Publicaciones en investigación forestal

Investigación forestal

Realizamos producción científica reconocida nacional e internacionalmente en nuestras áreas de investigación.

  • Sales E., Cañizares E., Pereira C., Pérez-Oliver M.A., Nebauer S.G., Pavlović I., Novák O., Segura J., Arrillaga I. Changing Temperature Conditions during Somatic Embryo Maturation Result in Pinus pinaster Plants with Altered Response to Heat Stress (2022) International Journal of Molecular Sciences, 23, 3 1318 doi: 10.3390/ijms23031318
  • Sabater S., Freixa A., Arias A., López-Doval J. Green and brown stream trophic food chains show specific responses to constant or hump-shaped inputs of copper (2022) Science of the Total Environment, 807, 150740 doi: 10.1016/j.scitotenv.2021.150740
  • López de Heredia U., Mora-Márquez F., Goicoechea P.G., Guillardín-Calvo L., Simeone M.C., Soto A.  Corrigendum: ddRAD Sequencing-Based Identification of Genomic Boundaries and  Permeability in Quercus ilex and Q. suber Hybrids(Front. Plant Sci., (2020), 11, (564414),10.3389/fpls.2020.564414) (2022      ) Frontiers in Plant Science, 12, 78 doi: 10.3389/fpls.2021.786695
  • Do Nascimento, A. M. M., Montalbán, I. A., Llamazares De Miguel, D., Goicoa, T., Ugarte, M. D., & Moncaleán, P. (2022). High temperature and water deficit cause epigenetic changes in somatic plants of pinus radiata D. don. Plant Cell, Tissue and Organ Culture, doi:10.1007/s11240-022-02336-y
  • Castander-Olarieta, A., Pereira, C., Mendes, V. M., Correia, S., Manadas, B., Canhoto, J., . . . Moncaleán, P. (2022). Thermopriming-associated proteome and sugar content responses in pinus radiata embryogenic tissue. Plant Science, 321 doi:10.1016/j.plantsci.2022.111327
  • Ayala, L. P. E., Luna, C. V., Brugnoli, E. A., Espasandin, F. D., Duarte, M. J., González, A. M., . . . Sansberro, P. A. (2022). Cryopreservation of mature zygotic embryos, shoot bud regeneration, and field establishment of pinus elliottii var. elliottii x pinus caribaea var. hondurensis in vitro-derived plants. Trees – Structure and Function, https://doi.org/10.1007/s00468-022-02359-0
  • Rojas-Vargas, A., Castander-Olarieta, A., Montalbán, I. A., & Moncaleán, P. (2022). Influence of physico-chemical factors on the efficiency and metabolite profile of adult pinus radiata D. don bud organogenesis. https://zenodo.org/record/7274061#.Y2JnO3bMLXI

