Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-12T20:16:32.443Z Has data issue: false hasContentIssue false

35 - Guidelines for controlling vegetation, soil and water impacts of timber harvesting in the humid tropics

from Part V - Critical appraisals of best management practices

Published online by Cambridge University Press:  12 January 2010

By
D. S. Cassells  and
L. A. Bruijnzeel
Edited by
M. Bonell  and
L. A. Bruijnzeel
D. S. Cassells
Affiliation:
The World Bank, Environment Department, 1818 H Street NW, Washington, DC 20433, USA
L. A. Bruijnzeel
Affiliation:
Faculty of Earth and Life Sciences, Vrije Universiteit, Amsterdam, De Boelelaan 1085, 1081 HV Amsterdam, The Netherlands
M. Bonell
Affiliation:
UNESCO, Paris
L. A. Bruijnzeel
Affiliation:
Vrije Universiteit, Amsterdam
Get access

Summary

INTRODUCTION

Research and land management experience over many decades has demonstrated that poorly planned or managed logging operations in the tropics generally have a deleterious impact on the ecological and hydrological system (Burgess, 1971; Lal, 1987; Bruijnzeel, 1992; Bruenig, 1996). However, there is also a long history of research and management experience that indicates that, provided forest managers and planners respect broad land capability limits, appropriately managed logging operations can be compatible with the maintenance of hydrological values and high quality water supplies (Gilmour, 1977a, b; Poels, 1987; Baharuddin, 1988; Abdul Rahim, 1990; Bruijnzeel, 1992). On the other hand, despite being known and field-tested in a variety of tropical forested environments for a number of decades now (e.g. Cameron and Henderson (1979), Shepherd and Richter (1985) and Cassells et al. (1984) in north-east Australia; Marn and Jonkers (1981) and Pinard et al. (1995) in Borneo; De Graaf (1986), Jonkers (1987) and Hendrison (1990) in Surinam), available reduced impact logging (RIL) technologies for timber harvesting have often been ignored or inadequately practised in many countries, leading to the generation of unnecessarily high damage to remaining stands, soils and the hydrological system at large (Bruijnzeel, 1992; Bruenig, 1996). Research now being undertaken on the implementation of RIL techniques (e.g. Barreto et al., 1998; Hammond et al., 2000; Pinard et al., 2002) is clarifying many of the key issues associated with the continuation of inadequate management practices in commercial timber harvesting.

Type
Chapter
Information
Forests, Water and People in the Humid Tropics
Past, Present and Future Hydrological Research for Integrated Land and Water Management
 , pp. 840 - 851
Publisher: Cambridge University Press
Print publication year: 2005

