Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-15T23:26:27.644Z Has data issue: false hasContentIssue false

Estimating the number of trees and forest area necessary to supply internationally traded volumes of big-leaf mahogany (Swietenia macrophylla) in Amazonia

Published online by Cambridge University Press:  29 April 2008

J. GROGAN*
Affiliation:
Yale University School of Forestry and Environmental Studies, 360 Prospect Street, New Haven CT 06511, USA Instituto do Homem e Meio Ambiente da Amazônia (IMAZON), R. Domingos Marreiros, n° 2020, Bairro Fátima, Belém, PA 66.060-160, Brazil
M. SCHULZE
Affiliation:
Instituto do Homem e Meio Ambiente da Amazônia (IMAZON), R. Domingos Marreiros, n° 2020, Bairro Fátima, Belém, PA 66.060-160, Brazil School of Forest Resources and Conservation, University of Florida, PO Box 110760, Gainesville FL 32611, USA Instituto Floresta Tropical (IFT), Caixa Postal 13077, Belém, PA 66.040-970, Brazil
*
*Correspondence: Dr James Grogan, 44 Cave Hill Rd Apt 2, Leverett, MA 01054, USA, Tel: +1 413 548 8180 e-mail: [email protected]

Summary

Big-leaf mahogany's listing on CITES Appendix II requires producer nations to certify that exported supplies were obtained in a manner non-detrimental to the species' survival in its role in the ecosystem. Non-detriment findings based on annual export quotas should verify that current harvest rates are sustainable with respect to total commercial stocks. In order to assess this impact, a method for converting export-quality sawnwood volumes to numbers of standing trees is used to estimate the number of mahogany trees and forest area required to produce the original and revised 2007 export quotas set by Peru, correcting for systematic measurement error caused by buttresses and for stem defects caused by heart-rot (hollow bole). Based on large-scale inventory data from three forest sites in nearby south-west Brazil, the average commercial-sized (> 75 cm diameter in Peru) mahogany tree in this region would yield 6.4–8.5 m3 of roundwood (standing volume), which in turn would be processed or milled into 1.7–2.2 m3 of export-grade sawnwood. From this estimate, 6120–8070 commercial-sized trees would have been harvested to supply the original 2007 export quota of 13 477 m3, from a forest area of 407 300–536 750 ha at landscape-scale densities reported by the Peruvian CITES Scientific Authority. To supply the revised export quota of 4983 m3, an estimated 2260–2980 commercial-sized trees will be harvested from a forest area of 150 600–198 450 ha. Both estimates exceed the number of trees the Peruvian Scientific Authority estimates can be sustainably harvested annually (961 ± 144 trees > 75 cm diameter) based on preliminary inventory data. The method estimates that, since 1996, 154 000–203 000 mahogany trees have been logged in Peru from a forest area of 10.2–13.5 million ha to supply the total reported export volume during this period (including the revised 2007 export quota) of 339 114 m3. This area corresponds to 18–25% of mahogany's total natural range in Peru, or 37–49% of mahogany's estimated remaining range in 2001. Without empirical knowledge of density patterns, surviving commercial stocks, and biological and technical issues linking processed lumber (sawnwood) to standing trees (roundwood), it will remain difficult to evaluate the sustainability of export quotas issued at the national level for mahogany or other tropical timber species.

Type
Papers
Copyright
Copyright © Foundation for Environmental Conservation 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

