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Alleviating forest degradation in the Lancang-Mekong Region requires closing management—measurement gaps

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Abstract

Deforestation and forest degradation are having profound negative impacts on social-ecological systems in the emerging economies across the tropics. Consequently, interest in restoring and rehabilitating degraded forests has been growing. This paper explores current issues related to addressing forest degradation in the Lancang-Mekong Region (LMR) of Southeast Asia through a review of the use of criteria and indicators for forest degradation and rehabilitation. Forest degradation must be understood in the context of its underlying drivers, which are numerous and complex. Understanding these underlying drivers of degradation requires diagnosing the entwined political, social, economic, and environmental systems that affect forests. Landscapes are the relevant scales to diagnose and intervene for improved forests. Interventions to restore or rehabilitate forests should be process-driven, focused on the underlying social, ecological and political processes that degrade landscapes. Interventions should also include negotiation among all actors influencing and competing for natural resource claims in forest landscapes. Criteria and indicators for forest landscape restoration should therefore help to improve the governance of forest landscapes. Criteria and indicators provide measures of the biophysical outcomes of degradation, in addition to processes, but these should be adapted to changing contexts and emerging challenges, and should rectify any pre-existing flawed change-logic. Restoration activities should synthesize, integrate, and build upon the rich history of pre-existing restoration guidelines, but should be adaptable in order to be applied effectively in the contexts of local landscapes. This project is facilitating a dialogue around the use of criteria and indicators to help solve the degradation challenge in the LMR. We will trial the use of the criteria and indicators generated through this research in the LMR to learn what works and what doesn’t. This will provide an opportunity to build consensus around the ways in which restoration investments made by governments, civil society, and the private sector can influence sustainability.

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References

  • Achard F, Beuchle R, Mayaux P, Stibig HJ, Bodart C, Brink A, Carboni S, Desclée B, Donnay F, Eva HD, Lupi A, Raši R, Seliger R, Simonetti D (2014) Determination of tropical deforestation rates and related carbon losses from 1990 to 2010. Glob Change Biol 20(8):2540–2554

    Google Scholar 

  • Adachi M, Ito A, Ishida A, Kadir WR, Ladpala P, Yamagata Y (2011) Carbon budget of tropical forests in Southeast Asia and the effects of deforestation: an approach using a process-based model and field measurements. Biogeosciences 8(9):2635–2647

    CAS  Google Scholar 

  • Allen CD, Macalady AK, Chenchouni H, Bachelet D, McDowell N, Vennetier M, Gonzalez P (2010) A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. For Ecol Manag 259(4):660–684

    Google Scholar 

  • Angelsen A, Jagger P, Babigumira R, Belcher B, Hogarth NJ, Bauch S, Börner J, Smith-Hall C, Wunder S (2014) Environmental income and rural livelihoods: a global comparative analysis. World Dev 64:12–28

    Google Scholar 

  • APFNet (2013) Demonstration of capacity building of forest restoration and sustainable forest management in Vietnam. Project Completion Report. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China

  • APFNet (2014) Comparative analyses of transitions to sustainable forest management and rehabilitation. Project Completion Report. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China

  • APFNet (2015) Multi-function forest restoration and management of degraded forest areas in Cambodia. Project Completion Report. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China.

  • APFNet (2016) Sustainable forest rehabilitation and management for the conservation of trans-boundary ecological security in Montane Mainland Southeast Asia– Pilot Demonstration Project of Lao PDR, Myanmar and China/Yunnan. Project Completion Report. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China

  • APFNet (2018) Reconstruction and sustainable management of degraded forest based on the combination of inter-planting nitrogen fixation rare tree species and thinning. Project Profile. http://www.apfnet.cn/en/show-model6-1318.html. Accessed 17 July 19

  • Ashraf J, Pandey R, de Jong W (2016) Assessment of bio-physical, social and economic drivers for forest transition in Asia-Pacific region. Forest Policy Econ 76:35–44

