9 research outputs found
Carbon storage, structure and composition of miombo woodlands in Tanzania’s Eastern Arc Mountains
African Journal of Ecology, 2011; 49: 332–342We determine the aboveground biomass and carbon stor-
age (ABGC) of trees and the herbaceous layer in miombo
woodland in the Eastern Arc Mountains (EAM) of Tanza-
nia. In four 1-ha sample plots in Nyanganje and Kitonga
Forests, we measured all trees ‡10 cm diameter alongside
height and wood mass density. The plots contained an
average of 20 tree species ha )1 (range 11–29) and
344 stems ha )1 (range 281–382) with Shannon diversity
values of 1.05 and 1.25, respectively. We weighted nine
previously published woody savannah allometric models
based on whether: (i) the model was derived from the same
geographical region; (ii) the model included tree height ⁄ -
wood mass density in addition to stem diameter; and (iii)
sample size was used to fit the model. The weighted mean
ABGC storage from the nine models range from 13.5 ± 2
to 29.8 ± 5 Mg ha )1 . Measured ABGC storage in the
herbaceous layer, using the wet combustion method, adds
0.55 ± 0.02 Mg C ha )1 . Estimates suggest that EAM
miombo woodlands store a range of 13–30 Mg ha )1 of
carbon. Although the estimates suggest that miombo
woodlands store significant quantities of carbon, caution is
required as this is the first estimate based on in situ data
Carbon storage, structure and composition of miombo woodlands in Tanzania’s Eastern Arc Mountains
African Journal of Ecology, 2011; 49: 332–342We determine the aboveground biomass and carbon stor-
age (ABGC) of trees and the herbaceous layer in miombo
woodland in the Eastern Arc Mountains (EAM) of Tanza-
nia. In four 1-ha sample plots in Nyanganje and Kitonga
Forests, we measured all trees ‡10 cm diameter alongside
height and wood mass density. The plots contained an
average of 20 tree species ha )1 (range 11–29) and
344 stems ha )1 (range 281–382) with Shannon diversity
values of 1.05 and 1.25, respectively. We weighted nine
previously published woody savannah allometric models
based on whether: (i) the model was derived from the same
geographical region; (ii) the model included tree height ⁄ -
wood mass density in addition to stem diameter; and (iii)
sample size was used to fit the model. The weighted mean
ABGC storage from the nine models range from 13.5 ± 2
to 29.8 ± 5 Mg ha )1 . Measured ABGC storage in the
herbaceous layer, using the wet combustion method, adds
0.55 ± 0.02 Mg C ha )1 . Estimates suggest that EAM
miombo woodlands store a range of 13–30 Mg ha )1 of
carbon. Although the estimates suggest that miombo
woodlands store significant quantities of carbon, caution is
required as this is the first estimate based on in situ data
At the heart of REDD+: a role for the local people in monitoring forests?
Abstract Reduced Emissions from Deforestation and Forest Degradation in Developing Countries (REDD+) is a policy mechanism now agreed under the United Nations Framework Convention on Climate Change (UNFCCC). It aims to reduce carbon dioxide emissions from developing countries through the sustainable management of forests, while providing co-benefits of biodiversity conservation and livelihood support. Implementation challenges include linking remote sensing and national forest inventories of carbon stocks, to local implementation and measuring carbon loss from forest degradation. Community-based forest monitoring can help overcome some of these challenges. We show that local people can collect forest condition data of comparable quality to trained scientists, at half the cost. We draw on our experience to propose how and where local REDD+ monitoring can be established. Empowering communities to own and monitor carbon stocks could provide a rapid and cost-effective way of absorbing carbon dioxide emissions, while potentially contributing to local livelihoods and forest biodiversity conservation