  • Castander-Olarieta, A., Pereira, C., Montalbán, I.A., Pěnčík, A., Petřík, I., Pavlović, I., Novák, O., Strnad, M., Moncaleán, P. Quantification of endogenous aromatic cytokinins in Pinus radiata embryonal masses after application of heat stress during initiation of somatic embryogenesis (2021) Trees – Structure and Function, 35 (3), pp. 1075-1080.
  • Castander-Olarieta, A., Pereira, C., Montalbán, I.A., Mendes, V.M., Correia, S., Suárez-Álvarez, S., Manadas, B., Canhoto, J., Moncaleán, P. Proteome-Wide Analysis of Heat-Stress in Pinus radiata Somatic Embryos Reveals a Combined Response of Sugar Metabolism and Translational Regulation Mechanisms (2021) Frontiers in Plant Science, 12, art. no. 631239, .
  • Vargas, A.R., Castander-Olarieta, A., Moncaleán, P., Montalbán, I.A. Optimization of the micropropagation of elite adult trees of Sequoia sempervirens: Forest species of interest in the Basque Country, Spain (2021) Revista Bionatura, 6 (1), pp. 1511-1519.
  • Pereira, C., Montalbán, I.A., Pedrosa, A., Tavares, J., Pestryakov, A., Bogdanchikova, N., Canhoto, J., Moncaleán, P. Regeneration of Pinus halepensis (mill.) through organogenesis from apical shoot buds (2021) Forests, 12 (3), art. no. 363, .
  • Montalbán, I.A., Castander-Olarieta, A., Hargreaves, C.L., Gough, K., Reeves, C.B., Ballekom, S., Goicoa, T., Ugarte, M.D., Moncaleán, P. Hybrid pine (Pinus attenuata × Pinus radiata) somatic embryogenesis: What do you prefer, mother or nurse? (2021) Forests, 12 (1), art. no. 45, pp. 1-12.
  • Castander-Olarieta, A., Moncaleán, P., Pereira, C., Pěnčík, A., Petřík, I., Pavlović, I., Montalbán, I. A. (2021). Cytokinins are involved in drought tolerance of pinus radiata plants originating from embryonal masses induced at high temperatures. Tree Physiology, 41(6), 912-926. doi:10.1093/treephys/tpaa055
  • Sarimana, U., Herrero, J., Erika, P., Indarto, N., Wendra, F., Santika, B., Ritter, E., Sembiring, Z., Asmono, D. Analysis of genetic diversity and discrimination of oil palm dxp populations based on the origins of pisifera elite parents (2021) Breeding Science, 71 (2), pp. 134-143 doi:10.1270/jsbbs.20043
  • Gartzia-Bengoetxea, N., Martínez de Arano, I., Arias-González, A. Forest productivity and associated soil ecosystem services remain altered 15years after mechanized site preparation for reforestation with Pinus radiata (2021) Soil and Tillage Research, 213, art. no. 105150 doi: 10.1016/j.still.2021.105150
  • Benito-Carnero, G., Gartzia-Bengoetxea, N., Arias-González, A., Rousk, J. Low-quality carbon and lack of nutrients result in a stronger fungal than bacterial home-field advantage during the decomposition of leaf litter (2021) Functional Ecology, 35 (8), pp. 1783-1796 doi:10.1111/1365-2435.13822
  • Mesanza, N., Raposo, R., Elvira-Recuenco, M., Barnes, I., van der Nest, A., Hernández, M., Pascual, M.T., Barrena, I., San Martín, U., Cantero, A., Hernandez-Escribano, L., Iturritxa, E. New hosts for Lecanosticta acicola and Dothistroma septosporum in newly established arboreta in Spain (2021) Forest Pathology, 51 (1), art. no. e12650 doi: 10.3389/fpls.2021.631239
  • Castander-Olarieta, A., Pereira, C., Montalbán, I.A., Mendes, V.M., Correia, S., Suárez-Álvarez, S., Manadas, B., Canhoto, J., Moncaleán, P. Proteome-Wide Analysis of Heat-Stress in Pinus radiata Somatic Embryos Reveals a Combined Response of Sugar Metabolism and Translational Regulation Mechanisms (2021) Frontiers in Plant Science, 12, art. no. 631239
  • Pereira, C., Castander-Olarieta, A., Sales, E., Montalbán, I.A., Canhoto, J., Moncaleán, P. Heat stress in pinus halepensis somatic embryogenesis induction: Effect in dna methylation and differential expression of stress-related genes (2021) Plants, 10 (11), art. no. 2333 doi: 10.3390/plants10112333
  • Aragonés, A., Manzanos, T., Stanosz, G., Munck, I.A., Raposo, R., Elvira-Recuenco, M., Berbegal, M., Mesanza, N., Smith, D.R., Simmons, M., Wyka, S., Iturritxa, E. Comparison of diplodia tip blight pathogens in spanish and north american pine ecosystems (2021) Microorganisms, 9 (12), art. no. 2565 doi: 10.3390/microorganisms9122565
  • Mesanza, N., García-García, D., Raposo, E.R., Raposo, R., Iturbide, M., Pascual, M.T., Barrena, I., Urkola, A., Berano, N., de Zerain, A.S., Iturritxa, E. Weather variables associated with spore dispersal of lecanosticta acicola causing pine needle blight in Northern Spain (2021) Plants, 10 (12), art. no. 2788 doi: 10.3390/plants10122788

