in Europe

Biomass and Bioenergy, 67: 223-230.

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.

Correia A.C., Pacheco C.A., Tomé M., Faias S., Dias A.C., Freire J., Carvalho P.O., Pereira J.S. (2010)

Biomass allometry and carbon factors for a Mediterranean pine (Pinus pinea L.)

Forest Systems, 19(3): 418-433. DOI: https://doi.org/10.5424/fs/2010193-9082