Species identification and characterization in tropical environments is an emerging field in tropical remote sensing. Significant efforts are currently aimed at the detection of tree species, of levels of forest successional stages, and the extent of liana occurrence at the top of canopies. In this paper we describe our use of high resolution imagery from the Quickbird Satellite to estimate the flowering population of Tabebuia guayacan trees at Barro Colorado Island (BCI), in Panama. The imagery was acquired on 29 April 2002 and 21 March 2004. Spectral Angle Mapping via a One-Class Support Vector machine was used to detect the presence of 422 and 557 flowering tress in the April 2002 and March 2004 imagery. Of these, 273 flowering trees are common to both dates. This study presents a new perspective on the effectiveness of high resolution remote sensing for monitoring a phenological response and its use as a tool for potential conservation and management of natural resources in tropical environments.
References
[1]
Achard, F; DeFries, R; Eva, H; Hansen, M; Mayaux, P; Stibig, HJ. Pan-Tropical Monitoring of Deforestation. Environ. Res. Lett 2007, 2, 045022.
[2]
Forrest, JL; Sanderson, EW; Wallace, R; Lazzo, TMS; Cervero, LHG; Coppolillo, P. Patterns of Land Cover Change in and Around Madidi National Park, Bolivia. Biotropica 2008, 40, 285–294.
[3]
Sánchez-Azofeifa, GA; Daily, GC; Pfaff, ASP; Busch, C. Integrity and Isolation of Costa Rica’s National Parks and Biological Reserves: Examining the Dynamics of Land Cover Change. Biol. Conserv 2003, 109, 123–135.
[4]
Wright, SJ; Sánchez-Azofeifa, GA; Portillo-Quintero, C; Davies, D. Poverty and Corruption Compromise Tropical Forest Reserves. Ecol. Appl 2007, 17, 1259–1266.
[5]
Kalacska, M; Sánchez-Azofeifa, GA; Rivard, B; Calvo-Alvarado, JC; Journet, ARP; Arroyo-Mora, JP; Ortiz-Ortiz, D. Leaf Area Index Measurements in a Tropical Moist Forest: A Case Study from Costa Rica. Remote Sens. Environ 2004, 91, 134–152.
[6]
Kalacska, M; Sánchez-Azofeifa, GA; Calvo-Alvarado, JC; Rivard, B; Quesada, M. Effects of Season and Successional Stage on Leaf Area Index and Spectral Vegetation Indices in Three Mesoamerican Tropical Dry Forests. Biotropica 2005, 37, 486–496.
[7]
Hermer, EH. The Landscape Ecology of a Tropical Secondary Montane Forest in Costa Rica. Ecosystems 2000, 3, 98–114.
[8]
Castro-Esau, KL; Sánchez-Azofeifa, GA; Rivard, B. Monitoring Secondary Tropical Forests Using Space-Borne Data: Implications for Central America. Int. J. Remote Sens 2003, 9, 1853–1894.
[9]
Lucas, RM; Honzak, M; Amaral, ID; Curran, PJ; Foody, GM. Forest Regeneration on Abandoned Clearances in the Central Amazonia. Int. J. Remote Sens 2002, 23, 965–988.
[10]
van Laake, PE; Sánchez-Azofeifa, GA. Mapping PAR using MODIS Atmosphere Products. Remote Sens. Environ 2005, 94, 554–563.
[11]
Clark, ML; Roberts, DA; Clark, DB. Hyperspectral Discrimination of Tropical Rain Forest Tree Species at Leaf to Crown scales. Remote Sens. Environ 2005, 96, 375–398.
[12]
Castro-Esau, K; Sánchez-Azofeifa, GA; Rivard, B; Wright, SJ; Quesada, M. Variability in Leaf Optical Properties on Mesoamerican Trees and the Potential for Species Classification. Am. J. Botany 2006, 93, 517–530.
[13]
Zhang, J; Rivard, B; Sánchez-Azofeifa, GA; Castro-Esau, K. Intra- and Inter-Class Spectral Variability of Tropical Tree Species at La Selva, Costa Rica: Implications for Species Identification Using HYDICE Imagery. Remote Sens. Environ 2006, 105, 129–141.
[14]
Cochrane, MA. Using Vegetation Reflectance Variability for Species Level Classification of Hyperspectral Data. Int. J. Remote Sens 2000, 21, 2075–2087.
[15]
Rivard, B; Sánchez-Azofeifa, GA; Foley, S; Calvo-Alvarado, JC. Species Classification of Tropical Tree Leaf Reflectance and Dependence on Selection of Spectral Bands. In Hyperspectral Remote Sensing of Tropical and Subtropical Forests; Kalacska, M, Sánchez-Azofeifa, GA, Eds.; CRC Press: Boca Raton, FL, USA, 2009; pp. 141–160.
