Pedro Flombaum

Investigador Adjunto
Centro de Investigaciones del Mar y de la Atmósfera (CIMA)
CONICET

Jefe de Trabajos Prácticos
Departamento deEcología, Genética y Evolución
Universidad de Buenos Aires

Pabellon II 2do Piso
C1428EGA Ciudad Universitaria
Buenos Aires, Argentina

p: +54 11 4787 2693 int 314
f: +54 11 4787 3572





 
Publicaciones

13.
S. Nieto, P. Flombaum, and M. F. Garbulsky. 2015. Can temporal and spatial NDVI predict regional bird-species richness? Global Ecology and Conservation 3:729-735. [pdf]

12.
P. Venail, K. Gross, T. H. Oakley, A. Narwani1, E. Allan, P. Flombaum, F. Isbell, J. Joshi, P. B. Reich, D. Tilman, J. van Ruijven, and B. J. Cardinale. in press. Species richness, but not phylogenetic diversity, influences community biomass production and temporal stability in a re-examination of 16 grassland biodiversity studies. Functional Ecology. [pdf] DOI: 10.1111/1365-2435.12432

11. P. Flombaum and M. F. Garbulsky. 2014. 
Caja 14.1 Tendencia temporal en la productividad primaria neta del océano vista desde sensores remotos. En Paruelo, J.M, Di Bella, C.D. y Milkovic, M. (Eds). Percepción Remota y Sistemas de Información Geográfica: sus aplicaciones en Agronomía y Ciencias Ambientales 2014. Pp (334-336), Editorial Hemisferio Sur, Buenos Aires. ISBN 978­950­504­624­9.[pdf]

10. P. Flombaum, O. E. Sala, and E. B. Rastetter. 2014. Interactions among resource partitioning, sampling effect, and facilitation on the biodiversity effect: A modeling approach. Oecologia 174(2):559-566 [pdf]

9. P. Flombaum, J.L. Gallegos, R.A. Gordillo, J. Rincón, L.L. Zabala, N. Jiao, D.M. Karl, W.K.W. Li, M.W. Lomas, D. Veneziano, C.S. Vera, J.A. Vrugt, and A.C. Martiny. 2013. Present and future global distributions of the marine Cyanobacteria Prochlorococcus and Synechococcus
 Proceedings of the National Academy of Sciences of the United States of America. 110(24):9824-9829 [pdf]

8. B. Cardinale, K. Gross, K. Fritschie, P. Flombaum, J. Fox, C. Rixen, J. van Ruijven, P. Reich, M. Scherer-Lorenzen, B. Wilsey. 2013. Biodiversity simultaneously enhances the production and stability of community biomass, but the effects are independent. Ecology 94(8):1697-1707 [pdf]

7. O. E. Sala, L. Vivanco, and P. Flombaum. 2013. Grasslands ecosystems. En: S. Levin (ed.) Encyclopedia of Biodiversity, 2nd edition, Volumen 4, pp1-7. Waltham, MA: Academic Press. [pdf]

6. P. Flombaum and O. E. Sala. 2012. Effects of plant species traits on ecosystem processes: Experiments in the Patagonian steppe. Ecology 93(2):227-234  [pdf]

5. P. Flombaum and O. E. Sala. 2011. Efectos de la biodiversidad sobre el funcionamiento de los ecosistemas. En: J. A. Simonetti y R. Dirzo (eds.) Conservación Biológica. Perspectivas desde América Latina, pp. 49-62. Santiago, Chile: Editorial Universitaria. [pdf]

4. P. Flombaum and O. E. Sala. 2009. Cover is a good predictor of biomass in arid systems. Journal of Arid Environments (73):597-598 [pdf]

3. P. Flombaum and O. E. Sala. 2008. Higher effect of plant species diversity on productivity in natural than artificial ecosystems. Proceedings of the National Academy of Sciences 105(16):6087-6090 [pdf]

2. P. A. Cipriotti, P. Flombaum, O. E. Sala, and M. R. Aguiar. 2008. Does drought control emergence and survival of grass seedlings in semi-arid rangelands? An example with a Patagonian species. Journal of Arid Environments (72):162-174 [pdf]

1. P. Flombaum and O. E. Sala. 2007. A non-destructive and rapid method to estimate biomass and aboveground net primary production in arid steppes. Journal of Arid Environments (69):352-358 [pdf]