Mostrando 10 resultados de: 12
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Journal of Biogeography(4)
Biodiversity and Conservation(2)
Biotropica(1)
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Beyond climate control on species range: The importance of soil data to pbkp_redict distribution of Amazonian plant species
ArticleAbstract: Aim: To evaluate the relative importance of climatic versus soil data when pbkp_redicting species diPalabras claves:Amazon rain forest, Bayesian logistic regression, cation exchange capacity, Climate Change, ecological niche models, soil factors, SoilGrids, species distribution models, species range, tropical soilsAutores:Balslev H., Figueiredo F.O.G., Gabriel M. Moulatlet, Regina Capellotto Costa F., Tuomisto H., Zuquim G.Fuentes:scopusA compositional turnover zone of biogeographical magnitude within lowland Amazonia
ArticleAbstract: Aim: To assess the relative roles of geologically defined terrain types (environmental heterogeneityPalabras claves:amazonía, dispersal barriers, edaphic heterogeneity, Indicator species, Nauta/Içá Formation, parapatric speciation, Pebas/Solimões Formation, plant species turnover, soil cation concentrationAutores:Balslev H., Emílio T., Figueiredo F.O.G., Gabriel M. Moulatlet, Pedersen D., Ruokolainen K., Tuomisto H.Fuentes:scopusCongruence between floristic patterns of trees and lianas in a southwest Amazonian rain forest
ArticleAbstract: The congruence in floristic patterns between different life-forms of woody plants remains poorly undPalabras claves:Autores:Cala V., Manuel J. Macía, Quisbert J., Ruokolainen K., Tuomisto H.Fuentes:scopusCorrection to: The role of environmental filtering, geographic distance and dispersal barriers in shaping the turnover of plant and animal species in Amazonia (Biodiversity and Conservation, (2020), 29, 13, (3609-3634), 10.1007/s10531-020-02040-3)
OtherAbstract: Following publication, the authors realized that Fernando H. T. de Abreu and Marina Anciães were inaPalabras claves:Autores:Anciães M., Azevedo R., Baccaro F.B., Bobrowiec P.E.D., da C. Tavares V., Dambros C., de Abreu F.H.T., de Souza A.H.N., Dias M.S., do Vale J.D., d’Horta F., Emílio T., Espirito-Santo H.M.V., Figueiredo F.O.G., Franklin E., Freitas C., Gabriel M. Moulatlet, Graça M.B., Leitão R.P., Magnusson W.E., Maximiano M.F.A., Mendonça F.P., Menger J., Morais J.W., Regina Capellotto Costa F., Ribas C.C., Souza J.L.P., Tuomisto H., Venticinque E.M., Zuanon J., Zuquim G.Fuentes:scopusAre floristic and edaphic patterns in Amazonian rain forests congruent for trees, pteridophytes and Melastomataceae?
ArticleAbstract: Studies in western Amazonian forests have found that similarities in soil cation concentration and tPalabras claves:amazonía, Beta diversity, Indicator species, Melastomataceae, Pteridophytes, soil, trees, Tropical rain forest, Vegetation inventoryAutores:Higgins M.A., Manuel J. Macía, Ruokolainen K., Tuomisto H., Yli-Halla M.Fuentes:scopusGlobal fern and lycophyte richness explained: How regional and local factors shape plot richness
ArticleAbstract: Aim: To disentangle the influence of environmental factors at different spatial grains (regional andPalabras claves:BIG DATA, Macroecology, Pteridophytes, regional-local richness relationship, saturation curves, Structural equation modellingAutores:Abrahamczyk S., Aros-Mualin D., Aubin I., Bita-Nicolae C., Bruelheide H., Cicuzza D., Csiky J., Dengler J., G. Quintanilla L., Gabriel M. Moulatlet, Gasper A.L.d., Guerin G.R., Haider S., Hernández-Rojas A.C., I. Carvajal-Hernández C., Jandt U., Karger D.N., Kessler M., Khine P.K., Kluge J., Kreft H., Krömer T., Laura Salazar Cotugno, Lehnert M., Lenoir J., Nascimento da Costa L.E., Noben S., Olivares I., Reich P.B., Reyes-Chávez J., Silva-Mijangos L., Tuomisto H., Weigand A., Weigelt P., Zuquim G.Fuentes:googlescopusDistribution and diversity of pteridophytes and melastomataceae along edaphic gradients in Yasuní National Park, Ecuadorian Amazonia
ArticleAbstract: We documented the floristic composition of pteridophytes (ferns and fern allies) and MelastomataceaePalabras claves:amazonía, DIVERSITY, ECUADOR, Edaphic gradient, Melastomataceae, Pteridophytes, Species richness, Tropical rain forestAutores:Cañas G., Catalina Quintana, Jorge E. Celi, Moran R.C., Poulsen A.D., Ruokolainen K., Tuomisto H.Fuentes:googlescopusDiscovering floristic and geoecological gradients across Amazonia
ArticleAbstract: Aim: To map and interpret floristic and geoecological patterns across the Amazon basin by combiningPalabras claves:amazonía, biogeographical regions, floristic gradients, Landsat satellite, medium resolution multispectral imagery, remote sensing, Tropical rain forest, vegetationAutores:Anders Henrik Sirén, Cárdenas G., Figueiredo F.O.G., Gabriel M. Moulatlet, Lehtonen S., Ruokolainen K., Tuomisto H., Van doninck J., Zuquim G.Fuentes:scopusImpact of individual protected areas on deforestation and carbon emissions in Acre, Brazil
ArticleAbstract: Protecting tropical forests from deforestation is important for mitigating both biodiversity loss anPalabras claves:Arc of deforestation, counterfactual, deforestation front, EFFECTIVENESS, Redd+, tropicsAutores:Eklund J., Gabriel M. Moulatlet, Koskimäki T., Tuomisto H.Fuentes:scopusUsing digital soil maps to infer edaphic affinities of plant species in Amazonia: Problems and prospects
ArticleAbstract: Amazonia combines semi-continental size with difficult access, so both current ranges of species andPalabras claves:amazonía, ferns, HWSD, soil properties, SoilGrids, SOTERLAC, species distribution modeling, species tolerancesAutores:Emílio T., Figueiredo F.O.G., Gabriel M. Moulatlet, Lehtonen S., Ruokolainen K., Tuomisto H., Zuquim G.Fuentes:scopus