Abstract
We performed a biomass inventory using two-phase sampling to estimate biomass and carbon stocks for mecrusse woodlands and to quantify errors in the estimates. The first sampling phase involved measurement of auxiliary variables of living Androstachys johnsonii trees; in the second phase, we performed destructive biomass measurements on a randomly selected subset of trees from the first phase. The second-phase data were used to fit regression models to estimate below and aboveground biomass. These models were then applied to the first-phase data to estimate biomass stock. The estimated forest biomass and carbon stocks were 167.05 and 82.73 Mg·ha −1 , respectively. The percent error resulting from plot selection and allometric equations for whole tree biomass stock was 4.55% and 1.53%, respectively, yielding a total error of 4.80%. Among in- dividual variables in the first sampling phase, diameter at breast height (DBH) measurement was the largest source of error, and tree-height estimates contributed substantially to the error. Al- most none of the error was attributable to plot variability. For the second sampling phase, DBH measurements were the largest source of error, followed by height measurements and stem-wood density estimates. Of the total error (as total variance) of the sampling process, 90% was attrib- uted to plot selection and 10% to the allometric biomass model. The total error of our measure- ments was very low, which indicated that the two-phase sampling approach and sample size were effective for capturing and predicting biomass of this forest type.
Highlights
Mecrusse is a forest type dominated by Androstachys johnsonii Prain, which generally occupies between 80% and 100% of the canopy (Mantilla & Timane, 2005)
The 15 - 20 and 20 - 25 cm diameter classes represented >50% of the total forest biomass stock (Figure 3(a)); only ~30% of all trees were in these size classes (Figure 3(b))
We showed that the relatively higher error for stem bark and crown biomass stocks was largely a result of the error in the allometric equations, which were relatively poor models for estimating biomass
Summary
Mecrusse is a forest type dominated by Androstachys johnsonii Prain, which generally occupies between 80% and 100% of the canopy (Mantilla & Timane, 2005). A. johnsonii (family Euphorbiaceae) is native to Africa and Madagascar and is the sole member of genus Androstachys; today, mecrusse forest is primarily found in Mozambique (Cardoso, 1963). Besides being restricted to Mozambique (Cardoso, 1963), it has important socio-economic value to local communities, which use stakes of A. johnsonii in the construction of homes, shelters, and furniture. Mecrusse forest forms part of the woodland belt that stretches over large portions of southern Africa and is reported to be a tipping point in regional ecological and socio-economic development (Leadley et al, 2010). To date, no estimates of biomass or carbon stocks are available for these woodlands despite the relevance of this vegetation type in Mozambique
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