Mostrando 4 resultados de: 4
Advancing an interdisciplinary framework to study seed dispersal ecology
ReviewAbstract: Although dispersal is generally viewed as a crucial determinant for the fitness of any organism, ourPalabras claves:Analytical models, Demography, global change, Individual-based models, Long-distance seed dispersal, Population models, Seed dispersalAutores:Aslan C.E., B. A. Loiselle, Beckman N.G., Brodie J.F., Bronstein J.L., Bruna E.M., Bullock J.M., Cantrell R.S., Decker R.R., Efiom E., Fricke E.C., Gurski K., Hartig F., Hastings A., HilleRisLambers J., Johnson J.S., Kogan O., Miriti M.N., Neubert M.G., Pejchar L., Poulsen J.R., Pufal G., Razafindratsima O.H., Rogers H.S., Sandor M.E., Schreiber S.J., Schupp E.W., Shea K., Snell R.S., Strickland C., Zambrano J., Zhou Y., Zurell D.Fuentes:scopusGlobal camera trap synthesis highlights the importance of protected areas in maintaining mammal diversity
OtherAbstract: The establishment of protected areas (PAs) is a central strategy for global biodiversity conservatioPalabras claves:camera trap, Functional diversity, human accessibility, human footprint, mammal diversity, Protected area, Species richness, taxonomic diversityAutores:Agwanda B.R., Ahumada J.A., Andrianarisoa M.H., Appleton R.D., Bitariho R., Brodie J.F., Burton A.C., Chen C., Fisher J.T., Grigione M.M., Helgen K.M., Hubbard A., Hurtado C.M., Jansen P.A., Jiang X., Jonathan Davies T., Jones A., Kalies E.L., Kays R., Kiebou-Opepa C., Li X., Liu R., McShea W.J., Meyer E., Miller A.B., Moreira M.G., Murphy T., Piana R., Quan R.C., Rota C.T., Rovero F., Santiago Espinosa, Santos F., Schuttler S.G., Sheil D., Uduman A., van Bommel J.K., Young H.Fuentes:scopusEmploying plant functional groups to advance seed dispersal ecology and conservation
ArticleAbstract: Seed dispersal enables plants to reach hospitable germination sites and escape natural enemies. UndePalabras claves:Dependency, Directed dispersal, Dispersal vectors, generalization, mutualism, seed dispersal effectivenessAutores:Aslan C.E., B. A. Loiselle, Beckman N.G., Brodie J.F., Bronstein J.L., Bruna E.M., Bullock J.M., Cantrell R.S., Decker R.R., Effiom E., Fricke E.C., Gurski K., Hartig F., Hastings A., HilleRisLambers J., Johnson J.S., Kogan O., Miriti M.N., Neubert M.G., Pejchar L., Poulsen J.R., Pufal G., Razafindratsima O.H., Rogers H.S., Sandor M.E., Schreiber S.J., Schupp G., Shea K., Snell R.S., Strickland C., Zambrano J., Zhou Y., Zurell D.Fuentes:scopusSeed predation increases from the Arctic to the Equator and from high to low elevations
ArticleAbstract: Species interactions have long been pbkp_redicted to increase in intensity toward the tropics and loPalabras claves:Autores:Benning J.W., Brodie J.F., Carlos Almazan-Nunez R., David S., Esteban Suárez, Haeussler S., Hargreaves A.L., Loughnan D., Mehltreter K., Moeller D.A., Morales M P.A., Muñoz J., Myers-Smith I.H., Slinn H.L., Thomas H.J.D., Vanderplank S.E., Vargas-Rodriguez Y.L.Fuentes:googlescopus