Abstract.
Epiphytism in Colombian Amazonia was described by counting vascular epiphytes in thirty 0.025-ha (5 × 50 m) plots, well-distributed over the main landscape units in the middle Caquetá area of Colombian Amazonia. Each plot was directly adjacent to a 0.1-ha plot at which the species composition of trees and lianas (diameter at breast height (DBH) ≥ 2.5 cm) had been recorded 3 years earlier. The purpose of the study was to explore abundance, diversity, and distribution of epiphytes between the principal landscape units. A total of 6129 individual vascular epiphytes were recorded belonging to 27 families, 73 genera, and 213 species (which included 59 morpho-species). Araceae, Orchidaceae, and Bromeliaceae were the most speciose and abundant families. A total of 2763 phorophytes were registered, 1701 (62%) of which with DBH ≥ 2.5 cm. About 40–60% of the woody plants with DBH ≥ 2.5 cm carried epiphytes, which points at low phorophyte limitation throughout all landscapes. Epiphytism was concentrated on stem bases. Just as trees, epiphyte species assemblages were well associated with the main landscapes. Contrary to trees, however, epiphyte abundance and diversity (species richness, Fisher’s alpha index) hardly differed between the landscapes. This calls for caution when explanations for distribution and dynamics of tree species are extrapolated to growth forms with a totally different ecology.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
J.L. Andrade P.S. Nobel (1997) ArticleTitleMicrohabitats and water relations of epiphytic cacti and ferns in a lowland Neotropical forest Biotropica 29 261–270
H. Balslev R. Valencia G. Pazy Miño H. Christensen I. Nielsen (1998) Species count of vascular plants in one hectare of humid lowland forest in Amazonian Ecuador F. Dallmeier J.A. Comiskey (Eds) Forest Biodiversity in NorthCentral and South Americaand the Caribbean UNESCO Paris, France 585–594
B. Bennett (1986) ArticleTitlePatchiness, diversity, and abundance relationships of vascular epiphytes Selbyana 9 70–75
D.H. Benzing (1986) ArticleTitleThe vegetative basis of vascular epiphytism Selbyana 9 23–43
D.H. Benzing (1987) ArticleTitleVascular epiphytism: Taxonomical participation and adaptative diversity Annals of the Missouri Botanical Garden 74 183–204
D.H. Benzing (1995) Vascular epiphytes M. Lowman N. Nadkarni (Eds) Forest Canopies Academic Press San DiegoCalifornia 225–253
M. Carlsen (2000) ArticleTitleStructure and diversity of the vascular epiphyte community in the overstory of a tropical rain forest in SurumoniAmazonas stateVenezuela Selbyana 21 7–10
P. Casgrain P. Legendre (2002) The R Package for Multivariate and Spatial Analysis, Version 4.0d6 Université de Montréal Montréal, Canada
R. Condit S.P. Hubbel J.V. Lafrankie R. Sukumar N. Manokaran R.B. Foster P.S. Ashton (1996) ArticleTitleSpecies–area and species–individual relationships for tropical trees: a comparison of three 50-ha plots Journal of Ecology 84 549–562
A. Cronquist (1988) The Evolution and Classification of Flowering Plants The New York Botanical Garden New York
J.F. Duivenvoorden (1994) ArticleTitleVascular plant species counts in the rain forests of the middle Caquetá areaColombian Amazonia Biodiversity and Conservation 3 685–715 Occurrence Handle10.1007/BF00126860
J.F. Duivenvoorden (1996) ArticleTitlePatterns of tree species richness in rain forests of the middle Caquetá areaColombiaNW Amazonia Biotropica 28 142–158
J.F. Duivenvoorden (2001) Mapa de la ecología del paisaje del medio Caquetá: Plancha Metá J.F. Duivenvoorden H. Balslev J. Cavelier C. Grandez H. Tuomisto R. Valencia (Eds) Evaluación de recursos vegetales no maderables en la Amazonía noroccidental Universiteit van Amsterdam AmsterdamThe Netherlands
J.F. Duivenvoorden J.M. Lips (1993) Ecología del paisaje del medio Caquetá: memoria explicativa de los mapas Tropenbos-Colombia Santafé de Bogotá, Colombia
A. Duque M. Sanchez J. Cavelier J.F. Duivenvoorden P. Miraña J. Miraña A Matapí (2001) Relación bosque-ambiente en el Medio Caquetá, Amazonía colombiana J.F. Duivenvoorden H. Balslev J. Cavelier C. Grandez H. Tuomisto R. Valencia (Eds) Evaluación de recursos vegetales no maderables en la Amazonía noroccidental Universiteit van Amsterdam AmsterdamThe Netherlands 99–130
A. Duque M. Sanchez J. Cavelier J.F. Duivenvoorden (2002) ArticleTitleDifferent floristic patterns of woody understory and canopy plants in Colombian Amazonia Journal of Tropical Ecology 18 499–525 Occurrence Handle10.1017/S0266467402002341
FAO 1977 Guidelines for Soil Profile Description FAO RomeItaly
R.A. Fisher A.S. Corbet C.B. Williams (1943) ArticleTitleThe relation between the number of species and the number of individuals in a random sample of animal population Journal of Animal Ecology 7 42–57
R. Foster (1990) The floristic composition of Rio Manu floodplain forest A. Gentry (Eds) Four Neotropical Rainforests Yale University Press New Haven, Connecticut 99–111
