Becario Postdoctoral CONICET
E-mail: gorneld@gmail.com
Título: Biólogo, Doctor en Ciencias Biológicas.
Área: ECOLOGÍA. Línea de Investigación: Ecosistemas, Diversidad y Sustentabilidad
Resumen de proyecto de investigación
Lucas D. Gorné trabaja en el área de Ecología (https://imbiv.conicet.unc.edu.ar/areas/ecologia/), particularmente en el grupo de Ecosistemas, diversidad y Sustentabilidad (https://imbiv.conicet.unc.edu.ar/areas/ecologia/ecosistemas-diversidad-y-sustentabilidad/), en el laboratorio de Sandra Díaz (https://imbiv.conicet.unc.edu.ar/sandra-diaz/). Estudia la ecología de comunidades y ecosistemas desde una perspectiva funcional. Sus principales áreas de interés son la evolución contemporánea, la interfaz entre evolución y procesos ecosistémicas y la herbivoría. También participa en proyectos interdisciplinarios, en el marco de los proyectos del Nucleo Diversus (http://www.nucleodiversus.org/), que vinculan biodiversidad y conservación con cambios en el uso de la tierra, procesos, instituciones y actores sociales.
Publicaciones relevantes
Gorné LD & Díaz S. 2019. Meta-analysis shows that rapid phenotypic change in Angiosperms in response to environmental change is followed by stasis. The American Naturalist, 194 (6): 840–853. https://www.researchgate.net/profile/Sandra_Diaz9/publication/334773756_Meta-analysis_Shows_That_Rapid_Phenotypic_Change_in_Angiosperms_in_Response_to_Environmental_Change_Is_Followed_by_Stasis/links/5e79fd3b299bf1b2b9ac248e/Meta-analysis-Shows-That-Rapid-Phenotypic-Change-in-Angiosperms-in-Response-to-Environmental-Change-Is-Followed-by-Stasis.pdf
Gorné LD & Díaz S. 2017. A novel meta-analytical approach to improve systematic review of rates and patterns of microevolution. Ecology and Evolution, 7 (15): 5821–5832. https://onlinelibrary.wiley.com/doi/pdf/10.1002/ece3.3116
Conti G, Gorné LD, Zeballos SR, Lipoma ML, Gatica G, Kowaljow E, Whitworth-Hulse JI, Cuchietti A, Poca M, Pestoni S & Fernandes PM. 2019. Developing allometric models to predict the individual aboveground biomass of shrubs worldwide. Global Ecology and Biogeography, 28 (7): 961–975. https://onlinelibrary.wiley.com/doi/pdf/10.1111/geb.12907?casa_token=13qnkvgdsoMAAAAA:EcvkxJQMv7UAtAWuzy6KEn6Cww3Ni8zsx4uDkK8ZElDsiAoIU7jfaMfKnhkpulVn8cLCmEWXYP-w6Aiq
Díaz S, Kattge J, Cornelissen JHC, Wright IJ, Lavorel S, Dray S, Reu B, Kleyer M, Wirth C, Prentice IC, Garnier E, Bönisch G, Westoby M, Poorter H, Reich PB, Moles AT, Dickie J, Gillison AN, Zanne AE, Chave J, Wright SJ, Sheremet’ev SN, Jactel H, Christopher B, Cerabolini B, Pierce S, Shipley B, Kirkup D, Casanoves F, Joswig JS, Günther A, Falczuk V, Rüger N, Mahecha MD & Gorné LD. 2016. The global spectrum of plant form and function. Nature, 529 (7585): 167–171. https://repository.si.edu/bitstream/handle/10088/29500/Diaz_etal_2016_Nature.pdf?sequence=1&isAllowed=y
Pérez-Harguindeguy N & Gorné LD. 2019. In search of the links between decomposition ecology and evolution: the Arabidopsis connection. New Phytologist, 224 (4): 1409–1411. https://nph.onlinelibrary.wiley.com/doi/pdf/10.1111/nph.16202
Conti G, Pérez-Harguindeguy N, Quètier F, Gorné LD, Jaureguiberry P, Bertone G a., Enrico L, Cuchietti A & Díaz S. 2014. Large changes in carbon storage under different land-use regimes in subtropical seasonally dry forests of southern South America. Agriculture, Ecosystems & Environment, 197 68–76. https://www.sciencedirect.com/science/article/pii/S0167880914003855/pdfft?casa_token=mtzEN9DS27IAAAAA:5F1V-qKl-48pko9ZmIgU6FQ-UKUgwozekpltb7YGH6YlfCaBUGYi0REnIVWY9OzFjeSkGyilp7E&md5=b7b59b5dbc24bcefe79f9fe4e13e1225&pid=1-s2.0-S0167880914003855-main.pdf
Lipoma ML, Díaz SM, Cuchietti A & Gorné LD. 2019. Not gone with the wind: Vegetation complexity increases seed retention during windy periods in the Argentine Semiarid Chaco. Journal of Vegetation Science, 30 (3): 542–552. https://onlinelibrary.wiley.com/doi/pdf/10.1111/jvs.12747?casa_token=aRT54Ph2XT0AAAAA:49wZA50OrbUhl_zKjW29APFK5ygVf6PS4pUCB37g1c_o_2jxpsLMj468pODb2cNhpmoxMu8Av_ckAFM6
Jaureguiberry P, Cuchietti A, Gorné LD, Bertone GA & Díaz S. 2020. Forest Ecology and Management Post-fire resprouting capacity of seasonally dry forest species – Two quantitative indices. Forest Ecology and Management, 473 (1): 118267. https://www.researchgate.net/publication/342131790_Post-fire_resprouting_capacity_of_seasonally_dry_forest_species_-Two_quantitative_indices
Google Scholar: https://scholar.google.com.ar/citations?user=ZKVFK3sAAAAJ&hl=es
ResearchGate: https://www.researchgate.net/profile/Lucas_Gorne