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Research agendas for the sustainable management of tropical peatland in Malaysia

  • RORY PADFIELD (a1), SUSAN WALDRON (a2), SIMON DREW (a2), EFFIE PAPARGYROPOULOU (a1), SHASHI KUMARAN (a3), SUSAN PAGE (a4), DAVE GILVEAR (a5), ALONA ARMSTRONG (a2), STEPHANIE EVERS (a6), PAUL WILLIAMS (a7), ZURIATI ZAKARIA (a1), SING YUN CHIN (a8), SUNE BALLE HANSEN (a9), AHIMSA CAMPOS-ARCEIZ (a10), MOHD TALIB LATIF (a11), ALEX SAYOK (a12) and MUN HOU THAM (a1)...

Summary

There is a need for coordinated research for the sustainable management of tropical peatland. Malaysia has 6% of global tropical peat by area and peatlands there are subject to land use change at an unprecedented rate. This paper describes a stakeholder engagement exercise that identified 95 priority research questions for peatland in Malaysia, organized into nine themes. Analysis revealed the need for fundamental scientific research, with strong representation across the themes of environmental change, ecosystem services, and conversion, disturbance and degradation. Considerable uncertainty remains about Malaysia's baseline conditions for peatland, including questions over total remaining area of peatland, water table depths, soil characteristics, hydrological function, biogeochemical processes and ecology. More applied and multidisciplinary studies involving researchers from the social sciences are required. The future sustainability of Malaysian peatland relies on coordinating research agendas via a ‘knowledge hub’ of researchers, strengthening the role of peatlands in land-use planning and development processes, stricter policy enforcement, and bridging the divide between national and provincial governance. Integration of the economic value of peatlands into existing planning regimes is also a stakeholder priority. Finally, current research needs to be better communicated for the benefit of the research community, for improved societal understanding and to inform policy processes.

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Corresponding author

*Correspondence: Dr Rory Padfield Tel: +60 1366 32037 e-mail: rorypadfield@gmail.com

