Tropical forest degradation emits carbon at a rate of~0.5 Pg·y −1 , reduces biodiversity, and facilitates forest clearance. Understanding degradation drivers and patterns is therefore crucial to managing forests to mitigate climate change and reduce biodiversity loss. Putative patterns of degradation affecting forest stocks, carbon, and biodiversity have variously been described previously, but these have not been quantitatively assessed together or tested systematically. Economic theory predicts a systematic allocation of land to its highest use value in response to distance from centers of demand. We tested this theory to see if forest exploitation would expand through time and space as concentric waves, with each wave targeting lower value products. We used forest data along a transect from 10 to 220 km from Dar es Salaam (DES), Tanzania, collected at two points in time (1991 and 2005). Our predictions were confirmed: high-value logging expanded 9 km·y −1 , and an inner wave of lower value charcoal production 2 km·y ; 0.1 species per sample area (0.4 ha)]. Our study suggests that tropical forest degradation can be modeled and predicted, with its attendant loss of some public goods. In sub-Saharan Africa, an area experiencing the highest rate of urban migration worldwide, coupled with a high dependence on forestbased resources, predicting the spatiotemporal patterns of degradation can inform policies designed to extract resources without unsustainably reducing carbon storage and biodiversity. biodiversity conservation | carbon emissions | reducing emissions from deforestation and forest degradation | sustainability | tropical forest degradation
The proposed mechanism for Reducing Emissions from Deforestation and Degradation (REDD+) offers significant potential for conserving forests to reduce negative impacts of climate change. Tanzania is one of nine pilot countries for the United Nations REDD Programme, receives significant funding from the Norwegian, Finnish and German governments and is a participant in the World Bank's Forest Carbon Partnership Facility. In combination, these interventions aim to mitigate greenhouse gas emissions, provide an income to rural communities and conserve biodiversity. The establishment of the UN-REDD Programme in Tanzania illustrates real-world challenges in a developing country. These include currently inadequate baseline forestry data sets (needed to calculate reference emission levels), inadequate government capacity and insufficient experience of implementing REDD+-type measures at operational levels. Additionally, for REDD+ to succeed, current users of forest resources must adopt new practices, including the equitable sharing of benefits that accrue from REDD+ implementation. These challenges are being addressed by combined donor support to implement a national forest inventory, remote sensing of forest cover, enhanced capacity for measuring, reporting and verification, and pilot projects to test REDD+ implementation linked to the existing Participatory Forest Management Programme. Our conclusion is that even in a country with considerable donor support, progressive forest policies, laws and regulations, an extensive network of managed forests and increasingly developed locally-based forest management approaches, implementing REDD+ presents many challenges. These are being met by coordinated, genuine partnerships between government, non-government and community-based agencies.
A study of striped hyaena (Hyaena hyaena (Linnaeus, 1758)) in Lothagam, northern Kenya was conducted to understand the interactions of H. hyaena with the local Turkana people and their livestock. Data were collected from skeletal parts, fresh scats, ecological survey, and from interviews at different homesteads. Analysis of skeletal remains was broadly divided into three categories: species, skeletal part and bone damage. Insects, birds, fish, crocodile, seeds, leaves and fifteen species of mammalian prey were identified. The high proportion of livestock, dog and human remains in the bone accumulations indicate a significant dependence on the lifestyles of the local Turkana people. The study provides evidence to suggest that striped hyaenas predate on small livestock and demonstrate an opportunistic behaviour, which enables them to survive as the largest carnivore in this marginal environment. A greater abundance of bones are associated with striped hyaena dens than with those of the spotted hyaena (Crocuta crocuta (Erxleben, 1777)). Bone modification by the striped hyaena differs from spotted hyaena bone modification. Bone breakage patterns can be attributed to the relative specific gravity, degree of epiphyseal closure and nutritive fat content of bones.
Proposing the use of charismatic species of large mammals as a conservation tool is often controversial, even though the Conservation of Biological Diversity promotes sustainable use as one of its three pillars. Indeed, sustainable use has been important in helping to recover southern white rhinos, the South African population of which was downlisted in 1994 to Appendix II of CITES for trophy hunting and live sales only. The Appendix I listed black rhino is now also beginning to recover, particularly in South Africa and Namibia, where how best to deal with surplus males arising from successful biological management is an increasing problem. Furthermore, black rhinos are now being increasingly moved to private land, where incentives from use may help help promote metapopulation management goals. As a result, the African Rhino Specialist Group anticipated proposals to trophy hunt black rhinos, and were concerned to recommend criteria that proponent countries would need to meet for such proposals to succeed. These recommendations address four guiding principles:
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