John Kalume scite author profile

The recently created Lomami National Park has an extensive Buffer Zone where local communities are allowed to use forest products sustainably. However, the management of this Buffer Zone is hampered by inadequate understanding of the floristic composition and the impacts of harvesting certain plant products. To fill in this data gap, we established and sampled 30 vegetation plots of 40 × 40 m, and investigated the population structure of 11 useful tree species preferred by local communities.We found that the Buffer Zone is mostly composed of mixed-species undisturbed old growth forest. It contains nine tree species of international conservation concern (listed in the IUCN Red list and/or apart from the Red list, Gibourtia demeusei, not been assessed by IUCN Red list, is listed in CITES Appendix II since January 2017; UNEP-WCMC, Review of selected Dalbergia species and Guibourtia demeusei, UNEP-WCMC, 2017). The floristic diversity of the Buffer Zone, which requires further investigation as some species remained unidentified. Most preferred tree species (including Garcinia kola and Milicia excelsa) are abundant and showed a reverse-J size distribution, indicating a relatively stable population structure. For these species, current levels of exploitation seem sustainable. Further research is needed for two nonabundant species of conservation concern (Autranella congolensis and Michelsonia microphylla).Although timber/firewood commercial harvesting is currently limited in the study area, the management plan of the Buffer Zone should consider these risks given increasing commercial hunting. Surveys and permanent plots provide essential information to guide the management of newly formed protected areas.

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From Tree Species to Forest Services: Ethnic Differences in Lomami, Democratic Republic of the Congo

Batumike¹,

Imani

Bisimwa

et al. 2021

Econ Bot

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Tree diversity and carbon stocks in the Itombwe Mountains of eastern DR Congo

et al. 2021

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Our ecological understanding of tropical montane forests in Africa is still limited, particularly in the Albertine Rift. Because of a greater role of environmental filtering at higher elevations, tree species' richness and aboveground biomass (AGB) is expected to decrease with increasing elevation. However, broader scale patterns are complex and different patterns have also been observed in different mountains. We established eight permanent 1-ha plots in Itombwe Mountains and sampled all trees ≥10 cm diameter following standard RAINFOR protocols to investigate tree species' richness, forest structure, and estimated AGB. We also collected and analyzed soil samples to establish how these affected AGB. We identified over 120 tree species, 12 of which were of international conservation concern according to IUCN criteria. Species richness was significantly negatively correlated with elevation. AGB ranged from 268 Mg/ha (submontane) to 396 Mg/ha (middle montane forests), and it was significantly positively correlated with elevation, soil organic matter, and soil organic C and N. We compare Itombwe with other montane forests in the Albertine Rift, to demonstrate their high floristic diversity, high abundance of large stems, and high AGB, insights which are crucial for the future management of these unique forests.

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Soil Organic Carbon Along an Elevational Gradient in the Eastern Region of the Democratic Republic of the Congo

Imani¹,

Mukotanyi²,

Nabahungu³

et al. 2022

SSRN Journal

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John Kalume

Lomami Buffer Zone (DRC): Forest composition, structure, and the sustainability of its use by local communities

From Tree Species to Forest Services: Ethnic Differences in Lomami, Democratic Republic of the Congo

Tree diversity and carbon stocks in the Itombwe Mountains of eastern DR Congo

Soil Organic Carbon Along an Elevational Gradient in the Eastern Region of the Democratic Republic of the Congo

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