Production and stock of coarse woody debris across a hydro-edaphic gradient of oligotrophic forests in the northern Brazilian Amazon

•Coarse woody debris (CWD) was measured in Amazonian oligotrophic forests.•CWD production and stock were partially related to aboveground tree biomass.•Lowest CWD production and stock were on soils with high hydro-edaphic restrictions.•Necromass/aboveground tree biomass ratios were among the lowest...

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Bibliographic Details
Published in:Forest ecology and management 2016-03, Vol.364, p.1-9
Main Authors: Silva, Luis Felipe Santos Gonçalves, de Castilho, Carolina Volkmer, de Oliveira Cavalcante, Claymir, Pimentel, Tania Pena, Fearnside, Philip M., Barbosa, Reinaldo Imbrozio
Format: Article
Language:English
Subjects:
Amazonia
Biomass
Brazil
Carbon
Dead biomass
Flooding
Forests
Hydro-edaphic determinants
Necromass
Oligotrophic forests
Raw materials
Trees
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Summary:•Coarse woody debris (CWD) was measured in Amazonian oligotrophic forests.•CWD production and stock were partially related to aboveground tree biomass.•Lowest CWD production and stock were on soils with high hydro-edaphic restrictions.•Necromass/aboveground tree biomass ratios were among the lowest in Amazonia. Most studies on coarse woody debris (CWD) in Brazilian Amazonia have been done in disturbed and undisturbed upland forests. However, oligotrophic forest types occupying seasonal flooding environments have been neglected, although they occupy about one-third of the Amazon region. We examined the effect of an environmental gradient with different hydro-edaphic features on production and stock of CWD in an area of the Rio Negro-Rio Branco basin, in Brazil’s state of Roraima. We used 60km of trails (production) and 30 permanent plots (stock) in a sampling grid established at Viruá National Park. Our study demonstrated that production and stock of CWD carbon are the lowest in all of Amazonia. The highest CWD carbon production was found in open-canopy submontane rainforest (0.58±0.63MgCha−1yr−1), which occur in environments that are free of any influence of seasonal flooding. The lowest stocks of CWD carbon (0.35±0.30MgCha−1) was associated with low tree biomass in forest types occurring on sandy soils that are strongly influenced by seasonal flooding. CWD stocks in oligotrophic forests at Viruá are partially explained (∼21%) by tree biomass, which is determined by different environmental conditions across hydro-edaphic gradients. Reference values (CWD carbon as a percentage of tree carbon) were among the lowest in Amazonia (0.91–4.38%), with lower values being associated with formations with low production and stock of CWD. This finding suggests that values vary among oligotrophic forest types and that separate reference values should be adopted for estimates of undisturbed forest carbon stocks in the different ecosystems in Brazilian Amazonia. Different reference values represent the variability of CWD among forest types and contribute to reducing uncertainties in current estimates of carbon stock in Amazonia.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2015.12.045