The ‘Lake Tanganyika Water Management’ project aims to sustainably improve the management and control of the cross-border waters of Lake Tanganyika. This 4-year project is entrusted to Enabel and is financed by the European Union as part of a regional program.
This project aims at improving the hydrological and operational management of Lake Kivu and the Ruzizi River, while pursuing an integrated and Nexus-based approach.
Climate change is affecting the livelihoods of the population around the world. Challenging situations require innovative interventions and BirdLife is working hand in hand with local communities, who have unique knowledge of their landscapes, to build alternatives in Rwanda and Burundi.
Cage aquaculture is spreading rapidly on AGLs without lake-specific best management practices (BMPs) to ensure long-term socio-economic and environmental sustainability. PESCA project is developing a decision support tool (DST) and BMPs to guide development or improvement of policies and regulations to improve fish production and profitability from cage aquaculture with minimal impacts on the aquatic environment of the AGLs.
Building on BirdLife sediment fingerprinting study on the impacts of climate change in the Lakes Kivu and Tanganyika basins, this project will enhance the resilience of communities within the Sebeya and Ruhwa catchments through agroforestry and sustainable agriculture, building capacity for climate change adaptation and disseminating best practices in the African Great Lakes Region. This project is implemented in partnership with ABN – Burundi, NaFIRRI and BirdLife.
Members of this project will host an applied, collaborative workshop which creates lake committees on each of the African Great Lakes. Each lake committee will consist of relevant freshwater experts to harmonize and prioritize research, guide regional research efforts, and facilitate communications between partner countries to positively affect freshwater policy and management using regular in-person meetings, the African Great Lakes Inform, and other relevant means.
The 2017 African Great Lakes Conference, Entebbe, Uganda resolved to advance the African Great Lakes Information Platform (AGLI) (this platform) established by The Nature Conservancy. AGLI was created to promote research and collaboration and support decision-making to ensure the inter-generational sustainability of the lakes and their basins. AGLI will be hosted at the University of Nairobi and managed jointly with the African Center for Aquatic Research and Education.
African Great Lakes (AGLs) contribute 2.7 million tonnes (~25%) to global inland fisheries production (11.9 mt) annually. This is composed of large species (> 20 cm total length, TL) and small pelagic species (< 20 cm, TL). At the turn of the 20th century, fisheries of the AGLs were dominated by large species (tilapine cichlids, Lates spp, cat fishes, Mormyrids, etc.) and management concentrated on these species.
This project aims to improve understanding of the importance of wetlands, highlighting the ecological and economic value of Ruvubu National Park through trainings on ecosystem services assessments and identification of biodiversity and ecosystem services characteristics and spatial trends.
There has been a lot of discourse throughout the sustainable development goals (SDGs) process on the need for integrated policies that consider the synergies and trade-off across SDGs thematic areas and how that is critical for the achievement of sustainable development. However, most of the discussions have remained in the global policy arena, with less focus on how the integration would be achieved at national policy and program levels.
This project was completed as part of the Conservation Leadership Programme's (CLP) internship program. CLP supports projects that develop the skills of early career conservationists working to conserve the planet's most threatened species and habitats. This project allowed an intern to acquire the skills and knowledge required to be well-positioned to take a lead role in developing the capacities of local communities to sustainably manage and benefit from their natural resources.
The Kagera Basin, which lies within the four countries of Burundi, Rwanda, Uganda and Tanzania, is characterized by low-production subsistence agriculture and widespread poverty. Severe land degradation in the area is linked to loss of soil fertility caused by population pressure and primitive farming methods. The basin countries rank among the world's poorest countries. Land cover depletion including deforestation is wide-spread with almost total absence of reforestation activities.
This project introduced collaborative management to the Bururi Forest Nature Reserve through rehabilitating degraded areas and facilitated an agreement between the local environmental associations around the reserve and the government agency "OBPE." This project conducted environmental and socio-economic studies of the forest and initiated income-generating activities like beekeeping. Furthermore, the project raised awareness among the local population about the importance of the forest for the community and provided improved wood stoves in order to reduce deforestation for firewood.
The project aims to support 720 households in 24 cooperatives with 6 cooperatives per hill. It will provide vegetable material from the cultivation of sweet potatoes and market gardening crops (cabbage, egg plant, amaranth and tomatoes). The project will also support co-operatives on agricultural techniques adapted to climate change. The cooperative approach will facilitate project monitoring and sustainability.
In order to increase productivity and combat food insecurity, a goat breeding project was initiated. These goats allowed 46 indigenous households to have manure for soil improvement and thus increase their agricultural productivity.
Integrating women smallholder farmers into the mainstream economy is key in order to increase their productivity, improve the quality of their commodities, gain a voice in decision-making around all aspects of the agriculture value chain and build adaptive capacity to mitigate climate change. NEPAD recognises the impact that climate change will have on African agriculture, especially African women farmers, and designed the five-year Gender, Climate Change and Agriculture Support Project (GCCASP) with support from the Norwegian government.
Over 800 million people are malnourished and the global population is growing, and at the current trend 9 out of 10 children living in poverty in 2030 will be from Sub-Saharan Africa. The Sustainable Development Goal (SDG) Zero hunger and the SDG Life below water'promote the conservation and sustainable use of aquatic resources for sustainable development.
BirdLife Partners from Kenya (NatureKenya), Uganda (NatureUganda), Rwanda (Association pour la Conservation de la Nature au Rwanda) and Burundi (Association Burundaise pour la Protection des Oiseaux) are implementing a project in the Lake Victoria Basin which aims to empower local organizations so that they are better equipped to address the linked challenges of poverty and biodiversity loss. Lake Victoria is Africa's largest lake, and the largest tropical lake in the world. The swamps, forests and islands in and around Lake Victoria are important for a diversity of wildlife.
The transboundary Lake Kivu and Rusizi River basins are very important for biodiversity and provide many ecosystem services such as supply of freshwater, food from fishing and agriculture, pollination, soil fertility and erosion control, carbon sequestering, the provision of non-timber forest products, as well as providing aesthetic and recreation experiences. These landscapes are currently facing a multitude of threats arising from unsustainable practices and poor land and catchment management.
A recent expert review of the ecological risks of net pen aquaculture in the North American Great Lakes made a number of recommendations for Best Management Practices (BMPs) that should be applied to establishment of net pen farms. Based on that_study, researchers identified nine generic BMPs that could be applied to all Global Great Lakes.