Abstract
Peatland pole forest is the most carbon-dense ecosystem in Amazonia, but its spatial distribution and species composition are poorly known. To address this knowledge gap, we quantified variation in the floristic composition, peat thickness, and the amount of carbon stored above and below ground of 102 forest plots and 53 transects in northern Peruvian Amazonia. This large dataset includes 571 ground reference points of peat thickness measurements across six ecosystem types. These field data were also used to generate a new land-cover classification based on multiple satellite products using a random forest classification. Peatland pole forests are floristically distinctive and dominated by thin-stemmed woody species such as Pachira nitida (Malvaceae), Platycarpum loretense (Rubiaceae), and Hevea guianensis (Euphorbiaceae). In contrast, palm swamps and open peatlands are dominated by Mauritia flexuosa (Arecaceae). Peatland pole forests have high peat thickness (274 ± 22 cm, mean ± 95% CI, n = 184) similar to open peatlands (282 ± 46 cm, n = 46), but greater than palm swamps (161 ± 17 cm, n = 220) and seasonally-flooded forest, terra firme, and white-sand forest where peat is rare or absent. As a result, peatland pole forest has exceptional carbon density (1,133 ± 93 Mg C ha−1). The new sites expand the known distribution of peatland pole forest by 61% within the Pastaza-Marañón Foreland basin, mainly alongside the Tigre river, to cover a total of 7540 km2 in northern Peruvian Amazonia. However, only 15% of the pole forest area is within a protected area, whilst an additional 26% lies within indigenous territories. The current low levels of protection and forest degradation but high threat from road paving projects makes the Tigre river basin a priority for conservation. The long-term conservation of peatland pole forests has the potential to make a large contribution towards international commitments to mitigate climate change.
Highlights
Peatland pole forest is found on nutrient-poor, ombrotrophic peat domes in Amazonia where it hosts the thickest and oldest known deposits of peat, reaching up to 7.45 m thick and 8900 years old at Aucayacu in the Pastaza-Marañón Foreland basin (PMFB) in the northern Peruvian Amazonia [1]
The landcover classification produces an overall model accuracy of 96% and a kappa coefficient of 0.95 when tested against an independent dataset
We estimated that 24% of the area of the six ecosystem types is contained in protected areas managed by SERNANP, and an additional 16% is in titled land owned by indigenous communities
Summary
Peatland pole forest is found on nutrient-poor, ombrotrophic peat domes in Amazonia where it hosts the thickest and oldest known deposits of peat, reaching up to 7.45 m thick and 8900 years old at Aucayacu in the Pastaza-Marañón Foreland basin (PMFB) in the northern Peruvian Amazonia [1]. These thick peat deposits make peatland pole forest the most carbon-dense ecosystem in Amazonia. This lack of field sampling generates uncertainty in estimates of the density of carbon stored below ground, the identity of the dominant species and, even more importantly, the geographical extent of the thickest peatlands within the Amazon basin
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