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

Abdul Rahim, N. (1990). Effects of Selective Logging Methods on Hydrological Parameters in Peninsular Malaysia. PhD thesis. Bangor: University College of North Wales
Baharuddin, K. (1988). Effect of logging on sediment yield in a hill dipterocarp forest in Peninsular Malaysia. Journal of Tropical Forest Science, 1, 56–66Google Scholar
Barreto, P., Amaral, P., Vidal, E. and Uhl, C. (1998). Costs and benefits of forest management for timber production in eastern Amazonia. Forest Ecology and Management, 108, 9–26CrossRefGoogle Scholar
Bidin, K. (2001). Spatio-temporal Variability in Rainfall and Wet-Canopy Evaporation Within a Small Catchment Recovering from Selective Tropical Forestry. PhD thesis. Lancaster, UK: University of Lancaster
Bonell, M. and Gilmour, D. A. (1978). The development of overland flow in a tropical rainforest catchment. Journal of Hydrology, 39, 365–382CrossRefGoogle Scholar
Borhan, M., Johari, B. and Quah, E. S. (1987). Studies on logging damage due to different methods and intensities of harvesting in a Hill Dipterocarp forest of Peninsular Malaysia. The Malaysian Forester, 50, 135–147Google Scholar
Bren, L. J. (1997). The effects of stream buffer width on available resources. Australian Forestry, 60(4), 260–263CrossRefGoogle Scholar
Bren, L. J. (2000). A case study in the sue of threshold measures of hydrologic loading in the design of stream buffer strips. Forest Ecology and Management, 132, 243–257CrossRefGoogle Scholar
Brouwer, L. C. (1996). Nutrient Cycling in Pristine and Logged Tropical Rain Forest. A Study in Guyana. Tropenbos – Guyana Series 1. Georgetown: Tropenbos-Guyana Programme
Bruenig, E. F. (1996). Conservation and Management of Tropical Rainforests. An Integrated Approach to Sustainability. Wallingford, UK: CAB International
Bruijnzeel, L. A. (1990). Hydrology of Moist Tropical Forests and Effects of Conversion: A State of Knowledge Review. Paris: UNESCO International Hydrological Programme and Amsterdam: Vrije Universiteit
Bruijnzeel, L. A. (1992). Managing tropical forest watersheds for production: where contradictory theory and practice co-exist. In Wise Management of Tropical Forests 1992, eds. F. R. Miller and K. L. Adam, pp. 37–75. Oxford: Oxford Forestry Institute
Bruijnzeel, L. A. (1998). Soil chemical changes after tropical forest disturbance and conversion: The hydrological perspective. In Soils of Tropical Forest Ecosystems. Characteristics, Ecology and Management, eds. A. Schulte and D. Ruhyat, pp. 45–61. Berlin: Springer VerlagCrossRef
Burgess, P. F. (1971). The effect of logging on hill dipterocarp forests. Malayan Nature Journal, 24, 231–237Google Scholar
Bury, R. B., Corn, P. S. and Aubry, K. B. (1991). Regional patterns of terrestrial amphibian communities in Oregon and Washington. In Wildlife and Vegetation of Unmanaged Douglas-Fir Forests. USDA Forest Service General Technical Report PNW-GTR-285, pp. 341–352
Cameron, A. L. and Henderson, L. E. (1979). Environmental Considerations for Forest Harvesting. Canberra: CSIRO Harvesting Research Group
Cassells, D. S. (1992). Forested watershed controls in North-east Australia as an interim model for other humid tropical forest environments. ITTO Tropical Forest Management Update, 2, 6–8Google Scholar
Cassells, D. S., Gilmour, D. A. and Bonell, M. (1984). Watershed forest management practices in the tropical rainforests of North-eastern Australia. In Effects of Land Use on Erosion and Slope Stability, ed. C. L. O'Loughlin and A. J. Pearce, pp. 289–298. Vienna: International Union of Forest Research Organisations
Cassells, D. S., Gilmour, D. A. and Bonell, M. (1985). Catchment response and watershed management in the tropical rainforests in north-eastern Australia. Forest Ecology and Management, 10, 155–175CrossRefGoogle Scholar