References

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ASEAN Secretariat (2007) ASEAN Peatland Management Strategy 2006. 16th ASEAN Ministerial Meeting on the Environment (AMME), 10th November 2006, Cibu, Phillipines [www document]. URL http://haze.asean.org/docs/1245724927/APMS_whole.pdf/view
Awang, A. (2006) Economic valuation of forest ecosystem services in Malaysia. Faculty of Forestry, University Putra Malaysia, Malaysia [www document]. URL http://www.jst.go.jp/asts/asts_m/files/0311pdf/09_Seminar_ASTS_Penang_10–14_March_2006_Awang_Noor.pdf
Bain, C.G., Bonn, A., Stoneman, R., Chapman, S., Coupar, A., Evans, M., Gearey, B., Howat, M., Joosten, H., Keenleyside, C., Labadz, J., Lindsay, R., Littlewood, N., Lunt, P., Miller, C.J., Moxey, A., Orr, H., Reed, M., Smith, P., Swales, V., Thompson, D.B.A., Thompson, P.S., van de Noort, R., Wilson, J.D. & Worrall, F. (2011) IUCN UK Commission of Inquiry on Peatlands. IUCN UK Peatland Programme, Edinburgh, UK [www document]. URL http://www.iucnukpeatlandprogramme.org/commission/findings
Billett, M.F., Charman, D.J., Clark, J.M., Evans, C.D., Evans, M.G., Ostle, N.J, Worrall, F., Burden, A., Dinsmore, K.J., Jones, T., McNamara, N.P., Parry, L., Rowson, J.G. & Rose, R. (2010) Carbon balance of UK peatlands: current state of knowledge and future research challenges. Climate Research 45: 1329.
Bonnett, S., Ostle, N. & Freeman, C. (2006) Seasonal variations in decomposition processes in a valley-bottom riparian peatland. Science of the Total Environment 370 (2): 561573.
Boykoff, M. & Boykoff, J. (2007) Climate change and journalistic norms: a case study of US mass-media coverage. Geoforum 38: 11901204.
Brown, L., Mitchell, G., Holden, J., Folkard, A., Wright, N., Beharry-Borg, N., Berry, G., Brierley, B., Chapman, P., Clarke, S.J., Cotton, L., Dobson, M., Dollar, E., Fletcher, M., Foster, J., Hanlon, A., Hildon, P., Hiley, P., Hillis, P., Hoseason, J., Johnston, K., Kay, P., McDonald, A., Parrott, A., Powell, A., Slack, R.J., Sleight, A., Spray, C., Tapley, K., Underhill, R. & Woulds, C. (2010) Priority water research questions as determined by UK practitioners and policy makers. Science of the Total Environment 409: 256–66.
Carmenta, R., Parry, L., Blackburn, A., Vermeylen, S. & Barlow, J. (2011) Understanding human-fire interactions in tropical forest regions: a case for interdisciplinary research across the natural and social sciences. Ecology and Society 16 (1): 53.
Couwenberg, J. (2011) Greenhouse gas emissions from the managed peat soils: is the IPCC reporting guidance realistic? Mires and Peat 8 (2): 110.
Farmer, J., Matthews, R., Smith, P. & Smith, U. (2013) The tropical peatland plantation-carbon assessment tool: estimating CO2 emissions from tropical peat soils under plantations. Mitigation and Adaptation Strategies for Global Change [www document] URL http://link.springer.com/article/10.1007/s11027-013-9517-4#page-2
Glavič, P. & Lukman, R. (2008) Review of sustainability terms and their definitions. Journal of Cleaner Production 15 (18): 1875–85.
Hogg, E., Lieffers, V. & Wein, R. (1992) Potential carbon losses from peat profiles: effects of temperature, drought cycles, and fire. Ecological Applications 2 (3): 298306.
IPCC (2006) 2006 IPCC guidelines for national greenhouse gas inventories. National Greenhouse Gas Inventories Programme Report, ed. Eggleston, H., Buendia, L., Miwa, K., Ngara, T. & Tanabe, K.. IGES, Hayama, Japan [www document]. URL http://www.ipcc-nggip.iges.or.jp/public/2006gl/index.html
Johnson, D., Ambrose, S., Bassett, T., Bowen, M., Crummey, D., Isaacson, J., Johnson, D., Lamb, P., Saul, M. & Winter-Nelson, A. (1997) Meanings of environmental terms. Journal of Environmental Quality 26 (3): 581589.
Koh, L., Miettinen, J., Liew, S. & Ghazoul, J. (2011) Remotely sensed evidence of tropical peatland conversion to oil palm. Proceedings of the National Academy of Scientists USA 108: 51275132.
Komulainen, V., Nykänen, H., Martikainen, P. & Laine, J. (1998) Short-term effect of restoration on vegetation change and methane emissions from peatlands drained for forestry in southern Finland. Canadian Journal Forest Research 28: 402411.
Heikurainen, L. & Päivänen, J. (1970) The effect of thinning, clear cutting, and fertilization on the hydrology of peatland drained for forestry. Acta Forestalia Fennica 104: 123.
Lakoff, G. (2010) Why it matters how we frame the environment. Environmental Communication: A Journal of Nature and Culture 4 (1): 7081.
Manzo, K. (2008) Imaging humanitarianism: NGO identity and the iconography of childhood. Antipode 40 (4): 632657.
Melling, L., Hatano, R. & Goh, K. (2005) Methane fluxes from three ecosystems in tropical peatland of Sarawak, Malaysia. Soil Biology and Biochemistry 37 (8): 14451453.
Moore, S., Evans, C., Page, S., Garnett, M., Jones, T., Freeman, C., Hooijer, A., Wiltshire, A., Limin, S. & Gauci, V. (2013) Deep instability of deforested tropical peatlands revealed by fluvial organic carbon fluxes. Nature 493: 660663.
