The potential for REDD+ to reduce forest degradation in Vietnam

Ngo, Duc Tung; Le, An N.; Le, Hung M.; Stas, Suzanne M.; Le, Tinh Cong; Tran, Hieu Dang; Pham, T.T.; Le, Trai Trong; Spracklen, Benedict D.; Langan, Charlie; Cuthbert, Richard; Buermann, Wolfgang; Phillips, Oliver L.; Jew, Eleanor K.K.; Spracklen, Dominick V.

doi:10.1088/1748-9326/ab905a

Cited by 8 publications

(10 citation statements)

References 63 publications

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“…We found no significant differences in AGC fluxes with historical logging intensity (table 1). Ongoing (illegal) logging occurs across our study area [6], but our forest plots experienced little logging during the census interval (only 2% of mortality in forest plots was due to logging). For all plots combined, diameter growth rates averaged 0.3 cm yr −1 , recruitment rates averaged 1.5% yr −1 and mortality rates averaged 2.3% yr −1 , and all rates did not differ with historical logging intensity.…”

Section: Resultsmentioning

confidence: 99%

“…Selective logging as part of government-licensed operations has occured across much of the natural forests in the study area [6,56]. Since 2014, most commercial logging in Vietnam is prohibited [63] although informal and unplanned logging without government permission that is therefore considered to be illegal, still persists [6,64]. Plantations have been developed on non-forest land or through replacing natural forests [64] and largely consist of rubber and acacia, which is operated on 3–7 year rotations [61].…”

Section: Methodsmentioning

confidence: 99%

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Implications of tropical cyclones on damage and potential recovery and restoration of logged forests in Vietnam

Stas

Spracklen

Willetts

et al. 2022

Phil. Trans. R. Soc. B

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Many natural forests in Southeast Asia are degraded following decades of logging. Restoration of these forests is delayed by ongoing logging and tropical cyclones, but the implications for recovery are largely uncertain. We analysed meteorological, satellite and forest inventory plot data to assess the effect of Typhoon Doksuri, a major tropical cyclone, on the forest landscapes of central Vietnam consisting of natural forests and plantations. We estimated the return period for a cyclone of this intensity to be 40 years. Plantations were almost twice as likely to suffer cyclone damage compared to natural forests. Logged natural forests (9–12 years after cessation of government-licensed logging) were surveyed before and after the storm with 2 years between measurements and remained a small biomass carbon sink (0.1 ± 0.3 Mg C ha −1 yr −1 ) over this period. The cyclone reduced the carbon sink of recovering natural forests by an average of 0.85 Mg C ha −1 yr −1 , less than the carbon loss due to ongoing unlicensed logging. Restoration of forest landscapes in Southeast Asia requires a reduction in unlicensed logging and prevention of further conversion of degraded natural forests to plantations, particularly in landscapes prone to tropical cyclones where natural forests provide a resilient carbon sink. This article is part of the theme issue ‘Understanding forest landscape restoration: reinforcing scientific foundations for the UN Decade on Ecosystem Restoration’.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Implications of tropical cyclones on damage and potential recovery and restoration of logged forests in Vietnam

Stas

Spracklen

Willetts

et al. 2022

Phil. Trans. R. Soc. B

Self Cite

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“…The Vietnamese government is encouraging plantation managers to increase the rotation length of plantations to increase the supply of higher quality timber for construction and furniture industries [69]. An improved supply of large diameter timber from forest plantations may also reduce illegal logging and degradation of natural forests [8,70]. Perceived risk from diseases, pests and storm damage are a barrier preventing land managers increasing rotation length and previous attempts to increase rotation length have had limited success [71].…”

Section: Plantation Age Classificationmentioning

confidence: 99%

“…Assessments [3] of forest cover often make no distinction between natural forest and planted forest, so that countries can report increased forest area despite the ongoing loss of natural forest and conversion of natural forest to plantation. Natural forests and plantation forests differ in their ability to store and sequester carbon [4], and to support biodiversity [5][6][7], and local livelihoods [8]. An ability to distinguish plantation and natural forests using remote sensing would be of great value by allowing the accurate monitoring of natural forest loss and plantation expansion.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Use of Sentinel-1 and Sentinel-2 to Map Natural Forest and Acacia Plantation and Stand Ages in North-Central Vietnam