    Google Scholar 

  • Barr CM, Sayer JA (2012) The political economy of reforestation and forest restoration in Asia–Pacific: critical issues for REDD +. Biol Cons 154:9–19

    Google Scholar 

  • Besseau P, Graham S, Christophersen T (2018) Restoring forests and landscapes: the key to a sustainable future. Global Partnership on Forest and Landscape Restoration, Vienna, Austria. ISBN, (978–3), 902762–97

  • Bull GQ, Boedhihartono AK, Bueno G, Cashore B, Elliott C, Langston JD, Sayer J (2018) Global forest discourses must connect with local forest realities. Int For Rev 20(2):160–166

    Google Scholar 

  • Cao S, Xu C, Chen L, Wang X (2009) Attitudes of farmers in China's northern Shaanxi Province towards the land-use changes required under the Grain for Green Project, and implications for the project's success. Land Use Policy 26(4):1182–1194

    Google Scholar 

  • Ceballos G, Ehrlich PR, Dirzo R (2017) Biological annihilation via the ongoing sixth mass extinction signaled by vertebrate population losses and declines: proceedings of the National Academy of Sciences 2017

  • Chambers R (2012) Sharing and co-generating knowledges: reflections on experiences with PRA and CLTS. IDS Bull 43:71–87. https://doi.org/10.1111/j.1759-5436.2012.00324.x

    Article  Google Scholar 

  • Chazdon RL (2008) Beyond deforestation: Restoring forests and ecosystem services on degraded lands. Science 230(5882):1458–1460

    Google Scholar 

  • Chazdon RL (2019) Towards more effective integration of tropical forest restoration and conservation. Biotropica 51(4)

  • Chazdon RL, Brancalion P (2019) Restoring forests as a means to many ends. Science 365(6448):24–25

    CAS  PubMed  Google Scholar 

  • Chazdon RL, Brancalion PHS, Laestadius L, Bennett-Curry A, Buckingham K, Kumar C, Wilson SJ (2016) When is a forest a forest? Forest concepts and definitions in the era of forest and landscape restoration. Ambio 45(5):538–550

    PubMed  PubMed Central  Google Scholar 

  • Chazdon RL, Brancalion PHS, Lamb D, Laestadius L, Calmon M, Kumar C (2017) A policy-driven knowledge agenda for global forest and landscape restoration. Conserv Lett 10(1):125–132

    Google Scholar 

  • Chazdon RL, Laestadius L (2016) Forest and landscape restoration: toward a shared vision and vocabulary. Am J Bot 103(11):1869–1871

    PubMed  Google Scholar 

  • Curtis PG, Slay CM, Harris NL, Tyukavina A, Hansen MC (2018) Classifying drivers of global forest loss. Science 361(6407):1108–1111

    CAS  PubMed  Google Scholar 

  • Dudley N, Mansourian S, Vallauri D (2005) Forest landscape restoration in context. Forest restoration in landscapes: beyond planting trees. Springer, New York, pp 3–7

  • Erbaugh J, Agrawal A (2017) Clarifying the landscape approach: A Letter to the Editor on “Integrated landscape approaches to managing social and environmental issues in the tropics”. Glob Change Biol 23(11):4453–4454

    Google Scholar 

  • FA (2010) Cambodia Forestry Outlook Study. The forestry Administration of Cambodia. FAO, Regional Office for Asia and the Pacific, Bangkok. https://www.fao.org/3/am627e/am-627e00.pdf. Accessed 25 June 2019

  • FAO (2000) Global forest resources assessment 2000. Food and Agriculture Organization of the United Nations, Rome. https://www.fao.org/forest-resources-assessment/past-assessments/fra-2000/en/. Accessed 20 Jan 2018

  • FAO (2011) Assessing forest degradation: towards the development of globally applicable guidelines. Food and Agriculture Organization of the United Nations, Rome. http://www.fao.org/3/a-i2479e.pdf. Accessed 02 Feb 2019