MOSTI (2004) National Wetlands Policy. Government of Malaysia. Putrajaya, Malaysia.
Murdiyarso, D., Hergoualc'h, K. & Verchot, L. (2010) Opportunities for reducing greenhouse gas emissions in tropical peatlands. Proceedings of the National Academy Science USA 107: 1965519660.
Nisbet, M. (2009) Communicating climate change: why frames matter for public engagement. Environment: Science and Policy for Sustainable Development 51 (2): 1223.
NRE (2011) National Action Plan for Peatland. Government of Malaysia. Putrajaya, Malaysia.
Padfield, R., Richards, C., Yusop, Z., Parkey, J., Harrison, O & Preece, C. (2014) Tackling wicked problems in the Malaysian water industry: a framework for university-industry research partnerships. Journal of Governance and Development (in press).
Page, S., Hooijer, A., Rieley, J., Banks, C. & Hoscilo, A. (2012) The tropical peat swamps of Southeast Asia: human impacts on biodiversity, hydrology and carbon dynamics. Systematics Association 82: 406433.
Page, S., Hoscilo, A., Langner, A., Tansey, K., Siegert, F., Limin, S. & Rieley, J. (2009 b) Tropical peatland fires in Southeast Asia. In: Tropical Fire Ecology, ed. Johnson, E. & Miyanish, K., pp. 263–87. Berlin, Germany: Springer Praxis.
Page, S., Hoscilo, A., Wösten, H., Jauhiainen, J., Silvius, M., Rieley, J., Ritzema, H., Tansey, K., Graham, L., Vasander, H. & Limin, S. (2009 a) Ecological restoration of tropical peatlands in Southeast Asia. Ecosystems 12: 888905.
Page, S., Morrison, R., Malins, C., Hooijer, A., Rieley, J. & Jauhiainen, J. (2011 a) Review of peat surface greenhouse gas emissions from oil palm plantations. In: Southeast Asia. White Paper Number 15, September 2011. Indirect Effects of Biofuel Production Series. International Council on Clean Transportation. Washington DC, USA.
Page, S., Rieley, J. & Banks, C. (2011b) Global and regional importance of the tropical peatland carbon pool. Global Change Biology 17: 798818
Page, S., Rieley, J. & Wüst, R. (2006) Chapter 7: Lowland tropical peatlands of Southeast Asia. Developments in Earth Surface Processes 9: 145–72.
Parish, F., Sirin, A., Charman, D., Joosten, H., Minayeva, T., Silvius, M. & Stringer, L. (2008) Assessment on peatlands, biodiversity and climate change: main report. Global Environment Centre, Kuala Lumpur, Malaysia and Wetlands International, Wageningen, the Netherlands.
Rawlins, A. & Morris, J. (2010) Social and economic aspects of peatland management in Northern Europe, with particular reference to the English case. Geoderma 154 (3–4): 242251.
Rosli, N., Gandaseca, S., Ismail, J. & Iqbal, J. (2010) Compartice study of water quality at different peat swamp forest of Batang Igan, Subu Sarawak. American Journal of Environmental Science 6 (5): 416421.
SarVision (2011) Impact of oil palm plantations on peatland conversion in Sarawak 2005–2010. Report. Wetland International, Wageningen, the Netherlands.
Scottish Government (2009) Scottish Soil Framework. The Scottish Government, Edinburgh, UK [www document]. URL http://www.scotland.gov.uk/Resource/Doc/273170/0081576.pdf
Shantz, M. & Price, J. (2006) Hydrological changes following restoration of the Bois-des-Bel Peatland, Quebec, 1999–2002. Journal of Hydrology 331 (15): 543553.
Silvius, J. & Suryadiputra, N. (2010) Review of policies and practices in tropical peat swamp forest management in Indonesia. Report. Wetlands International, Wageningen, the Netherlands [www document]. URL http://portals.wdi.wur.nl/files/docs/File/wffae/ReviewPoliciesPracticesPeatswampManagement.pdf
Tsuyuki, S., Goh, M., Teo, S., Kamlun, K. & Phua, M. (2011) Monitoring deforestation in Sarawak, Malaysia using multitemporal Landsat data. Kanto Forest Research 62: 8790.
van Stappen, F., Brose, I. & Schenkel, Y. (2011) Direct and indirect land use changes issues in European sustainability initiatives: state-of-the-art, open issues and future developments. Biomass and Bioenergy 35 (12): 48244834.
Wetlands International (2010) A quick scan of peatlands in Malaysia. Report. Petaling Jaya, Malaysia [www document]. URL http://malaysia.wetlands.org/Library/tabid/519/mod/1570/articleType/ArticleView/articleId/2675/A-Quick-Scan-of-Peatlands-in-Malaysia.aspx
World Commission on Environment and Development (1987) Our Common Future. Oxford, UK: Oxford University Press.
Worrall, F., Armstrong, A. & Holden, J. (2007) Short-term impact of peat drain-blocking on water colour, dissolved organic carbon concentration, and water table depth. Journal of Hydrology 337 (3–4): 315325.
Wösten, J., Ismail, A. & Wijk, A. (1997) Peat subsidence and its practical implications: a case study in Malaysia. Geoderma 78: 2536.
Wright, R. & Stein, M (2005) Snowball sampling. In: The Encyclopedia of Social Measurement, ed. Kempf-Leonard, K., pp. 495500. San Diego, CA, USA: Elsevier.
Yule, C. (2010) Loss of biodiversity and ecosystem functioning in Indo-Malayan peat swamp forest. Biodiversity Conservation 19: 393409.

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