[16]
Price, JC. How Unique are Spectral Signatures? Remote Sens. Environ 1994, 49, 181–186.
[17]
Fung, T; Ma, FY; Siu, WL. Hyperspectral data analysis for subtropical tree species recognition. Proceedings of Geoscience and Remote Sensing Symposium, IGARSS '98, Seattle, WA, USA, 6–10 July 1998; 3, pp. 1298–1300.
[18]
Jusoff, K; Ibrahim, K. Hyperspectral Remote Sensing for Tropical Rain Forest. Am. J. Appl. Sci 2009, 6, 2001–2005.
[19]
Vaiphasa, C; Skidmore, AK; de Boer, WF; Vaiphasa, TA. Hyperspectral band selector for plant species discrimination. ISPRS J. Photogramm. Remote Sens 2007, 62, 225–235.
[20]
Lucas, KL; Carter, GA. The use of hyperspectral remote sensing to assess vascular plant species richness on Horn Island, Mississippi. Remote Sens. Environ 2008, 112, 3908–3915.
[21]
Lucas, R; Bunting, P; Paterson, M; Chisholm, L. Classification of Australian forest communities using aerial photography, CASI and HyMap data. Remote Sens. Environ 2008, 112, 2088–2103.
[22]
Schnitzer, SA; Bongers, K. The Ecology of Lianas and Their Role in Forests. TRENDS Ecol. Evol 2002, 17, 223–230.
[23]
Castro-Esau, KL; Sánchez-Azofeifa, GA; Caelli, T. Discrimination of Lianas and Trees with Leaf-Level Hyperspectral Data. Remote Sens. Environ 2004, 90, 353–372.
[24]
Sánchez-Azofeifa, GA; Castro-Esau, KL. Canopy Observations on the Hyperspectral Properties of a Community of Tropical Dry Forest Lianas and Trees. Int. J. Remote Sens 2006, 27, 2101–2109.
[25]
Kalacska, M; Bohman, S; Sánchez-Azofeifa, GA; Castro-Esau, KL; Caelli, T. Spectral Discrimination of Tropical Dry Forest Lianas and Trees: Comparative Data Reduction Approaches at the Leaf and Canopy Levels. Remote Sens. Environ 2007, 109, 406–415.
[26]
Chambers, JQ; Asner, GP; Morton, DC; Anderson, LO; Saatchi, SS; Espírito-Santo, FDB; Palace, M; Souza, C, Jr. Regional ecosystem structure and function: ecological insights from remote sensing of tropical forests. TRENDS Ecol. Evol 2007, 22, 414–423.
[27]
Kalacska, M; Sánchez-Azofeifa, GA; Rivard, R; Caelli, T; White, HP; Calvo-Alvarado, JC. Ecological fingerprinting of ecosystem succession: Estimating secondary tropical dry forest structure and diversity using imaging spectroscopy. Remote Sens. Environ 2007, 108, 82–96.
[28]
Broadbent, EN; Asner, GP; Pena-Claros, M; Palace, M; Soriano, M. Spatial partitioning of biomass and diversity in a lowland Bolivian forest: Linking field and remote sensing measurements. Forest Ecol. Manag 2008, 255, 2602–2616.
[29]
Foster, JR; Kingdon, CC; Townsend, PA. Predicting tropical forest carbon from EO-1 hyperspectral imagery in Noel Kempff Mercado National Park, Bolivia. Geoscience and Remote Sensing Symposium, Toronto, Canada, 24–28 June 2002; 6, pp. 3108–3110.
[30]
Thenkabail, PS; Hall, J; Lin, T; Ashton, MS; Harris, D; Enclona, EA. Detecting floristic structure and pattern across topographic and moisture gradients in a mixed species Central African forest using IKONOS and Landsat-7 ETM+ images. Intl. J. Appl. Earth Obs. Geoinf 2003, 4, 255–270.
[31]
Nagendra, H; Rocchini, D. High-resolution satellite imagery for tropical biodiversity studies: The devil is in the detail. Biodivers. Conserv 2007, 17, 3431–3442.
[32]
Asner, GP; Palace, M; Keller, M; Pereira, R; Silva, JNM; Zweede, JC. Estimating Canopy Structure in an Amazon Forest from Laser Range Finder and IKONOS Satellite Observations. Biotropica 2002, 34, 483–492.
[33]
Clark, DB; Read, JM; Clark, ML; Murillo Cruz, A; Fallas Dotti, M; Clark, DA. Application of 1-m and 4-m Resolution Satellite Data to Ecological Studies of Tropical Rain Forests. Ecol. Appl 2004, 14, 61–74.