Cassells, D. S. and Hall, C. (2000). Proposals for the Development of a Comprehensive Framework and Practical Working Manuals on All Relevant Aspects of Sustainable Forest Management. Repros prepared for the International Tropical Timber Organization. Georgetown, Guyana: Iwokrama International Centre for Rain Forest Conservation and Development
Chappell, N. A., Bidin, K. and Tych, W. (2001). Modelling rainfall and canopy controls on net precipitation beneath selectively-logged tropical forest. Plant Ecology, 153, 215–229CrossRefGoogle Scholar
Chua, D. K. H. (1996). Helicopter logging lifts off in Sarawak. ITTO Tropical Forest Management Update, 6, 2–4Google Scholar
Constantini, A., Dawes, W., O'Loughlin, E. M. and Vertessy, R. A. (1993). Hoop pine plantation management in Queensland: I. Gully erosion hazard prediction and water course classification. Australian Journal of Soil and Water Conservation, 6, 35–39Google Scholar
Constantini, A., Loch, R. J., Connolly, R. D. and Garthe, R. (1999). Sediment generation from forest roads: bed and eroded sediment size distributions and runoff management strategies. Australian Journal of Soil Research, 37, 947–964CrossRefGoogle Scholar
Croke, J., Hairsine, P. and Fogarty, P. (1999). Runoff generation and redistribution in logged eucalyptus forests, south-eastern australia. Journal of Hydrology, 216, 56–77CrossRefGoogle Scholar
Dawkins, H. C. and Philip, M. S. (1998). Tropical Moist Silviculture and Management: A History of Success and Failure. Wallingford, UK: CAB International
De Graaf, N. R. (1986). A Silvicultural System for Natural Regeneration of Tropical Rainforest in Suriname. PhD thesis, Wageningen, The Netherlands: Wageningen Agricultural University
Dietrich, W. E., Wilson, C. J., Montgomery, D. R., McKean, J. and Bauer, R. (1992). Erosion thresholds and land surface morphology. Geology, 20, 675–6792.3.CO;2>CrossRefGoogle Scholar
Douglas, I. (1999). Hydrological investigations of forest disturbance and land cover impacts in South East Asia: a review. Philosophical Transactions of the Royal Society (London), Series B, 354, 1725–1738CrossRefGoogle ScholarPubMed
Douglas, I., Bidin, K., Balamurugan, G., Chappell, N. A., Walsh, R. P. D., Greer, T. and sinun, W. (1999). Role of extreme events in the impacts of selective tropical forestry on erosion during harvesting and recovery phases at Danum Valley, Sabah. Philosophical Transactions of the Royal Society (London), Series B, 354, 1749–1761CrossRefGoogle ScholarPubMed
Dykstra, D. P. and Heinrich, R. (1996). FAO Model Code of Forest Harvesting Practice. Rome: Food and Agriculture Organization of the United Nations
Easter, K. W., Dixon, J. A. and Hufschmidt, M. M. (1986). Watershed Resources Management: An Integrated framework with Studies from Asia and the Pacific. Boulder, Colorado: Westview Press
Franklin, J. F. (1992). Scientific basis for new perspectives in forests and streams. In Watershed Management: Balancing Sustainability and Environmental Change, ed. R. J. Naiman, pp. 25–72. New York: Springer-VerlagCrossRef
Gillman, G. P., Sinclair, D. F., Knowlton, R. and Keys, M. G. (1985). The effect on some soil chemical properties of the selective logging of a north Queensland rainforest. Forest Ecology and Management, 12, 195–214CrossRefGoogle Scholar
Gilmour, D. A. (1971). The effects of logging on streamflow and sedimentation in a north Queensland rainforest catchment. Commonwealth Forestry Review, 50, 39–48Google Scholar
Gilmour, D. A. (1977a). Logging and the environment, with particular reference to soil and stream protection in tropical rainforest situations. In FAO Conservation Guide 1, ed. S. H. Kunkle, pp. 223–235. Rome: Food and Agriculture Organization of the United Nations
Gilmour, D. A. (1977b). Effect of rainforest logging and clearing on water yield and quality in a high rainfall zone of north-east Queensland. In Proceedings of the First National Symposium on Forest Hydrology, eds. E. M. O'Loughlin and L. J. Bren, pp. 156–160. Melbourne: Institution of Engineers Australia