Spracklen

2021

Remote Sensing

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Many remote sensing studies do not distinguish between natural and planted forests. We combine C-Band Synthetic Aperture Radar (Sentinel-1, S-1) and optical satellite imagery (Sentinel-2, S-2) and examine Random Forest (RF) classification of acacia plantations and natural forest in North-Central Vietnam. We demonstrate an ability to distinguish plantation from natural forest, with overall classification accuracies of 87% for S-1, and 92.5% and 92.3% for S-2 and for S-1 and S-2 combined respectively. We found that the ratio of the Short-Wave Infrared Band to the Red Band proved most effective in distinguishing acacia from natural forest. We used RF on S-2 imagery to classify acacia plantations into 6 age classes with an overall accuracy of 70%, with young plantation consistently separated from older. However, accuracy was lower at distinguishing between the older age classes. For both distinguishing plantation and natural forest, and determining plantation age, a combination of radar and optical imagery did nothing to improve classification accuracy.

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“…Vietnam is a biodiversity-rich nation situated in the Indo-Burma biodiversity hotspot of Southeast Asia (Dinerstein et al 2017;Myers et al 2000). Unfortunately, many of Vietnam's most precious species are directly threatened by unsustainable wildlife farm management, illegal harvesting and international trade (Brooks-Moizer et al 2009;Janssen and Indenbaum 2019;Challender et al 2020), deforestation and forest degradation due to agriculture expansion, urbanisation, infrastructure development, population growth and weak forest governance (Tuyet 2001;Nguyen 2017;Van Khuc et al 2018;Ngo et al 2020). The country is also a global hub for wildlife trafficking (Nguyen 2003;Grieser-Johns and Thomson 2005;Zhang et al 2008;Li et al 2010;Nguyen et al 2019;De Sadeleer and Godfroid 2020).…”

Section: Introductionmentioning

confidence: 99%

Enhancing the legal framework towards holistic and sustainable wildlife conservation in Vietnam

Pham¹,

Pham²,

Trinh³

et al. 2021

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Biodiversity and wildlife in Vietnam are under increasing pressure from deforestation and illegal wildlife trading. •A large number of wildlife conservation policies and projects are already in place. However, their effectiveness is hampered by unclear and inconsistent policies; weak law enforcement, monitoring and evaluation; insufficient funding; challenges in achieving the dual goal of conservation and development; environmental and social justice issues; and problems addressing the drivers of deforestation and degradation. •Despite the persistence of these challenges, Vietnam has new opportunities to address them by moving away from sectoral silos and promoting One Health and landscape approaches; promoting cross-sectoral and cross-border collaboration in addressing the illegal wildlife trade; adopting timely responses to newly emerging issues such as Covid-19 with mixed policy instruments; embedding wildlife conservation policies in green living and consumption behaviour; and tapping into international, regional and national financial initiatives to close finance gaps. •Sustainable wildlife conservation in Vietnam requires strengthened transboundary and inter-sectoral stakeholder engagement; a holistic and cross-sectoral approach to addressing underlying drivers of deforestation and degradation; sufficient and sustainable funding; and changing consumers' behaviour in buying and using wildlife products.

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The potential for REDD+ to reduce forest degradation in Vietnam

Cited by 8 publications

References 63 publications

Implications of tropical cyclones on damage and potential recovery and restoration of logged forests in Vietnam

Implications of tropical cyclones on damage and potential recovery and restoration of logged forests in Vietnam

Synergistic Use of Sentinel-1 and Sentinel-2 to Map Natural Forest and Acacia Plantation and Stand Ages in North-Central Vietnam

Enhancing the legal framework towards holistic and sustainable wildlife conservation in Vietnam

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