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All issues Volume 33 / No 1 (2025) Silva Lusitana, 33 1 (2025) 1-19 References
Open Access
Issue
Silva Lusitana
Volume 33, Number 1, 2025
Page(s) 1 - 19
DOI https://doi.org/10.1051/silu/20253301001
Published online 16 July 2025
  • Abad Viñas, R., Caudullo, G., Oliveira, S., de Rigo, D., 2016. Pinus pinea in Europe: distribution, habitat, usage and threats. In European Atlas of Forest Tree Species. Publication Office of the European Union, Luxembourg. San-Miguel-Ayanz, J., de Rigo, D., Caudullo, G., Houston Durrant, T., Mauri, A. (Eds.), pp. 130–131. [Google Scholar]
  • Agri-Ciência, 2014. Estudo sobre a cadeia de valor da fileira Pinha/Pinhão (Pinus pinea L.). Ed. UNAC - União da Floresta Mediterrânica. [Google Scholar]
  • Alasalvar, C., Bolling, B.W., 2015. Review of nut phytochemicals, fatsoluble bioactives, antioxidant components and health effects. British Journal of Nutrition, Apr 113, Suppl 2: S68–S78. doi: 10.1017/S0007114514003729. [Google Scholar]
  • Calama, R., Madrigal, G., Candela, J.A., Montero, G., 2007. Effects of fertilization on the production of an edible forest fruit: stone pine (Pinus pinea L.) nuts in south-west Andalusia. Investigación Agraria: Sistemas y Recursos Forestales, 16(3): 241–252. [Google Scholar]
  • Correia, A.C., Farinha, A., Silva, J.E.P., Nunes, A., Conceição, N., Marcelo, M.E., Sarmento, A., Tomé, M., Soares, J., Fontes, L. 2024. Fertirrigation in grafted Pinus pinea L. trees: denser crowns but no effect on cone production or masting cycles. Forest Ecology and Management, 569. doi.org/10.1016/j.foreco.2024.122164. [Google Scholar]
  • Destaillats, F., Cruz-Hernandez, C., Giuffrida, F., Dionisi, F., Mostin, M., Verstegen, G., 2011. Identification of the botanical origin of commercial pine nuts responsible for dysgeusia by gas-liquid chromatography analysis of Fatty Acid profile. Journal of Toxicology, Mar 10. doi: 10.1155/2011/316789. [Google Scholar]
  • Djoussé, L., Hunt, S.C., Arnett, D.K., Province, M.A., Eckfeldt, J.H., Ellison, R.C., 2003. Dietary linolenic acid is inversely associated with plasma triacylglycerol: the National Heart, Lung, and Blood Institut Family Heart Study. The American Journal of Clinical Nutrition, 78(6): 1098–1102. doi: 10.1093/ajcn/78.6.1098. [Google Scholar]
  • Duarte, L., Pacheco, C., Soveral-Dias, J. C., 1998. Métodos de análise de material vegetal. Lisboa: INIAV/LQARS. [Google Scholar]
  • Fardin-Kia, A.R., Handy, S. M., Rader, J.I., 2012. Characterization of pine nuts in the U.S. market, including those associated with "pine mouth", by GCFID. Journal of Agricultural and Food Chemistry, 60(10): 2701–2711. doi: 10.1021/jf205188m. [Google Scholar]
  • Evaristo, I., Batista, D., Correia, I., Correia, P., Costa, R., 2010. Chemical profiling of Portuguese Pinus pinea L. nuts. Journal of the Science of Food and Agriculture, 90(6): 1041–1049. doi: 10.1002/jsfa.3914. [Google Scholar]
  • ICNF, 2019. IFN6 - Principais resultados - relatório sumário [pdf], 34 pp, Instituto da Conservação da Natureza e das Florestas. Lisboa. [Google Scholar]
  • ISO 5985: 2002. Animal feeding stuffs. Determination of ash insoluble in hydrochloric acid. [Google Scholar]
  • ISO 6496: 1999. Animal feeding stuffs. Determination of moisture and other volatile matter content. [Google Scholar]
  • Loewe-Muñoz, V., Delard C., Del Río R., Balzarini, M. 2020. Longterm effect of fertilization on stone pine growth and cone production. Annals of Forest Science, 77, 69. doi.org/10.1007/s13595-020-00978-6. [Google Scholar]
  • Loewe-Muñoz, V., Del Río, R., Delard, C., Balzarini, M., 2023. Effect of fertilization on Pinus pinea cone to seed and kernel yields. Forest Ecology and Management, 545. doi.org/10.1016/j.foreco.2023.121249. [Google Scholar]
  • Lutz, M., Álvarez, K., Loewe, V., 2017. Chemical composition of pine nut (Pinus pinea L.) grown in three geographical macrozones in Chile. CYTA - Journal of Food, 15(2): 284–290. doi:10.1080/19476337.2016.1250109. [Google Scholar]
  • Marcelo, M.E., Correia, A., Partidário, A.C., Gonçalves, A.C., Alexandre, C., Silva, C.S., Sempiterno, C., Calouro, F., Carrasquinho, I., Silvestre, J., Tomé, M., Jordão, P., Mano, R., Fernandes, R., Soares-David, T., Valdiviesso, T. 2022. A Fertilização do Pinheiro-manso - Recomendações para uma gestão florestal sustentável. Edição da UNAC - União da Floresta Mediterrânica, Lisboa. 20 pp. ISBN 978- 989-33-3560-4. https://www.unac.pt/images/Manual_FERTIPINEA.pdf [Google Scholar]