  • FAO (2013) Global ecological zones, second edition [Data file]. http://www.fao.org/geonet-work/srv/en/main.home. Accessed 29 July 2019

  • FAO (2015a) Global forest resources assessment 2015. Food and Agriculture Organization of the United Nations, Rome. http://www.fao.org/3/a-i4808e.pdf. Accessed 29 Nov 2018

  • FAO (2015b) Criteria and indicators for sustainable forest management. Food and Agriculture Organization of the United Nations, Rome. http://www.fao.org/forestry/ci/en/. Accessed 07 Aug 2019

  • FAO (2018) The state of the World’s forests 2018. Food and Agriculture Organization of the United Nations, Rome. https://www.fao.org/3/I9535EN/i9535en.pdf. Accessed 05 July 2019

  • FAO (2019) The state of the World’s biodiversity for food and agriculture. https://doi.org/10.4060/ca3129en

  • Ghazoul J, Burivalova Z, Garcia-Ullia J, King LA (2015) Conceptualizing forest degradation. Trends Ecol Evol 30(1):622–632

    PubMed  Google Scholar 

  • Ghazoul J, Chazdon R (2017) Degradation and recovery in changing forest landscapes: a multiscale conceptual framework. Annu Rev Environ Resour 42:161–188

    Google Scholar 

  • Gibson L, Lee TM, Koh LP, Brook BW, Gardner TA, Barlow J, Sodhi NS (2011) Primary forests are irreplaceable for sustaining tropical biodiversity. Nature 478(7369):378–381

    CAS  PubMed  Google Scholar 

  • Gilmour DA, Van San N, Tsechalicha X (2000) Rehabilitation of degraded forest ecosystems in Cambodia, Lao PDR, Thailand and Vietnam. Conservation Issues in Asia. ICUN Asia, Bangkok

  • Gritten D, Lewis SR, Breukink G, Mo K, Thuy DTT, Delattre E (2019) Assessing forest governance in the countries of the Greater Mekong Subregion. Forests 10(1):47

    Google Scholar 

  • Guariguata MR (2019) Co-creating conceptual and working forest and landscape restoration frameworks based on core principles

  • ICUN (2010) Better forests, better lives. The Livelihoods and Landscape Strategy in Asia. ICUN, Gland, Switzerland

  • ICUN (2013) Poverty reduction in the Doi Mae Salong Landscape. https://www.iucn.org/asia/thailand/countries/thailand/poverty-reduction-doi-mae-salong-landscape. Accessed 28 June 2019

  • Imai N, Furukawa T, Tsujino R, Kitamura S, Yumoto T (2018) Factors affecting forest area change in Southeast Asia during 1980–2010. PLoS ONE 13(6):1–14

    Google Scholar 

  • ITTO (2002) ITTO guidelines for the restoration, management and rehabilitation of degraded and secondary tropical Forests. ITTO Policy Development Series 13. International Tropical Timber Organization, Yokohama, Japan

  • ITTO (2011) Status of tropical forest management 2011. International Tropical Timber Organization, Yokohama

    Google Scholar 

  • ITTO (2016) Criteria and Indicators for the sustainable management of tropical forests. ITTO Policy Development Series No. 21. International Tropical Timber Organization, Yokohama, Japan

  • Kissinger G, Herold M, De Sy V (2012) Drivers of deforestation and forest degradation: a synthesis report for REDD+ policymakers. Lexeme Consulting, Vancouver

    Google Scholar 

  • Kugel C, Rattanasorn T (2010) From poppies to plant diversity: a visitor’s guide to the hill tribe communities of Doi Mae Salong, Chiang Rai Province, Northern Thailand. ICUN Thailand Programme, Bangkok, Thailand

  • Laestadius L, Buckingham K, Maginnis S, Saint-Laurent C (2015) Before Bonn and beyond: the history and future of forest landscape restoration. Unasylva 66(245):11