Appiah, S.K., Ofori, J. & Foli, E.G. (1987) Sawmill recovery at a typical Ghanaian-owned medium sawmill. Technical Bulletin of the Forest Products Research Institute, Ghana Forestry Commission 7: 113.Google Scholar
Armstrong, M., Lelievre, T., Reilly, D. & Robertson, B. (2004) Evaluation of the wood quality and utilization potential of plantation grown Khaya senegalensis (African mahogany). In: Prospects for High-value Hardwood Timber Plantations in the ‘Dry’ Tropics of Northern Australia (Conference Proceedings, 19–21 October 2004), ed. Bevege, D.I., Bristow, M., Nikles, D.G. & Skelton, D.J., pp. 116. Mareeba, North Queensland, Australia: Queensland, Australia Private Forestry North Queensland Association, Inc.Google Scholar
Blundell, A.G. (2004) A review of the CITES listing of big-leaf mahogany. Oryx 38: 17.CrossRefGoogle Scholar
Blundell, A.G. & Rodan, B.D. (2003) Mahogany and CITES: moving beyond the veneer of legality. Oryx 37: 8590.CrossRefGoogle Scholar
Brokaw, N. & Thompson, J. (2000) The H for DBH. Forest Ecology and Management 129: 8991.CrossRefGoogle Scholar
Cerdan, C. (2007) The illegal logging of mahogany (Swietenia macrophylla) in the Peruvian Amazon, and its sale in the foreign market. Report, Asociación Interétnica de Desarrollo de la Selva Peruana (AIDESEP), Lima, Peru.Google Scholar
CITES (2003) Sustainable management and scientifically based non-detriment findings. MWG2 Doc. 7. Convention on International Trade in Endangered Species of Wild Fauna and Flora, 2nd Mahogany Working Group, Belém, PA, Brazil.Google Scholar
CITES (2004) Conservation of bigleaf mahogany: report of the Working Group. CoP13 Doc. 39. Convention on International Trade in Endangered Species of Wild Fauna and Flora, Bangkok, Thailand.Google Scholar
CITES (2006) Report by the Secretariat on bigleaf mahogany to the fifty-fourth meeting of the Standing Committee. SC54 Doc. 31.1. Convention on International Trade in Endangered Species of Wild Fauna and Flora, Geneva, Switzerland.Google Scholar
CITES (2007 a) Report by the Secretariat on bigleaf mahogany to the fifty-fifth meeting of the Standing Committee. SC55 Doc. 12. Convention on International Trade in Endangered Species of Wild Fauna and Flora, The Hague, the Netherlands.Google Scholar
CITES (2007 b) Summary Record, Fifty-fifth meeting of the Standing Committee. SC55 Summary Record. Convention on International Trade in Endangered Species of Wild Fauna and Flora, The Hague, the Netherlands.Google Scholar
Fagan, C. & Shoobridge, D. (2005) An investigation of illegal mahogany logging in Peru's Alto Purús National Park and its surroundings. Report, ParksWatch, Durham, NC, USA.Google Scholar
Fagan, C. & Shoobridge, D. (2007) The race for Peru's last mahogany trees: illegal logging and the Alto Purús National Park. Report, Round River Conservation Studies, Denver, CO, USA.Google Scholar
Gerwing, J.J. & Uhl, C. (1997) Conversion efficiency and opportunities for waste reduction in the log processing industries of eastern Pará State, Amazonia. Journal of Tropical Forest Products 3: 7080.Google Scholar
Grogan, J.E. (2001) Bigleaf mahogany (Swietenia macrophylla King) in southeast Pará, Brazil: a life history study with management guidelines for sustained production from natural forests. PhD dissertation, Yale University, New Haven, CT, USA.Google Scholar
Grogan, J. & Barreto, P. (2005) Big-leaf mahogany on CITES Appendix II: big challenge, big opportunity. Conservation Biology 19: 973976.CrossRefGoogle Scholar
Grogan, J., Barreto, P. & Veríssimo, A. (2002) Mahogany in the Brazilian Amazon: Ecology and Perspectives on Management. Belém, PA, Brazil: IMAZON.Google Scholar
Grogan, J., Jennings, S., Landis, R.M., Schulze, M., Baima, A., Carmo, J., Norghauer, J., Oliveira, R., Pantoja, F., Pinto, D., Silva, J., Vidal, E. & Zimmerman, B. (2008) What loggers leave behind: impacts on big-leaf mahogany commercial populations and potential for post-logging recovery in the Brazilian Amazon. Forest Ecology and Management 255: 269281.CrossRefGoogle Scholar
Gullison, R.E., Panfil, S.N., Strouse, J.J. & Hubbell, S.P. (1996) Ecology and management of mahogany (Swietenia macrophylla King) in the Chimanes Forest, Beni, Bolivia. Botanical Journal of the Linnean Society 122: 934.Google Scholar
Hall, J.S., Harris, D.J., Medjibe, V. & Ashton, P.M.S. (2003) The effects of selective logging on forest structure and tree species composition in a Central African forest: implications for management of conservation areas. Forest Ecology and Management 183: 249264.CrossRefGoogle Scholar
Holmes, T.P., Blate, G.M., Zweede, J.C., Pereira, R.J., Barreto, P., Boltz, F. & Bauch, R. (2002) Financial and ecological indicators of reduced impact logging performance in eastern Amazonia. Forest Ecology and Management 163: 93110.CrossRefGoogle Scholar
Hoy, H.E. (1946) Mahogany industry of Peru. Economic Geography 22: 113.CrossRefGoogle Scholar