  • Mariotti, F., Tomé, D., Mirand, P., 2008. Converting nitrogen into protein - beyond 6.25 and Jones’ factors. Critical Reviews in Food Science and Nutrition, 48(2): 177–184. doi: 10.1080/10408390701279749. [Google Scholar]
  • Nasri, N., Khaldi, A., Fady, B., Triki, S., 2005. Fatty acids from seeds of Pinus pinea L.: Composition and population profiling. Phytochemistry, 66(14): 1729–1735. [Google Scholar]
  • Nergiz, C., Dönmez, I., 2004. Chemical composition and nutritive value of Pinus pinea L. seeds. Food Chemistry, 86(3): 365–368. doi: 10.1016/j.foodchem.2003.09.009. [Google Scholar]
  • No, D.S., Kim, IN-H., 2013. Pinolenic acid as a new source of phytopolyunsaturated fatty acid. Lipid Technology, 25(6): 135–138. doi: 10.1002/lite.201300278. [Google Scholar]
  • Piqué F.J.V., Martín R.T., 2007. Informe final "Asistencia Técnica para el asesoramiento y tratamiento de datos de Ensayos Clonales y de Progenies de Pinus pinea de La Medina (Huelva), El Mustio (Huelva), Cabeza Aguda (Córdoba) y La Morla (Cádiz) y ensayos de fertilización y riego de Pajonales y La Matilla (Huelva)". Huelva: Universidade de Huelva, 74 pp. [Google Scholar]
  • Poonam, S., 2022. Health benefits of pine nuts. WebMD, Health and Diet Guide, September 14. [Google Scholar]
  • Jung, S., Rickert, D.A., Deak, N.A., Aldin, E.D., Recknor, J., Johnson, L.A., Murphy, P.A., 2003. Comparison of kjeldahl and dumas methods for determining protein contents of soybean products. Jaocs, 80(12). doi.org/10.1007/s11746-003-0837-3. [Google Scholar]
  • Ros, E., Mataix, J., 2006. Fatty acid composition of nuts - implications for cardiovascular health. British Journal of Nutrition, 96, Suppl. 2: S29–S35. doi: 10.1017/BJN20061861. [Google Scholar]
  • Sempiterno, C., Fernandes, R., Marcelo, M.E., 2023. Effect of nitrogen and boron fertilisation on juvenile stone pine growth. A pot experiment. Silva Lusitana, 31(2): 121–134. https://silvalusitana. edpsciences.org/articles/silu/pdf/2023/02/silu20233102p121.pdf. [Google Scholar]
  • Thompson, M., Owen, L., Wilkinson, K., Wood, R., Damant, A., 2002. A comparison of the Kjeldahl and Dumas methods for the determination of protein in foods, using data from a proficiency testing scheme. Analyst, 127(12): 1666–8. doi: 10.1039/b208973b. [Google Scholar]
  • Valero-Galván, J., Reyna-González, M., Chico-Romero, P.A., Martínez-Ruiz, N.D.R., Núnez-Gastélum, J.A., Monroy-Sosa, A., Ruiz-May, E., González Fernández, R., 2019. Seed characteristics and nutritional composition of pine nut from five populations of P. cembroides from the states of Hidalgo and Chihuahua, Mexico. Molecules, 24(11): 2057. doi: 10.3390/molecules24112057. [Google Scholar]
  • Vanhanen, L.P., Savage, G.P., 2013. Mineral analysis of pine nuts (Pinus spp.) grown in New Zealand. Foods, 2(2): 143–150. doi: 10.3390/foods2020143. [Google Scholar]
  • Vanhanen, L.P., Savage, G.P., Hider, R.N., 2017. Fatty acid profile of New Zealand grown edible pine nuts (Pinus spp.). Food and Nutrition Sciences, 8(3): 305–315. doi: 10.4236/fns.2017.83020. [Google Scholar]
  • Yalim, N., Namalan, Z., Ozcan, M.M., 2022. Effect on human health components of pine nuts (Pinus pinea). Journal of Agroalimentary Processes and Technologies, 28(3): 203–213. [Google Scholar]
  • Weyh, C., Kruger, K., Peeling, P., Castell, L., 2022. The Role of Minerals in the Optimal Functioning of the Immune System. Nutrients, 14(3), 644. doi.org/10.3390/nu14030644. [Google Scholar]
  • Wolff, R.L., Comps, B., Marpeau, A.M., Deluc, L.G., 1997. Taxonomy of Pinus species based on the seed oil fatty acid compositions. Trees, 12: 113–118. [Google Scholar]
  • WRB, 2015. World Reference Base for Soil Resources 2014, update 2015. International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports 106. Rome: FAO. World reference base for soil resources 2014 (fao.org). [Google Scholar]
  • Zuleta, A., Weisstaub, A., Giancomino, S., Dyner, L., Loewe, V., del Rio, R., Lutz, M., 2018. An ancient crop revisited: chemical composition of Mediterranean pine nuts grown in six countries. Italian Journal of Food Science, 30: 170–183. [Google Scholar]

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