  • Aguayo J., Fourrier-Jeandel C., Capdevielle X., Vétillard F., Piou D., Iturritxa E., Robin C. 2020 Assessment of molecular detection of Fusarium circinatum in insects and passive spore traps in Pinus radiata plantations Forest Pathology
  • Hernandez-Escribano L., Visser E.A., Iturritxa E., Raposo R., Naidoo S. 2020 The transcriptome of Pinus pinaster under Fusarium circinatum challenge BMC Genomics
  • Gartzia-Bengoetxea N., Virto I., Arias-González A., Enrique A., Fernández-Ugalde O., Barré P. 2020 Mineral control of organic carbon storage in acid temperate forest soils in the Basque Country Geoderma
  • Pereira C., Castander-Olarieta A., Montalbán I.A., Pěnčík A., Petřík I., Pavlović I., Medeiros Oliveira E.D., de Freitas Fraga H.P., Guerra M.P., Novák O., Strnad M., Canhoto J., Moncaleán P. 2020 Embryonal masses induced at high temperatures in Aleppo pine: Cytokinin profile and cytological characterization Forests
  • López de Heredia U., Mora-Márquez F., Goicoechea P.G., Guillardín-Calvo L., Simeone M.C., Soto A. 2020 ddRAD Sequencing-Based Identification of Genomic Boundaries and Permeability in Quercus ilex and Q. suber Hybrids Frontiers in Plant Science
  • Castander-Olarieta, A., Pereira, Sales, E., C., Meijón, M.d, Arrillaga, I., Cañal, M.J., Goicoa, T., Ugarte, M.D., Moncaleán, P., Montalbán, I.A. (2020) Induction of radiata pine somatic embryogenesis at high temperatures provokes a long-term decrease in dna methylation/hydroxymethylation and differential expression of stress-related genes, Plants, 9(12), art. no. 1762, pp. 1-16.
  • Mancheño, J.M., Atondo, E., Tomás-Cortázar, J.b,, Luís Lavín, J., Plaza-Vinuesa, L., Martín-Ruiz, I., Barriales, D., Palacios, A., Daniel Navo, C., Sampedro, L., Peña-Cearra, A., Ángel Pascual-Itoiz, M., Castelo, J., Carreras-González, A., Castellana, D.h, Pellón, A., Delgado, S., Ruas-Madiedo, P., de las Rivas, B., Abecia, L.b,, Muñoz, R., Jiménez-Osés, G., Anguita, J., Rodríguez, H. (2020) A structurally unique Fusobacterium nucleatum tannase provides detoxicant activity against gallotannins and pathogen resistance, Microbial Biotechnology.
  • Mesanza, N., Raposo, R., Elvira-Recuenco, M., Barnes, I., van der Nest, A., Hernández, M., Pascual, M.T., Barrena, I., San Martín, U., Cantero, A., Hernandez-Escribano, L., Iturritxa, E. (2020) New hosts for Lecanosticta acicola and Dothistroma septosporum in newly established arboreta in Spain, Forest Pathology.
  • Do Nascimento, A.M.M., Barroso, P.A., Do Nascimento, N.F.F., Goicoa, T., Ugarte, M.D., Montalbán, I.A., Moncaleán, P. 2020.  Pinus spp. somatic embryo conversion under high temperature: Effect on the morphological and physiological characteristics of plantlets. Forests, Volume 11, Issue 11, November 2020, Article number 1181, Pages 1-14.
  • Castander-Olarieta, A., Moncaleán, P., Montalbán, I.A. 2020. Pinus canariensis plant regeneration through somatic embryogenesis. Forest Systems, Volume 29, Issue 1, 2020, Article number eSC05.
  • Pereira, C., Castander-Olarieta, A., Montalbán, I.A., Pěnčík, A., Petřík, I., Pavlović, I., Medeiros Oliveira, E.D., de Freitas Fraga, H.P., Guerra, M.P., Novák, O., Strnad, M., Canhoto, J., Moncaleán, P. Embryonal masses induced at high temperatures in Aleppo pine: Cytokinin profile and cytological characterization (2020) Forests, 11 (8), art. no. 807, .