    Google Scholar 

  • Lamb D, Gilmour D (2003) Rehabilitation and Restoration of Degraded Forests. Restor Ecol 13(3):578–579

    Google Scholar 

  • Lambin EF, Meyfroidt P (2010) Land use transitions: Socio-ecological feedback versus socio-economic change. Land Use Policy 27(2):108–118

    Google Scholar 

  • Langston JD, Riggs RA, Sayer JA, Margules C, Boedhihartono AK (2019) Science embedded in local forest landscape management improves benefit flows to society. Front For Glob Change 19:2

    Google Scholar 

  • Laurance WF, Wang G, Innes JL, Wu SW, Dai S, Lei J (2008) The need to cut China's illegal timber imports. Science 319:1184–1186

    CAS  PubMed  Google Scholar 

  • Lestrelin G (2010) Land degradation in the Lao PDR: discourses and policy. Land Use Policy 27(2):424–439

    Google Scholar 

  • Lewis SL, Wheeler CE, Mitchard ET, Koch A (2019) Restoring natural forests is the best way to remove atmospheric carbon. Nature

  • Li J, Merten J, Burke G, Mumford EC (2018) Application of restoration opportunities assessment methodology (ROAM) in Asia. Summary of findings from the first Asia regional ROAM learning exchange, Bangkok, Thailand

  • Liu J (2014) Forest Sustainability in China and Implications for a Telecoupled World. Asia Pac Policy Stud 1(1):230–250

    Google Scholar 

  • Liu J, Liang M, Li L, Long H, De Jong W (2017) Comparative study of the forest transition pathways of nine Asia-Pacific countries. Forest Policy Econ 76:25–34

    Google Scholar 

  • Liu Y, Stanturf J, Goodrick S (2010) Trends in global wildfire potential in a changing climate. For Ecol Manag 259(4):685–697

    Google Scholar 

  • Lovelock C, Kyaw NN (2017) Integrated planning and practices for mangrove management associated with agriculture and aquaculture in Myanmar. APFNet Project Document. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China

  • Lund H (2009) What is a degraded forest. Gainesville, VA, USA. http://home.comcast.net/~gyde/2009forestdegrade.doc. Accessed 20 Jan 19

  • Maginnis S, Laestadius L, Verdone M, DeWitt S, Saint-Laurent C, Rietbergen-McCracken J, Shaw DMP (2014) A guide to the restoration opportunities assessment methodology (ROAM): assessing forest landscape restoration opportunities at the national or sub-national level (Road-test edition). www.iucn.org/publications. Accessed 15 Feb 2019

  • Maginnis S, Rietbergen-McCracken J, Sarre A (2012) The forest landscape restoration handbook. Routledge, London

    Google Scholar 

  • Maningo EV (2014) Technical Notes on Forest Restoration in Community Forests. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing, China

    Google Scholar 

  • Mansourian S (2017) Governance and forest landscape restoration: A framework to support decision-making. Journal for Nature Conservation 37:21–30

    Google Scholar 

  • Mansourian S, Parrotta J (2018) Forest Landscape Restoration: Integrated Approaches to Support Effective Implementation. Routledge, London, UK

    Google Scholar 

  • Mather, A. S. (1992) The forest transition. Area, 367–379.

  • Meyfroidt P, Lambin EF (2009) Forest transition in Vietnam and displacement of deforestation abroad. Proc Natl Acad Sci 106(38):16139–16144

    CAS  PubMed  Google Scholar 

  • Miettinen J, Stibig HJ, Achard F (2014) Remote sensing of forest degradation in Southeast Asia-Aiming for a regional view through 5–30 m satellite data. Global Ecology and Conservation 2:24–36

    Google Scholar 

  • Moeliono M, Pham TT, Bong IW, Wong GY, Brockhaus M (2017) Social Forestry - why and for whom? A comparison of policies in Vietnam and Indonesia. Forest Soc 1(2):78–97

