Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-19T06:29:48.788Z Has data issue: false hasContentIssue false

Effects of lianas and Hurricane Wilma on tree damage in the Yucatan Peninsula, Mexico

Published online by Cambridge University Press:  01 September 2008

Edgardo I. Garrido-Pérez*
Affiliation:
Centro de Investigación Científica de Yucatán (CICY), Calle 43 #130, Colonia Chuburná de Hidalgo, CP 97200, Mérida, Yucatán, México Georg-August Universitaet Geographisches Institut Abt. Landschaftsoekologie, Goettingen, Goldschmidtstr.5, PLZ 37077, Goettingen, Germany
Juan Manuel Dupuy
Affiliation:
Centro de Investigación Científica de Yucatán (CICY), Calle 43 #130, Colonia Chuburná de Hidalgo, CP 97200, Mérida, Yucatán, México
Rafael Durán-García
Affiliation:
Centro de Investigación Científica de Yucatán (CICY), Calle 43 #130, Colonia Chuburná de Hidalgo, CP 97200, Mérida, Yucatán, México
Mario Ucan-May
Affiliation:
Ejido Solferino, Municipio de Lázaro Cárdenas, Quintana Roo, México
Stefan A. Schnitzer
Affiliation:
College of Letters and Science, Department of Biological Sciences, University of Wisconsin-Milwaukee, USA
Gerhard Gerold
Affiliation:
Georg-August Universitaet Geographisches Institut Abt. Landschaftsoekologie, Goettingen, Goldschmidtstr.5, PLZ 37077, Goettingen, Germany
*
1Author for correspondence. Email: [email protected]

Extract

Climate change may increase the intensity of hurricanes (Emanuel 1987, 2003), and thus the size of disturbance in tropical forests. As a consequence, disturbance-specialist plants, such as lianas, may increase in abundance there (Phillips & Gentry 1994). Putz (1984) hypothesized that lianas create larger treefall gaps by connecting trees together and pulling down multiple trees during storms. This positive-feedback cycle may increase the prevalence of lianas in disturbed tropical forests (Schnitzer & Bongers 2002, Schnitzer & Carson 2001). Alternatively, Putz (1984) proposed that lianas tie and stabilize canopies together, resulting in less disturbance. Forest age may determine the role of lianas during disturbance because liana abundance and composition vary through secondary succession (De Walt et al. 2000, Schnitzer et al. 2000). To test the two hypotheses of Putz (1984), we evaluated the effect of liana cutting between forests of different successional ages on tree damage by hurricane Wilma.

Type
Short Communication
Copyright
Copyright © Cambridge University Press 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