[34]
Palace, M; Keller, M; Asner, GP; Hagen, S; Braswell, B. Amazon Forest Structure from IKONOS Satellite Data and the Automated Characterization of Forest Canopy Properties. Biotropica 2008, 40, 141–150.
[35]
Gentry, AH. Coevolutionary Patterns in Central American Bignoniaceae. Ann. Mo. Bot. Gard 1974, 61, 728–759.
[36]
Song, C; Woodcock, CE; Seto, KC; Lenney, MP; Macomber, SA. Classification and change detection using Landsat TM data: When and how to correct atmospheric effects? Remote Sens. Environ 2001, 75, 230–244.
[37]
Scopélitis, J; Andréfou?t, S; Phinn, S; Arroyo, L; Dalleau, M; Cros, A; Chabanet, P. The next step in shallow coral reef monitoring: Combining remote sensing and in situ approaches. Mar. Pollut. Bull 2010, 60, 1956–1968.
[38]
Andréfou?t, S; Gilbert, A; Yan, L; Remoissenet, G; Payri, C; Chancerelle, Y. The remarkable population size of the endangered clam Tridacna maxima assessed in Fangatau Atoll (Eastern Tuamotu, French Polynesia) using in situ and remote sensing data. ICES J. Mar. Sci 2005, 62, 1037–1048.
[39]
Kruse, FA; Lefkoff, AB; Boardman, JW; Heidebrecht, KB; Shapiro, AT; Barloon, PJ. The Spectral Image-Processing System (SIPS)-Interactive Visualization and Analysis of Imaging Spectrometer Data. Remote Sens. Environ 1993, 44, 145–163.
[40]
Adams, JB; Smith, MO; Johnson, PE. Spectral Mixture Modeling: A New Analysis of Rock and Soil Types at the Viking Lander 1 Site. J. Geophys. Res 1986, 91, 8098–8112.
[41]
Adams, JB; Smith, MO; Gillespie, AR. Imaging Spectroscopy: Interpretation Based on Spectral Mixture Analysis. In Remote Geochemical Analysis: Elemental and Mineralogical Composition; Pieters, CM, Englert, PA, Eds.; Cambridge University Press: Cambridge, UK, 1993; pp. 145–166.
[42]
Nirmal, KA. Survey of Spectral Unmixing Algorithms. Lincoln Lab. J 2003, 14, 55–78.
[43]
Vapnik, VN. The Nature of Statistical Learning Theory; Springer-Verlag: New York, NY, USA, 2000; p. 341.
[44]
Melgani, F; Bruzzone, L. Classification of Hyperspectral Remote Sensing Images With Support Vector Machines. IEEE Trans. Geosci. Remote Sens 2004, 42, 1778–1790.
[45]
Pal, M; Mather, PM. Support Vector Machines for Classification in Remote Sensing. Int. J. Remote Sens 2005, 26, 1007–1011.
[46]
Scholkopf, B; Platt, JC; Shawe-Taylor, J; Smola, AJ; Williamson, RC. Estimating the Support of a High Dimensional Distribution. Technique Report, Microsoft Research, Microsoft Corporation, One Microsoft Way Redmond, WA 98052, MSR-TR-99-87.
[47]
Chang, C; Lin, C. LIBSVM: A Library for Support Vector Machines, Available online: http://www.csie.ntu.edu.tw/~cjlin/libsvm (accessed in 2007).
[48]
Belousov, AI; Verzakov, SA; von Frese, J. A Flexible Classification Approach with Optimal Generalization Performance: Support Vector Machines. Chem. Intelligent Lab. Syst 2002, 64, 15–25.
[49]
Condit, R; Hubbell, SP; Lafrankie, JV; Sukumar, R; Manokaran, N; Foster, RB; Ashton, PS. Species-Area and Species-Individual Relationships for Tropical Trees: A Comparison of Three 50-ha Plots. J. Ecol 1996, 84, 549–562.
[50]
Wright, SJ; Jaramillo, MA; Pavon, J; Condit, R; Hubbellm, SP; Foster, RB. Reproductive Size Thresholds in Tropical Tress: Variation Among Individuals, Species and Forests. J. Trop. Ecol 2005, 21, 307–315.
[51]
Caiillaud, D; Crofoot, MC; Scarpino, SV; Jansen, PA; Garzon-Lopez, CX; Winkelhagen, AJS; Bohlman, SA; Walsh, PD. Modeling the Spatial Distribution and Fruiting Pattern of a Key Tree Species in a Neotropical Forest: Methodology and Potential Applications. PLoS ONE 2010, 5, e150002.
[52]
Jansen, PA; Bohlman, SA; Garzon-Lopez, CX; Olff, H; Muller-Landau, HC; Wright, SJ. Large-scale spatial variation in palm fruit abundance across a tropical moist forest estimated from high-resolution aerial photographs. Ecography 2008, 31, 33–42.