  • Schratz P., Muenchow J., Iturritxa E., Richter J., Brenning A. ( 2019 ) Hyperparameter tuning and performance assessment of statistical and machine-learning algorithms using spatial data Elsevier B.V. Vol. 406 Pag 109
  • Moragues-Saitua L., Merino-Martín L., Stokes A., Staunton S. ( 2019 ) Towards meaningful quantification of glomalin-related soil protein (GRSP) taking account of interference in the Coomassie Blue (Bradford) assay Blackwell Publishing Ltd Vol. 70 Pag 727
  • Manzanos T., Aragonés A., Iturritxa E. ( 2019 ) Genotypic diversity and distribution of Sphaeropsis sapinea within Pinus radiata trees from northern Spain Blackwell Publishing Ltd Vol. 49 Pag
  • Manzanos T., Stanosz G.R., Smith D.R., Muenchow J., Schratz P., Brenning A., Aragonés A., Iturritxa E. ( 2019 ) Mating type ratios and pathogenicity in Diplodia shoot blight fungi populations: Comparative analysis Blackwell Publishing Ltd Vol. 49 Pag
  • Mesanza N., Crawford B.D., Coulson T.J., Iturritxa E., Patten C.L. ( 2019 ) Colonization of Pinus radiata D. Don seedling roots by biocontrol bacteria erwinia billingiae and Bacillus simplex MDPI AG Vol. 10 Pag
  • Castander-Olarieta A., Montalbán I.A., De Medeiros Oliveira E., Dell’aversana E., D’amelia L., Carillo P., Steiner N., Fraga H.P.D.F., Guerra M.P., Goicoa T., Ugarte M.D., Pereira C., Moncaleán P. ( 2019 ) Effect of thermal stress on tissue ultrastructure and metabolite profiles during initiation of radiata pine somatic embryogenesis Frontiers Media S.A. Vol. 9 Pag
  • Montalbán I.A., Moncaleán P. ( 2019 ) Rooting of Pinus radiata somatic embryos: factors involved in the success of the process Northeast Forestry University Vol. 30 Pag 65
  • Martín-García J., Zas R., Solla A., Woodward S., Hantula J., Vainio E.J., Mullett M., Morales-Rodríguez C., Vannini A., Martínez-Álvarez P., Pinto G., Alves A., Amaral J., Wingfield M.J., Fourie G., Steenkamp E.T., Ahumada R., Šerá B., Sanz-Ros A.V., Raposo R., Elvira-Recuenco M., Iturritxa E., Gordon T.R., Diez J.J. ( 2019 ) Environmentally friendly methods for controlling pine pitch canker Blackwell Publishing Ltd Vol. 68 Pag 843

  • Correia, H. A., Almeida, H. M., Branco, M., Tomé, M., Montoya, R. C., Di Lucchio, L., . . . Orazio, C. (2018). Early survival and growth plasticity of 33 species planted in 38 arboreta across the european atlantic area. Forests, 9(10) doi:10.3390/f9100630
  • Desprez-Loustau, M. -., Massot, M., Toïgo, M., Fort, T., Aday Kaya, A. G., Boberg, J., . . . Tack, A. J. (2018). From leaf to continent: The multi-scale distribution of an invasive cryptic pathogen complex on oak. Fungal Ecology, 36, 39-50. doi:10.1016/j.funeco.2018.08.001
  • Hernandez-Escribano, L., Iturritxa, E., Aragonés, A., Mesanza, N., Berbegal, M., Raposo, R., & Elvira-Recuenco, M. (2018). Root infection of canker pathogens, fusarium circinatum and diplodia sapinea, in asymptomatic trees in pinus radiata and pinus pinaster plantations. Forests, 9(3) doi:10.3390/f9030128
  • Hernandez-Escribano, L., Iturritxa, E., Elvira-Recuenco, M., Berbegal, M., Campos, J. A., Renobales, G., . . . Raposo, R. (2018). Herbaceous plants in the understory of a pitch canker-affected pinus radiata plantation are endophytically infected with fusarium circinatum. Fungal Ecology, 32, 65-71. doi:10.1016/j.funeco.2017.12.001
  • Manzanos, T., Stanosz, G. R., Smith, D. R., Muenchow, J., Schratz, P., Brenning, A., . . . Iturritxa, E. (2018). Mating type ratios and pathogenicity in diplodia shoot blight fungi populations: Comparative analysis. Forest Pathology, doi:10.1111/efp.12475
  • Moncaleán, P., García-Mendiguren, O., Novák, O., Strnad, M., Goicoa, T., Ugarte, M. D., & Montalbán, I. A. (2018). Temperature and water availability during maturation affect the cytokinins and auxins profile of radiata pine somatic embryos. Frontiers in Plant Science, 9 doi:10.3389/fpls.2018.01898