INRENA (2005) Determinación de la cuota de exportación de caoba correspondiente al año 2005. Informe No. 030-2005-INRENA-IFFS, Instituto Nacional de Recursos Naturales, Lima, Peru.Google Scholar
INRENA (2006 a) Determinación del cupo de exportación de caoba (Swietenia macrophylla) correspondiente del año 2006. Informe No. 003-2006-INRENA-IFFS, Instituto Nacional de Recursos Naturales, Lima, Peru.Google Scholar
INRENA (2006 b) Determinación de la cuota de exportación de caoba (Swietenia macrophylla) correspondiente del año 2007. Informe No. 0023-2006-INRENA-IFFS, Instituto Nacional de Recursos Naturales, Lima, Peru.Google Scholar
Kometter, R.F., Martinez, M., Blundell, A.G., Gullison, R.E., Steininger, M.K. & Rice, R.E. (2004) Impacts of unsustainable mahogany logging in Bolivia and Peru. Ecology and Society 9 [www document]. URL http://www.ecologyandsociety.org/vol9/iss1/art12CrossRefGoogle Scholar
Lamb, F.B. (1966) Mahogany of Tropical America: Its Ecology and Management. Ann Arbor, MI, USA: University of Michigan Press.Google Scholar
Lee, L. (1976) An empirical study of sawmill recovery in Peninsular Malaysia. Malaysian Forester 39: 1317.Google Scholar
Lentini, M., Veríssimo, A. & Sobral, L. (2003) Fatos Florestais da Amazônia 2003. Belém, PA, Brazil: IMAZON.Google Scholar
Lentini, M., Pereira, D., Celentano, D. & Pereira, R. (2005) Fatos Florestais da Amazônia 2005. Belém, PA, Brazil: IMAZON.Google Scholar
Martini, A.M.Z., Rosa, N.A. & Uhl, C. (1994) An attempt to predict which Amazonian tree species may be threatened by logging activities. Environmental Conservation 21: 152162.CrossRefGoogle Scholar
Mayhew, J.E. & Newton, A.C. (1998) The Silviculture of Mahogany. New York, NY, USA: CABI Publishing.CrossRefGoogle Scholar
NRDC (2006) Preliminary assessment of trade in bigleaf mahogany (Swietenia macrophylla). Report, National Resources Defense Council, Washington, DC, USA.Google Scholar
Peru (2004) Implementation of CITES Appendix II listing of mahogany: Peru National Report. Regional Workshop, CITES Appendix II Listing of Mahogany, 18 – 21 May 2004.Instituto Nacional de Recursos Naturales (INRENA) and Universidad Nacional Agraria La Molina, Facultad de Ciencias Forestales (UNALM-FCF), Pucallpa, Peru.Google Scholar
Peru (2005) Evaluation of commercial stocks and strategy for the sustainable management of mahogany (Swietenia macrophylla) in Peru. International Tropical Timber Organization Project Document, Universidad Nacional Agraria La Molina, Facultad de Ciencias Forestales and WWF-Peru, Lima, Peru.Google Scholar
Resampling Stats., Inc. (2001) Resampling Stats Add-In for Excel Version 2. Arlington, VA, USA: Resampling Stats, Inc.Google Scholar
Rodan, B., Newton, A. & Veríssimo, A. (1992) Mahogany conservation: status and policy initiatives. Environmental Conservation 19: 331342.CrossRefGoogle Scholar
Schulte-Herbrüggen, B. & Rossiter, H. (2003) Project Las Piedras: a socio-ecological investigation into the impacts of illegal logging activity in Las Piedras, Madre de Dios, Peru. Report, University of Edinburgh, Edinburgh, UK.Google Scholar
Sills, E., Romero, E. & Sabido, W. (2002) Certified timber production in Belize: lessons from a pilot project. In: Conference Proceedings of the 2002 Southern Forest Economics Workshop, ed. Amacher, G.S. & Sullivan, J.J., p. 225. Virginia Tech, Blacksburg, VA, USA.Google Scholar
Simon, J.L. (1997) Resampling: The New Statistics. Arlington, VA, USA: Resampling Stats, Inc.Google Scholar
Snook, L.K. (1996) Catastrophic disturbance, logging and the ecology of mahogany (Swietenia macrophylla King): grounds for listing a major tropical timber species in CITES. Botanical Journal of the Linnean Society 122: 3546.Google Scholar
UNALM-FCF (2004) Letter to INRENA, 12 November 2004. Universidad Nacional Agraria La Molina, Facultad de Ciencias Forestales, La Molina, Peru.Google Scholar
UNALM-FCF (2007) Informe de la Autoridad Cientifica sobre el Estado de las Poblaciones de Swietenia macrophylla King. Report, Universidad Nacional Agraria La Molina, Facultad de Ciencias Forestales, La Molina, Peru.Google Scholar
Uzowulu, G.I., Edet, D.I., Ajayi, S. & Idiege, D.A. (2005) Lumber recovery efficiency in the artisanal sector in Cross River State, Nigeria. Journal of Agriculture, Forestry and Social Sciences 3: 4150.Google Scholar
Valle, D., Schulze, M., Vidal, E., Grogan, J. & Sales, M. (2006) Identifying bias in stand-level growth and yield estimations: a case study in eastern Brazilian Amazonia. Forest Ecology and Management 236: 127135.CrossRefGoogle Scholar
Veríssimo, A., Barreto, P., Tarifa, R. & Uhl, C. (1995) Extraction of a high-value natural resource in Amazonia: the case of mahogany. Forest Ecology and Management 72: 3960.CrossRefGoogle Scholar
White, S. (1978) Cedar and mahogany logging in eastern Peru. The Geographical Review 68: 394416.CrossRefGoogle Scholar