Estimating the multi-decadal carbon deficit of burned Amazonian forests

Silva, Camila V. J.; Aragão, Luiz E. O. C.; Young, Paul; Espírito-Santo, Fernando Del Bon; Berenguer, Erika; Anderson, Liana O.; Silva, Izaias Brasil da; Pontes‐Lopes, Aline; Ferreira, Joice; Withey, Kieran Daniel; França, Filipe; Graça, Paulo Maurı́cio Lima de Alencastro; Kirsten, L Rodgers; Xaud, Harón Abrahim Magalháes; Salimon, Cleber Ibraim; Scaranello, M. A.; Castro, Bruno; Seixas, Marina Maria Moraes de; Farias, Renato; Barlow, Jos

doi:10.1088/1748-9326/abb62c

Cited by 39 publications

(37 citation statements)

References 65 publications

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“…Continued monitoring of these plots in regular intervals (annual or biannual) is important to improve our understanding of the related carbon fluxes (emissions and uptake) [ 58 ], the recovery time to pre-fire states [ 20 ] and/or eventual disruption of carbon dynamics by tree mortality (e.g. caused by additional drought and fire events) [ 59 ].…”

Section: Discussionmentioning

confidence: 99%

Drought-driven wildfire impacts on structure and dynamics in a wet Central Amazonian forest

et al. 2021

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While the climate and human-induced forest degradation is increasing in the Amazon, fire impacts on forest dynamics remain understudied in the wetter regions of the basin, which are susceptible to large wildfires only during extreme droughts. To address this gap, we installed burned and unburned plots immediately after a wildfire in the northern Purus-Madeira (Central Amazon) during the 2015 El-Niño. We measured all individuals with diameter of 10 cm or more at breast height and conducted recensuses to track the demographic drivers of biomass change over 3 years. We also assessed how stem-level growth and mortality were influenced by fire intensity (proxied by char height) and tree morphological traits (size and wood density). Overall, the burned forest lost 27.3% of stem density and 12.8% of biomass, concentrated in small and medium trees. Mortality drove these losses in the first 2 years and recruitment decreased in the third year. The fire increased growth in lower wood density and larger sized trees, while char height had transitory strong effects increasing tree mortality. Our findings suggest that fire impacts are weaker in the wetter Amazon. Here, trees of greater sizes and higher wood densities may confer a margin of fire resistance; however, this may not extend to higher intensity fires arising from climate change.

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Section: Discussionmentioning

confidence: 99%

Drought-driven wildfire impacts on structure and dynamics in a wet Central Amazonian forest

et al. 2021

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“…Growing forests are subject to numerous threats. The frequency of wildfire has increased in rainforests over the past decades 55 . While it is agreed that wildfires have a major negative impact on forest carbon stocks 56 , accounting for all potential effects of the fire on the regrowth of a forest plot is difficult 55 .…”

Section: Discussionmentioning

confidence: 99%

“…The frequency of wildfire has increased in rainforests over the past decades 55 . While it is agreed that wildfires have a major negative impact on forest carbon stocks 56 , accounting for all potential effects of the fire on the regrowth of a forest plot is difficult 55 . Although wildfires happen predominantly on old growth forest, with more dead material in old growth forests compared to secondary forests 57 , tree mortality has increased in young secondary forests, particularly in the western and southern Amazon 58 .…”

Section: Discussionmentioning

confidence: 99%

Assessing the carbon capture potential of a reforestation project

Lefebvre

Williams

Kirk

et al. 2021

Sci Rep

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The number of reforestation projects worldwide is increasing. In many cases funding is obtained through the claimed carbon capture of the trees, presented as immediate and durable, whereas reforested plots need time and maintenance to realise their carbon capture potential. Further, claims usually overlook the environmental costs of natural or anthropogenic disturbances during the forest’s lifetime, and greenhouse gas (GHG) emissions associated with the reforestation are not allowed for. This study uses life cycle assessment to quantify the carbon footprint of setting up a reforestation plot in the Peruvian Amazon. In parallel, we combine a soil carbon model with an above- and below-ground plant carbon model to predict the increase in carbon stocks after planting. We compare our results with the carbon capture claims made by a reforestation platform. Our results show major errors in carbon accounting in reforestation projects if they (1) ignore the time needed for trees to reach their carbon capture potential; (2) ignore the GHG emissions involved in setting up a plot; (3) report the carbon capture potential per tree planted, thereby ignoring limitations at the forest ecosystem level; or (4) under-estimate tree losses due to inevitable human and climatic disturbances. Further, we show that applications of biochar during reforestation can partially compensate for project emissions.

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“…Measuring and monitoring forest degradation/disturbance present some unique challenges: many processes happen below the forest canopy (Matricardi et al, 2020) and their emissions can be lagged, occurring years or even decades after the initial disturbance. Recent advances in mapping, monitoring, and attribution of forest fires, the largest source of degradation and disturbance, may help address these challenges (Curtis et al, 2018;de Azevedo et al, 2018;Andela et al, 2019;MapBiomas, 2020;Silva et al, 2020). Using new spatial datasets to track degradation and emissions from forest fires could be a good starting point, complemented by ongoing efforts to map other types of forest degradation (e.g., selective logging, extreme droughts, mining) and land-use changes (e.g., MapBiomas, 2020) over time.…”

Section: Monitor and Report On Emissions From Forest Degradation And Disturbancementioning

confidence: 99%

Beyond Deforestation: Carbon Emissions From Land Grabbing and Forest Degradation in the Brazilian Amazon

Kruid

Macedo

Gorelik

et al. 2021

Front. For. Glob. Change

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Carbon losses from forest degradation and disturbances are significant and growing sources of emissions in the Brazilian Amazon. Between 2003 and 2019, degradation and disturbance accounted for 44% of forest carbon losses in the region, compared with 56% from deforestation (forest clearing). We found that land tenure played a decisive role in explaining these carbon losses, with Undesignated Public Forests and Other Lands (e.g., private properties) accounting for the majority (82%) of losses during the study period. Illegal deforestation and land grabbing in Undesignated Public Forests widespread and increasingly are important drivers of forest carbon emissions from the region. In contrast, indigenous Territories and Protected Natural Areas had the lowest emissions, demonstrating their effectiveness in preventing deforestation and maintaining carbon stocks. These trends underscore the urgent need to develop reliable systems for monitoring and reporting on carbon losses from forest degradation and disturbance. Together with improved governance, such actions will be crucial for Brazil to reduce pressure on standing forests; strengthen Indigenous land rights; and design effective climate mitigation strategies needed to achieve its national and international climate commitments.

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Estimating the multi-decadal carbon deficit of burned Amazonian forests

Cited by 39 publications

References 65 publications

Drought-driven wildfire impacts on structure and dynamics in a wet Central Amazonian forest

Drought-driven wildfire impacts on structure and dynamics in a wet Central Amazonian forest

Assessing the carbon capture potential of a reforestation project

Beyond Deforestation: Carbon Emissions From Land Grabbing and Forest Degradation in the Brazilian Amazon

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