LITERATURE CITED

BAUTISTA-ZÚÑIGA, F., BATLLORI-SAMPEDRO, E., ORTÍZ-PÉREZ, M. A., PALACIO-APONTE, G. & CASTILLO-GONZÁLEZ, M. 2003. Geoformas, agua y suelo en la pasado, presente y futuro. Pp. 2135 in Colunga Garciamarín, P. & Larqué-Saavedra, A. (eds.). Naturaleza y sociedad en el área maya. Academia Mexicana de Ciencias and Centro de Investigación Cientifica de Yucatán, México DF.Google Scholar
CRAMER, V., HOBBS, R. J. & STANDISH, R. J. 2008. What's new about old fields? Land abandonment and ecosystem assembly. Trends in Ecology and Evolution 23:104112.CrossRefGoogle ScholarPubMed
DE WALT, S. J., SCHNITZER, S. A. & DENSLOW, J. S. 2000. Density and diversity of lianas along a chronosequence in a central Panamanian lowland forest. Journal of Tropical Ecology 16:119.CrossRefGoogle Scholar
EMANUEL, K. A. 1987. The dependence of hurricane intensity on climate. Nature 326:483485.CrossRefGoogle Scholar
EMANUEL, K. A. 2003. Tropical cyclones. Annual Review of Earth Planet Science 31:75104.CrossRefGoogle Scholar
GUARIGUATA, M. R. & OSTERTAG, R. 2001. Neotropical secondary forest succession: changes in structural and functional characteristics. Forest Ecology and Management 148:185206.CrossRefGoogle Scholar
HOLDRIDGE, L., GRENKE, W., HATHEWAY, W., LIAN, T. & TOSI, J. 1971. Forest environments in tropical life zones: a pilot study. Pergamon Press, Oxford. 747 pp.Google Scholar
INSTITUTO NACIONAL DE ESTADISTICA, GEOGRAFIA E INFORMATICA (INEGI), GOBIERNO DEL ESTADO DE QUINTANA ROO, & HONORABLE AYUNTAMIENTO DE LÁZARO CÁRDENAS (NATIONAL INSTITUTE OF STATISTICS, GEOGRAPHY AND INFORMATICS, GOVERNMENT OF THE STATE OF QUINTANA ROO, & HONOURABLE MUNICIPALITY OF LAZARO CARDENAS). 1993. Cuaderno estadístico municipal. Aguascalientes, México.Google Scholar
OLMSTED, I., DURÁN, R., GONZÁLEZ-ITURBE, J. A., CALVO, L. M., REMOLINA, F. & CANELA ROJO, J. 2000. Programa de Manejo del área de protección de flora y fauna silvestre Yum Balam, Informe final. Centro de Investigación Científica de Yucatán, Mérida, Yucatán, México. 217 pp.Google Scholar
ORELLANA, R., ISLEBE, G. & ESPADAS, C. 2003. Presente, pasado y futuro de los Climas de la Penísula de Yucatán. Pp. 3752 in Colunga Garciamarín, P. & Larqué Saavedra, A. (eds.). Naturaleza y sociedad en el área maya. Academia Mexicana de Ciencias and Centro de Investigación Cientifica de Yucatán. México DF.Google Scholar
PARREN, M. & BONGERS, F. 2001. Does climber cutting reduce felling damage in southern Cameroon? Forest Ecology and Management 141:175188.CrossRefGoogle Scholar
PÉREZ-SALICRUP, D. R., CARLOS, A., GUZMÁN, R., LICONA, J. C., LEDEZMA, F., PINARD, M. A. & PUTZ, F. A. 2001. Cost and efficiency of cutting lianas in a lowland liana forest of Bolivia. Biotropica 33:324329.CrossRefGoogle Scholar
PHILLIPS, O. L. & GENTRY, A. H. 1994. Increasing turnover through time in tropical forests. Science 263:954958.CrossRefGoogle ScholarPubMed
PHILLIPS, O. L., VÁSQUEZ MARTINEZ, R., ARROYO, L., BAKER, T. R., KILLEEN, T., LEWIS, S. L., MALHI, Y., MONTEAGUDO MENDOZA, A., NEILL, D., NÚÑEZ VARGAS, P., ALEXIADES, M., CERÓN, C., DI FIORE, A., ERWIN, T., JARDIM, A., PALACIOS, W., SALDIAS, M. & VINCETI, B. 2002. Increasing dominance of large lianas in Amazonian forests. Nature 418:770774.CrossRefGoogle ScholarPubMed
PUTZ, F. E. 1984. The natural history of lianas on Barro Colorado Island, Panama. Ecology 65:17131724.CrossRefGoogle Scholar
SCHNITZER, S. A. & BONGERS, F. 2002. The ecology of lianas and their role in forests. Trends in Ecology and Evolution 17:223230.CrossRefGoogle Scholar
SCHNITZER, S. A. & CARSON, W. P. 2001. Treefall gaps and the maintenance of species diversity in a tropical forest. Ecology 84:913919.CrossRefGoogle Scholar
SCHNITZER, S. A., DALLING, J. W. & CARSON, W. P. 2000. The impact of lianas on tree regeneration in tropical forest canopy gaps: evidence for an alternative pathway of gap phase regeneration. Journal of Ecology 88:655666.CrossRefGoogle Scholar
WHIGHAM, D. F., OLMSTED, I., CABRERA CANO, E. & HARMON, M. E. 1991. The impact of Hurricane Gilbert on trees, litterfall, and woody debris in a dry tropical forest in the northeastern Yucatan Peninsula. Biotropica 23:434441.CrossRefGoogle Scholar