Brachystegia spiciformis
The ecology and management of the Miombo woodlands for sustainable livelihoods in southern Africa: the case for non-timber forest productsBACKGROUNDOpen access copy available |
INDIGENOUS KNOWLEDGE SYSTEMS AND THE CONSERVATION OF NATURAL RESOURCES IN THE SHANGWE COMMUNITY IN GOKWE DISTRICT, ZIMBABWEBACKGROUNDThe rapid decline in global biodiversity is being attributed to the erosion of traditional beliefs globally. In the Gokwe area of Zimbabwe, the Shangwe people are known for their wise use of IKS in the preservation of their environment. They are also known for their cultural beliefs and taboos which can be recognized in songs and dance as they give veneration to their Nevana rain spirit. Open access copy available |
Forest and wildlife resource-conservation efforts based on indigenous knowledge: The case of Nharira community in Chikomba district, ZimbabweBACKGROUNDIndigenous Knowledge (IK) plays a significant role in the sustainable management of forest and wildlife resources. In Zimbabwe, most forests and woodlands within communal areas are being successfully managed under the authorities of traditional leaders who base their conservation strategies on their local knowledge as compared with conventional methods such as fencing which bring conflict with the local people. Open access copy available |
Evaluation of Natural Regeneration and Tree species diversity in Miombo woodlands in MalawibackgroundThis study seeks to determine the best management practices for the miombo woodland in Chongoni Forest Reserve, Malawi. Research Goals & MethodsThe authors used plots with four silvicultural practices-complete coppice, coppice with standard, selective thinning, and a control plot-to determine which method would have the best outcome for tree species diversity and natural regeneration of trees. Open access copy available |
Quarry dust emission effects on tree species diversity in Chongoni forest Reserve and vegetation characteristics in adjacent villages, Dedza, MalawiBackgroundQuarry dust is widely reported to have adverse effects on both human health and plant community structure, particularly resulting in decreased diversity and ecosystem functions. Therefore, it is critical to examine and monitor the interactions between these dust particles and vegetation. Open access copy available |