  • de Urbina, E. O., Mesanza, N., Aragonés, A., Raposo, R., Elvira-Recuenco, M., Boqué, R., Iturritxa, E. (2017). Emerging needle blight diseases in atlantic pinus ecosystems of spain. Forests, 8(1) doi:10.3390/f8010018
  • Fernández-Ugalde, O., Gartzia-Bengoetxea, N., Arostegi, J., Moragues, L., & Arias-González, A. (2017). Storage and stability of biochar-derived carbon and total organic carbon in relation to minerals in an acid forest soil of the spanish atlantic area. Science of the Total Environment, 587-588, 204-213. doi:10.1016/j.scitotenv.2017.02.121
  • García-Mendiguren, O., Montalbán, I. A., Goicoa, T., Ugarte, M. D., & Moncaleán, P. (2017). Are we able to modulate the response of somatic embryos of pines to drought stress? doi:10.17660/ActaHortic.2017.1155. 10 Retrieved from www.scopus.com
  • Hargreaves, C., Reeves, C., Gough, K., Montalbán, I. A., Low, C., van Ballekom, S., . . . Moncaleán, P. (2017). Nurse tissue for embryo rescue: Testing new conifer somatic embryogenesis methods in a F1hybrid pine. Trees – Structure and Function, 31(1), 273-283. doi:10.1007/s00468-016-1482-6
  • Iturritxa, E., Trask, T., Mesanza, N., Raposo, R., Elvira-Recuenco, M., & Patten, C. L. (2017). Biocontrol of fusarium circinatum infection of young pinus radiata trees. Forests, 8(2) doi:10.3390/f8020032
  • Manzanos, T., Aragonés, A., & Iturritxa, E. (2017). Diplodia scrobiculata: A latent pathogen of pinus radiata reported in northern spain. Phytopathologia Mediterranea, 56(2), 274-277. doi:10.14601/Phytopathol_Mediterr-20170
  • Mesanza, N., Patten, C. L., & Iturritxa, E. (2017). Distribution and characterization of armillaria complex in atlantic forest ecosystems of spain. Forests, 8(7) doi:10.3390/f8070235
  • Montalbán, I. A., & Moncaleán, P. (2017). Long term conservation at -80ºC of pinus radiata embryogenic cell lines: Recovery, maturation and germination. Cryo-Letters, 38(3), 202-209. Retrieved from www.scopus.com
  • Moragues-Saitua, L., Arias-González, A., & Gartzia-Bengoetxea, N. (2017). Effects of biochar and wood ash on soil hydraulic properties: A field experiment involving contrasting temperate soils. Geoderma, 305, 144-152. doi:10.1016/j.geoderma.2017.05.041
  • Pereira, C., Montalbán, I. A., Goicoa, T., Ugarte, M. D., Correia, S., Canhoto, J. M., & Moncaleán, P. (2017). The effect of changing temperature and agar concentration at proliferation stage in the final success of aleppo pine somatic embryogenesis. Forest Systems, 26(3) doi:10.5424/fs/2017263-11436
  • Serrano, Y., Iturritxa, E., Elvira-Recuenco, M., & Raposo, R. (2017). Survival of fusarium circinatum in soil and pinus radiata needle and branch segments. Plant Pathology, 66(6), 934-940. doi:10.1111/ppa.12648

  • García-Mendiguren, O., Montalbán, I. A., Correia, S., Canhoto, J., & Moncaleán, P. (2016). Different environmental conditions at initiation of radiata pine somatic embryogenesis determine the protein profile of somatic embryos. Plant Biotechnology, 33(3), 143-152. doi:10.5511/plantbiotechnology.16.0520a
  • García-Mendiguren, O., Montalbán, I. A., Goicoa, T., Ugarte, M. D., & Moncaleán, P. (2016). Environmental conditions at the initial stages of pinus radiata somatic embryogenesis affect the production of somatic embryos. Trees – Structure and Function, 30(3), 949-958. doi:10.1007/s00468-015-1336-7
  • Gartzia-Bengoetxea, N., Kandeler, E., Martínez de Arano, I., & Arias-González, A. (2016). Soil microbial functional activity is governed by a combination of tree species composition and soil properties in temperate forests. Applied Soil Ecology, 100, 57-64. doi:10.1016/j.apsoil.2015.11.013
  • Mesanza, N., Iturritxa, E., & Patten, C. L. (2016). Native rhizobacteria as biocontrol agents of heterobasidion annosum s.s. and armillaria mellea infection of pinus radiata. Biological Control, 101, 8-16. doi:10.1016/j.biocontrol.2016.06.003
  • Pereira, C., Montalbán, I. A., García-Mendiguren, O., Goicoa, T., Ugarte, M. D., Correia, S., . . . Moncaleán, P. (2016). Pinus halepensis somatic embryogenesis is affected by the physical and chemical conditions at the initial stages of the process. Journal of Forest Research, 21(3), 143-150. doi:10.1007/s10310-016-0524-7
  • Montalbán, I.A., García-Mendiguren, O., Moncaleán, P. Somatic embryogenesis in Pinus spp (2016) Methods in Molecular Biology, 1359, pp. 405-415.