    Google Scholar 

  • Morales-Barquero L, Skutsch M, Jardel-Peláez E, Ghilardi A, Kleinn C, Healey J (2014) Operationalizing the definition of forest degradation for REDD+, with application to Mexico. Forests 5(7):1653–1681

    Google Scholar 

  • NASA Earth Observatory (2007) Causes of Deforestation: Direct Causes. https://earthobservatory.nasa.gov/features/Deforestation/deforestation.php. Accessed 05 July 2019

  • NYDF Assessment Partners (2019) Protecting and restoring forests: a story of large commitments yet limited progress. New York Declaration on Forests Five-Year Assessment Report, Climate Focus

    Google Scholar 

  • Open Development Mekong (2016) The Mekong. https://opendevelopmentmekong.net/layers/the-mekong/. Accessed 01 Sep 2019

  • Pak P, Heng S (2017) APFNet supporting sustainable forest management and forest rehabilitation in Cambodia. Asia Pacific Network for Sustainable Forest Management and Rehabilitation, Beijing

    Google Scholar 

  • Putz FE, Redford KH (2010) The importance of defining ‘forest’: tropical forest degradation, deforestation, long-term phase shifts, and further transitions. Biotropica 42(1):10–20

    Google Scholar 

  • Putz FE, Romero C (2015) Futures of tropical production forests (Vol. 143). CIFOR Occasional Paper 143. Center for International Forestry Research, Bogor, Indonesia

  • Reddy C, Pasha S, Satish KV, Al E (2019) Quantifying and predicting multi-decadal forest cover changes in Myanmar: a biodiversity hotspot under threat. Biodivers Conserv 28(5):1129–1149

    Google Scholar 

  • Reed J, Van Vianen J, Deakin EL, Barlow J, Sunderland T (2016) Integrated landscape approaches to managing social and environmental issues in the tropics: learning from the past to guide the future. Glob Change Biol 22(7):2540–2554

    Google Scholar 

  • Rietbergen-McCracken J (2007) High conservation value forests: the concept in theory and practice. Forests for Life Program, WWF International

  • Riggs RA, Langston JD, Sayer J (2018) Incorporating governance into forest transition frameworks to understand and influence Cambodia’s forest landscapes. For Policy Econ 96:19–27

    Google Scholar 

  • Rizzeti D, Swaans K, Holden J, Brunner J, Le TTT, Nguyen DT (2018) Assessing opportunities for forest landscape restoration in Quang Tri, Vietnam. ICUN, Ha Noi, Viet Nam

  • Rudel TK, Coomes OT, Moran E, Achard F, Angelsen A, Xu J, Lambin E (2005) Forest transitions: towards a global understanding of land use change. Glob Environ Change 15(1):23–31

    Google Scholar 

  • Sabogal C, Besacier C, McGuire D (2015) Forest and landscape restoration: concepts, approaches and challenges for implementation. Unasylva 66(245):3

    Google Scholar 

  • Sari DA, Margules C, Boedhihartono AK, Sayer J (2018) Criteria and indicators to audit the performance of complex, multi-functional forest landscapes. In Routledge Handbook of Sustainability Indicators (407–426). https://doi.org/10.4324/9781315561103-27

  • Sari DA, Sayer J, Margules C, Boedhihartono AK (2019) Determining the effectiveness of forest landscape governance: a case study from the Sendang landscape, South Sumatra. For Policy Econ 102:17–28. https://doi.org/10.1016/j.forpol.2019.01.014

    Article  Google Scholar 

  • Sawada H, Araki M, Chappell NA, LaFrankie JV, Shimizu A (2007) Forest environments in the Mekong River basin. Springer, New York

    Google Scholar 

  • Sayer J, Margules C, Boedhihartono AK, Sunderland T, Langston JD, Reed J, Riggs RA, Buck LE, Campbell B, Kusters K, Elliot C, Minang P, Dale A, Purnomo H, Stevenson JR, Gunarso P, Purnomo A (2016) Measuring the effectiveness of landscape approaches to conservation and development. Sustain Sci 12:465–476

