Referencias

Ahumada, J. , C. E. F. Silva, K. Gajapersad, Ch. Hallam, J. Hurtado, E.Martin, A. McWilliam, B. Mugerwa, T. O’Brien, F. Rovero, D. Sheil, W. R. Spironello, N. Winarni & S. J. Andelman (2011) Community structure and diversity
of tropical forest mammals: data from a global camera trap network. hil. Trans. R. Soc. B (2011) 366, 2703–2711.

Bowler, M.T., M.W. Tobler, B.A. Endress, M.P. Gilmore, M.J. Anderson. 2016. Estimating mammalian species richness and occupancy in tropical forest canopies with arboreal camera traps. Remote Sensing in Ecology and Conservation 1-12.

Carbone C., S. Christie, K. Conforti, T. Coulson, N. Franklin, J. R. Ginsberg, M. Griffiths, J. Holden, K. Kawanishi, M. Kinnaird, R. Laidlaw, A. Lynam, D. W. Macdonald, D. Martyr, C. McDougal, L., Nath, T. O’Brien, J. Seidensticker, D. J. L. Smith, M. Sunquist, R. Tilson & W. N. Wan Shahruddin (2001) The use of photographic rates to estimate densities of tigers and other cryptic mammals. Animal Conservation 4, 75–79

Díaz-Pulido, A. y E. Payán Garrido. (2012) Manual de fototrampeo: una herramienta de investigación para la conservación de la biodiversidad en Colombia. Instituto de Investigaciones de Recursos Biológicos Alexander von Humboldt y Panthera Colombia. 32 pp.

Dirzo, R., Hillary S. Young, Mauro Galetti, Gerardo Ceballos, Nick J. B. Isaac, Ben Collen. 2014. Defaunation in the Anthropocene. Science. 345: 401-406.

Mackenzie D. I, J. D. Nichols, G. B. Lachman , S. Droege, J. A. Royle and C. A. Langtimm. Estimating site occupancy rates when detection probabilities are less than one  Ecology, 83(8), 2002, pp. 2248–2255

O’Brien, T.G., Kinnaird, M.F. & Wibisono, H.T. (2011) Estimation of species richness of large vertebrates using camera traps: an example from an Indonesian rainforest. Camera Traps in Animal Ecology: Methods and Analyses (eds A.F. O’Connell, J.D. Nichol & K.U. Karanth),pp. 233– 252. Springer, New York.

Parrish, J.D., Braun, D.P., and Unnasch, R.S., 2003, Are we conserving what we say we are? Measuring eco- logical integrity within protected areas: Bioscience, v. 53,p. 851−860.

Porras L., L. B. Vazquez, R. Sarmiento-Aguilar, D. Douterlungnea, D. Valenzuela-Galván (2016) Influence of human activities on some medium and large-sized mammals’ richness and abundance in the Lacandon Rainforest. Journal for Nature Conservation. 34:1-7.

Shannon, G., J.S. Lewis & B.D.Gerber (2014) Recommended survey designs for occupancy modelling using motion-activated cameras: insights from empirical wildlife data. PeerJ 2:e532.  1-20. DOI 10.7717/peerj.532.

Si X, Kays R, Ding P. (2014) How long is enough to detect terrestrial animals? Estimating the minimum trapping effort on camera traps. PeerJ 2:e374

Sanderson, J. C., TEAM Initiative (2004) Tropical Ecology, Assessment and monitoring initiative. Camera Phototrapping Monitoring Protocol. Version 2.0.

Tyre A. J., B. Tenhumberg S. A. Field, D. Niejalke, K. Parris & H. P. Possingham (2003) Improving precision and reducing bias in biological surveys: estimating false negative error rates. Ecological Applications, 13(6), 2003, pp. 1790–1801

Tobler, M.W., Carrillo-Percastegui, S.E., Pitman, R.L., Mares, R. & Pow-ell, G. (2008) An evaluation of camera traps for inventorying large- and medium-sized terrestrial rainforest mammals. Animal Conservation, 11,169–17.