Hammond, D. H., Hout, P., Zagt, R. J., Marshall, G.Evans, J. and Cassells, D. S. (2000). Benefits, bottlenecks and uncertainties in the pantropical implementation of reduced impact logging operations. International Forest Review, 2, 45–53Google Scholar
Hendrison, J. (1990). Damage-Controlled Logging in Managed Tropical Rain Forest in Suriname. PhD thesis. Wageningen, The Netherlands: Wageningen Agricultural University
Holmes, T. P., Blate, G. M., Zweede, J. C., Pereira, R. and Boltz, F. (1999). Financial Costs and Benefits of Reduced-Impact Logging Relative to Conventional Logging in the Eastern Amazon. Forestry Private Enterprise Initiative Working Paper. Research Triangle Park, North Carolina, USA: Tropical Forest Founation / Fundação Floresta Tropical / USDA Forest Service. Southeastern Center for Forest Economics Research
ITTO (1990). Guidelines for the Sustainable Mangement of Natural Tropical Forests. ITTO Policy Development Series, No. 1. Yokohama: International Timber Trade Organization
ITTO (1992). Criteria for the Measurement of Sustainable Tropical Forest Management. ITTO Policy Development Series, No. 2. Yokohama: International Timber Trade Organization
ITTO, 1997. Criteria and Indicators for Sustainable Management of Natural Tropical Forests. ITTO Policy Development Series, No. 7. Yokohama: International Timber Trade Organization
Jetten, V. G. (1994). Modelling the Effects of Logging on the Water Balance of a Tropical Rain Forest. A Study in Guyana. Tropenbos Series 6. Wageningen, the Netherlands: Tropenbos Foundation
Jonkers, W. B. J. (1987). Vegetation Structure, Logging Damage and Silviculture in a Tropical Rain Forest. PhD thesis, Wageningen, The Netherlands: Wageningen Agricultural University
Jonkers, W. B. J. and Leersum, G. J. M. (2000). Logging in South Cameroon: current methods and opportunities for improvement. The International Forestry Review, 2, 11–16Google Scholar
Kamaruzaman, J. (1991). Effect of tracked and rubber-tyred logging machines on soil physical properties of the Berkelah Forest Reserve, Malaysia. Pertanika, 14, 1–11Google Scholar
Lal, R. (1987). Tropical Ecology and Physical Edaphology. New York: J. Wiley
Lock, R. J., Espigares, T., Costantini, A., Garthe, R. and Bubb, K. (1999). Vegetative filter strips to control sediment movement in forest plantations: validation of a simple model using field data. Australian Journal of Soil Research, 37, 929–946CrossRefGoogle Scholar
Malmer, A. (1992). Water yield changes after clear-felling tropical rainforest and establishment of forest plantation in Sabah, Malaysia. Journal of Hydrology, 134, 77–94CrossRefGoogle Scholar
Malmer, A. and Grip, H. (1990). Soil disturbance and loss of infiltrability caused by mechanized and manual extraction of tropical rainforest in Sabah, Malaysia. Forest Ecology and Management, 38, 1–12CrossRefGoogle Scholar
Marcello, H. B. and Tagudar, E. T. (1956). Residual stands in selective high-lead logging. The Philippines Journal of Forestry, 12, 101–116Google Scholar
Marn, H. M. and Jonkers, W. B. (1981). Logging Damage in Tropical High Forest. 5. Kuching: FAO/UNDP Forestry Development Project Sarawak
McClain, M. E., Richey, J. E. and Pimentel, T. P. (1994). Groundwater nitrogen dynamics at the terrestrial-lotic interface of a small catchment in the central Amazon basin. Biogeochemistry, 27, 113–127CrossRefGoogle Scholar
McDowell, W. H., Bowden, W. H. and Asbury, C. E. (1992). Riparian nitrogen dynamics in two geomorphologically distinct tropical rainforest watersheds: subsurface solute patterns. Biogeochemistry, 18, 53–75CrossRefGoogle Scholar
Meijer, W. (1970). Regeneration of tropical lowland forest in Sabah, Malaysia, forty years after logging. The Malaysian Forester, 32, 204–229Google Scholar
Naiman, R. J., Decamps, H. and Pollock, M. (1993). The role of riparian corridors in maintaining regional biodiversity. Ecological Applications, 3, 209–212CrossRefGoogle ScholarPubMed
Norton, T. W. and May, S. A. (1993). Integrated Forestry Harvesting in Eastern Australia: Ecological Impacts and Priorities for Conservation. Working Paper 1993/5. Canberra: Centre for Resource and Environmental Studies, Australian National University
