Ilstedt, Ulrik
- Department of Forest Ecology and Management, Swedish University of Agricultural Sciences
Research article2024Peer reviewedOpen access
Maguzu, Joshua; Ilstedt, Ulrik; Katani, Josiah Zephaniah; Maliondo, Salim S. M.
The productivity of forests in sub-Saharan Africa is often summarized into large compartments or site classes. However, the classification of forest productivity levels based on the original site index model in Tanzania and the techniques applied to generate the model did not include the micro-toposequence variations within compartments. This may create false expectations of wood supply and hinder the estimation of sustainable harvesting processes. This study analyzed variations in forest productivity and the site index in P. patula stands in two forest plantations of Tanzania to assess the applicability and generality of the present site classification system. We used dominant height as a proxy for forest productivity in 48 plots at the Sao Hill forest plantation (SHFP) and 24 plots at the Shume forest plantation (SFP). We stratified the sampling plots in each site class along the soil catena and recorded the elevation, slope, and slope positions (summit, mid, and lower). Our results showed that the site classes did not generally match the previously assigned site classes and the productivity of a given site class varied between the two plantations. We found a consistently higher productivity than that implied by the original site index in SFP, while in SHFP, the productivity was both higher and lower than estimated in different compartments. Both elevations and slope significantly contributed to predicting the productivity variations within site classes. Overall, the results indicate that physiographic factors affect variations in forest productivity within the assigned site classes. We recommend a more comprehensive site productivity assessment that takes into account physiographic variations and hence provides more accurate information for sustainable forest plantation management in Tanzania and in the region at large.
forest productivity; Pinus patula; mean annual increment; physiographic factors; site classes
Forests
2024, Volume: 15, number: 7, article number: 1247Publisher: MDPI
Forest Science
DOI: https://doi.org/10.3390/f15071247
https://res.slu.se/id/publ/131635