    Google Scholar 

  • Sayer J, Sheil D, Galloway G, Riggs RA, Mewett G, MacDicken KG, Arts B, Boedhihartono AK, Edwards DP, Langston JD. 2019. Life on land: the Central Role of Forests in sustainable development. In: Sustainable development goals: their impacts on forests and people. Cambridge University Press, Cambridge

  • Simula M (2009) Towards defining forest degradation: comparative analysis of existing definitions. Forest Resources Assessment Working Paper No. 154. Food and Agriculture Organization of the United Nations, Rome

  • Sodhi NS, Posa MRC, Lee TM, Bickford D, Koh LP, Brook BW (2010) The state and conservation of Southeast Asian biodiversity. Biodivers Conserv 19(2):317–328

    Google Scholar 

  • Stiglitz JE, Sen A, Fitoussi JP (2010) Mismeasuring our lives: why the GDP doesn’t add up. New Press, New York

    Google Scholar 

  • Tanaka N, Kume T, Yoshifuji N, Tanaka K, Takizawa H, Shiraki K, Suzuki M (2008) A review of evapotranspiration estimates from tropical forests in Thailand and adjacent regions. Agric For Meteorol 148(5):807–819

    Google Scholar 

  • Thompson ID, Guariguata MR, Okabe K, Bahamondez C, Nasi R, Heymell V, Sabogal C (2013) An operational framework for defining and monitoring forest. Ecol Soc 18(2):20

    Google Scholar 

  • Wang W, Lu H, Leung RL, Li HY, Zhao J, Tian F, Yang K, Sothea K (2017) Dam construction in Lancang-Mekong River Basin could mitigate future flood risk from warming-induced intensified rainfall. Geophys Res Lett 44(20):378–386

    Google Scholar 

  • Wenhua L (2004) Degradation and restoration of forest ecosystems in China. For Ecol Manag 201(1):33–41

    Google Scholar 

  • Wong CM, Williams CE, Pittock J, Collier U, Schelle P (2007) World’s top 10 rivers at risk. WWF International, Gland

    Google Scholar 

  • Wunder S, Noack F, Angelsen A (2018) Climate, crops and forests: a pan-tropical analysis of household income generation. Environ Dev Econ 23:279–297

    Google Scholar 

  • WWF (2014) WWF-Greater Mekong New species discoveries 2012–2013. WWF International, Gland

    Google Scholar 

  • Yin R, Yin G (2010) China’s primary programs of terrestrial ecosystem restoration: initiation, implementation, and challenges. Environ Manag 45(3):429–441

    Google Scholar 

Download references

Acknowledgements

This study was supported by the Asia Pacific Network for Sustainable Forest Management and Rehabilitation (APFNet) project entitled: “Development of Criteria for Rehabilitating Degraded Tropical Forests in the Lancang-Mekong Region”. The criteria and indicator framework were partially developed through a workshop hosted at the Vietnam National University of Forestry (VNUF). The research team would like to thank Hoàng Văn Sâm from VNUF for making this workshop possible as well as all participants of workshop for their meaningful contributions. The research team would also like to specially acknowledge Li Jia for her valuable contributions to this review. We are also grateful for the helpful review provided by Robin Chazdon.

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Project funding: This study was supported by the Asia Pacific Network for Sustainable Forest Management and Rehabilitation (APFNet) project entitled: “Development of Criteria for Rehabilitating Degraded Tropical Forests in the Lancang-Mekong Region”.

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Corresponding editor: Yu Lei.

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Brewer, J., Langston, J.D., Ferretti-Gallon, K. et al. Alleviating forest degradation in the Lancang-Mekong Region requires closing management—measurement gaps. J. For. Res. 31, 2033–2051 (2020). https://doi.org/10.1007/s11676-020-01111-z

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