Page 34

Croton, J. T.; Barry, D. A. 2001. WEC -C: A distributed, deterministic catchment model – theory, formulation and testing, Environ. Model. Software 16:583–599. Gesch, D.B., Verdin, K.L., and Greenlee, S.K., 1999, New land surface digital elevation model covers the earth: Eos, Transactions, American Geophysical Union, v. 80, no. 6, p. 69-70. Gonzalez, C.; Jarvis, A. 2004. Plants of Tambito 1. Dicotiledonous. A preliminary list. Novedades Colom bianas. (Submitted) Grayson, R. B.; Moore, I. D.; McMahon, T. A. 1992. Physically based hydrological modelling. 1 Terrain based modeling for investigative purposes. Water Resour. Res. 28(10):2639–2658. Jarvis, A. 2000 Measuring and modelling the impact of land-use change in tropical hillsides: The role of cloud interception to epiphytes. Adv. Eviron. Modell. Monit. 1(1):118-148. Knapp, E. B.; Nelson, A.; Leclerc, G. 1998. Project report. Methodologies for integrating data across geographic scales in a da ta-rich environment: Examples from Honduras. Centro Internacional de Agricultura Tropical (CIAT), Cali, CO. 19 p. Leclerc, G. 1999. Atlas of Honduras (with data on Hurricane Mitch). Available in: http://gisweb.ciat.cgiar.org/cross_scale/atlas-mitch.htm Meybeck, M.; Green, P.; Vorosmarty, C. 2001. A new typology for mountains and other relief classes: An application to global continental water resources and population distribution. Mt. Res. Dev. 21:34-45. Moore, I. D.; Grayson, R. B.; Ladson, A. R. 1991. Digital terrain modelling: A review of hydrological, geomorphological, and biological applications. Hydrol. Processes 5(1):3-30. Mulligan, M. 2003. Modelling catchment hydrology. In: Wainwright, J.; Mulligan, M. (eds.). Environmental modelling: Finding the simplicity in complexity. Wiley, GB. p. 107-121. NGS (National Geodetic Survey). 2003. Central American HARN, 2001 GPS Survey Project. Available in: http://www.ngs.noaa.gov/PROJECTS/Mitch/Honduras/ stationlist.htm O’Callaghan, J. F.; Mark, D.M. 1984. The extraction of drainage networks from digital elevation data, Comput. Vis. Graph. Image Process. 28:323–344. Refsgaard, J. C.; Storm, B. 1995. MIKE SHE. In: Singh, V. P. (ed.). Computer models of watershed hydrology. Water Resources Publications, Highlands Park, CO, USA. p. 809–846. Rincon-Romero, M. 2000. The effects of surface hydrological connectivity on hydrological response to land use change. Adv. Eviron. Modell. Monit. 1(1):118-148. Tarboton, D. G. 1997. A new method for the determination of flow directions and contributing areas in grid digital elevation models. Water Resour. Res. 33:309-319.

30

SRTM for Hydrological research  

Practical use of SRTM data in the tropics – Comparisons with digital elevation models generated from cartographic data Andy Jarvis, Jorge Ru...

SRTM for Hydrological research  

Practical use of SRTM data in the tropics – Comparisons with digital elevation models generated from cartographic data Andy Jarvis, Jorge Ru...

Advertisement