M. Freiberg (2001) ArticleTitleThe influence of epiphyte cover on branch temperature in a tropical tree Plant Ecology 153 241–250 Occurrence Handle10.1023/A:1017540629725
M. Freiberg (1996) ArticleTitleSpatial distribution of vascular epiphytes on three emergent canopy trees in French Guiana Biotropica 283 345–355
G. Galeano S. Suarez H. Balslev (1998) ArticleTitleVascular species count in wet forest in the Chocó area on the Pacific coast of Colombia Biodiversity and Conservation 7 1563–1575 Occurrence Handle10.1023/A:1008802624275
A.H. Gentry (1982) ArticleTitleNeotropical floristic diversity: phytogeographical connections between Central and South America. Pleistocene climatic fluctuations, or an accident of the Andean orogeny? Annals of the Missouri Botanical Garden 69 557–593
A.H. Gentry C.H. Dodson (1987a) ArticleTitleContribution of non-trees to species richness of a tropical rain forest Biotropica 19 149–156
A.H. Gentry C.H. Dodson (1987b) ArticleTitleDiversity and biogeography of Neotropical vascular epiphytes Annals of the Missouri Botanical Garden 74 205–233
M.O. Hill (1979) DECORANA–a FORTRAN Program for Detrended Correspondence Analysis and Reciprocal Averaging Cornell University IthacaNew York
M. Kessler (2002) ArticleTitleSpecies richness and ecophysiological types among Bolivian bromeliad communities Biodiversity and Conservation 11 987–1010 Occurrence Handle10.1023/A:1015875807613
P. Legendre L. Legendre (1998) Numerical Ecology Elsevier AmsterdamThe Netherlands
R.M. Leimbeck H. Balslev (2001) ArticleTitleSpecies richness and abundance of epiphytic Araceae on adjacent floodplain and upland forest in Amazonian Ecuador Biodiversity and Conservation 10 1579–1593 Occurrence Handle10.1023/A:1011865611683
J.M. Lips J.F. Duivenvoorden (2001) Caracterización ambiental J.F. Duivenvoorden H. Balslev J. Cavelier C. Grandez H. Tuomisto R. Valencia (Eds) Evaluación de recursos vegetales no maderables en la Amazonía noroccidental Universiteit van Amsterdam AmsterdamThe Netherlands 19–46
J. Nieder G. Zotz (1998) ArticleTitleMethods of analyzing the structure and dynamics of vascular epiphyte communities Ecotropica 6 33–39
J. Nieder S. Engwald W. Barthlott (1999) ArticleTitlePatterns of neotropical epiphyte diversity Selbyana 201 66–75
J. Nieder S. Engwald M. Klawun W. Barthlott (2000) ArticleTitleSpatial distribution of vascular epiphytes including hemi-epiphytes in a lowland Amazonian forest Surumoni Crane Plot of Southern Venezuela Biotropica 323 385–396
J. Nieder J. Prosperi G. Michaloud (2001) ArticleTitleEpiphytes and their contribution to canopy diversity Plant Ecology 153 51–63 Occurrence Handle10.1023/A:1017517119305
G.T. Prance (1990) The floristic composition of the forest of Central Amazonian Brazil A. Gentry (Eds) Four Neotropical Rainforests Yale University Press New Haven, Connecticut 112–140
SAS Institute 1994 JMP Statistic and Graphics Guide SAS Institute Inc. Cary, North Carolina
S. Schnitzer W. Carson (2000) ArticleTitleHave we forgotten the forest because of the trees? Trends in Ecology and Evolution 15 375–376 Occurrence Handle10.1016/S0169-5347(00)01913-3 Occurrence Handle10931676
C.J.K. ter Braak P. Smilauer (1998) CANOCO Reference Manual and User’s Guide to CANOCO for Windows: Software for Canonical Community Ordination Version 4 Microcomputer Power IthacaNew York
H. ter Steege J.H.C. Cornelissen (1989) ArticleTitleDistribution and ecology of vascular epiphytes in lowland rain forest of Guyana Biotropica 214 331–339
R.M. Tryon A.F. Tryon (1982) Ferns and Allied Plants, with Special Reference to Tropical America Springer New York
R. Valencia H. Balslev G. Pazy Miño (1994) ArticleTitleHigh alpha-diversity in Amazonian Ecuador Biodiversity and Conservation 3 21–28 Occurrence Handle10.1007/BF00115330
T.C. Whitmore R. Peralta K. Brown (1985) ArticleTitleTotal species count in a Costa Rican tropical rain forest Journal of Tropical Ecology 1 375–378 Occurrence Handle10.1017/S0266467400000481
J.H.D. Wolf (1993) Ecology of Epiphytes and Epiphyte Communities in Montane Rain ForestColombia University of Amsterdam The Netherlands
J.H.D. Wolf A. Flamenco-S (2003) ArticleTitlePatterns in species richness and distribution of epiphytes in tropical America Journal of Biogeography 30 1689–1707 Occurrence Handle10.1046/j.1365-2699.2003.00902.x
G. Zotz J.L. Andrade (1997) ArticleTitleWater relations of two co-occurring epiphytic bromeliads Journal of Plant Physiology 152 545–554
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Benavides D., A., Duque M., A., Duivenvoorden, J.F. et al. A First Quantitative Census of Vascular Epiphytes in Rain forests of Colombian Amazonia. Biodivers Conserv 14, 739–758 (2005). https://doi.org/10.1007/s10531-004-3920-9
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s10531-004-3920-9