Nussbaum, R., Anderson, J. and Spencer, T. (1995). Factors limiting the growth of indigenous tree seedlings planted on degraded rainforest soils in Sabah, Malaysia. Forest Ecology and Management, 74, 149–159CrossRefGoogle Scholar
Nussbaum, R., Jennings, S. and Garforth, M. (2002). Assessing Forest Certification Schemes: a Practical Guide. Oxford: Proforest
O'Loughlin, E. M. (1986). Prediction of surface saturation zones in natural catchments by topographic analysis. Water Resources Research, 22, 794–804CrossRefGoogle Scholar
Pinard, M. A., Putz, F. E., Toy, J. and Sullivan, T. E. (1995). Creating timber harvest guidelines for a reduced-impact logging project in Malaysia. Journal of Forestry, 93, 41–45Google Scholar
Pinard, M. A., Putz, F. E. and Tay, J. (2002). Lessons learned from the implementation of reduced impact logging in hilly terrain in Sabah, Malaysia. The International Forestry Review, 2, 33–39Google Scholar
Poels, R. L. H. (1987). Soils, Water and Nutrients in a Forest Ecosystem in Suriname. PhD thesis. Wageningen, The Netherlands: Wageningen Agricultural University
Poore, D. and Thang, H. C. (2000). Review of Progress towards the Year 2000 Objective, International Tropical Timber Council Document XXVIII/9/Rev.2, Yokohama: International Tropical Timber Organization
Prosser, I., Bunn, S., Mosisch, T., Ogden, R. and Karssies, L. (1999). The delivery of sediment and nutrients to streams. In Riparian Land Management Technical Guidelines. Volume One: Principles of Sound Management, eds. S. Lovett and P. Price, pp. 39–60. Canberra: Land and Water Research and Development Corporation
Putz, F. E. and Pinard, M. A. (1993). Reduced-impact logging as a carbon-offset method. Conservation Biology, 7, 755–757CrossRefGoogle Scholar
Rose, S. A. (2000). Seeds, Seedlings and Gaps – Size Matters. A Study in the Tropical Rainforest of Guyana. Tropenbos – Guyana Series 9. Georgetown: Tropenbos – Guyana Programme
Shepherd, K. R. and Richter, H. V. (1985). Managing the Tropical Forest. Canberra: Australian National University
Van Dam, O. (2001). Forest Filled with Gaps. Effects of Gap Size on Water and Nutrient Cycling in Tropical Rain Forest. A Study in Guyana. Tropenbos – Guyana Series 10. Georgetown: Tropenbos – Guyana Programme
Van der Hout, P. 1999. Reduced Impact Logging in the Tropical Rain Forest of Guyana. Ecological, Economic and Silvicultural Consequences. Tropenbos – Guyana Series 6. Georgetown: Tropenbos – Guyana Programme
Plas, M. C. and Bruijnzeel, L. A. (1993). Impact of mechanized selective logging of rainforest on topsoil infiltrability in the Upper Segama area, Sabah, Malaysia. International Association of Hydrological Sciences Publication, 216, 203–211Google Scholar
Vertessy, R. A., Wilson, C. J., Silburn, D. M., Connolly, R. D. and Ciesiolka, C. A. (1990). Predicting erosion hazard areas using digital terrain analysis. International Association of Hydrological Sciences Publication, 192, 298–308Google Scholar
Walker, J. and Reuter, D. J. (1996). Key indicators to assess farm and catchment health. In: Indicators of Catchment Health: A Technical Perspective, eds. J. Walker and D. J. Reuter, pp. 21–33. Melbourne: CSIRO
Whitmore, T. C. (1998). An Introduction to Tropical Rain Forests, 2nd ed. Oxford: Clarendon Press
Williams, M. R., Fisher, T. R. and Melack, J. M. (1997). Solute dynamics in soil water and groundwater in a central Amazon catchment undergoing deforestation. Biogeochemistry, 38, 303–335CrossRefGoogle Scholar
Wyatt-Smith, J. (1987). Problems and prospects for natural management of tropical moist forests. In) Natural management of Tropical Moist Forest, eds. F. Mergen and J. R. Vincent, pp. 5–22. New Haven, Connecticut: Yale University
Zagt, R. J. (1997). Tree Demography of the Tropical Rain Forest of Guyana. Tropenbos – Guyana Series 3. Georgetown: Tropenbos – Guyana Programme

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×