RECIRCULATE will support new partnership-based approaches to enable African researchers to grow transformational impact through working with, in and for their communities The vision, objectives and strategy for RECIRCULATE emerge from Lancaster's deep engagement with researchers and research users in sub-Saharan Africa. Africa is a strategic priority for Lancaster which is currently the only UK University to have a campus on the continent. With our partners Trans-National Education (TNE) we have invested in excess of £5M to establish our Ghana campus ("LU Ghana" opened in 2013 and now supports 450 students). Lancaster University is committed to grow LU Ghana as a research base, and are about to purchase an additional 6ha of land for a larger campus that will include laboratory facilities for engineering and environmental sciences. In addition to our long-standing partnership building in Ghana and Nigeria, Lancaster University has grown national leadership in eco-innovation - innovation supporting both business growth and the environment. It has the capacity to translate high quality research into "real world impacts" as demonstrated by Lancaster's double award-winning Centre for Global Eco-innovation (CGE) http://www.globalecoinnovation.org . CGE has demonstrated that eco-innovation can deliver positive benefits to both the economy and the environment and is fundamentally underpinned by the need for end-user driven research. At the heart of our eco-innovation vision for Africa is the needs to promote medium-to-long term economic growth that is both resilient to future climate and where possible able to mitigate the impact of environmental change. Informed by our experience and that of our core partners in Ghana and Nigeria, RESILIENCE focuses on the overarching need for a safer circular water economy that is research driven but community-led. Sustainable, equitable and community-appropriate management of water plays a key role in strengthening the resilience of social, economic and environmental systems in the face of change. Equally, sustainable and equitable water management needs research that is fully engaged with communities to ensure that novel solutions are developed at the appropriate scale to meet specific needs, and so provides an excellent example of the need for research institutions to work with, in and for their communities. RECIRCULATE is underpinned by four interlinked research areas: (i) water for sanitation and health; (ii) water for food production; (iiii) water for energy production, and (iv) water, pathogens and health. A fifth area of work integrates each of these work packages areas and focusses specifically on microbiology and the need to create new ways to reduce the impact of water-borne disease on vulnerable populations. The RECIRCULATE work plan integrating both research and capacity building across environmental science, biomedicine, engineering, management and knowledge exchange with external stakeholders will support high quality research partnerships to establish the systems necessary to move from research to sustainable development solutions and in so doing support the long-term transition of Ghana and Nigeria from resource to knowledge economies.

The policies, strategies and programs introduced to address youth unemployment in Africa (e.g., entrepreneurial skills development, funding young farmers, counseling, investing in accelerators and incubators to support the launch of new businesses) are not working. In sub-Saharan Africa, 64.4 million youth lived in extreme or moderate poverty (less than $3.10 per day) in 2016. Nigeria's youth unemployment rate grew from 11.7% in 2014 to 36.5% in 2018 and youth unemployment rates in Egypt, Kenya and South Africa reached all-time highs in 2017. To design and implement programs that can effectively reduce youth unemployment in Africa, we need to increase the multi-disciplinary research capacity of African university professors, learn from countries that have successfully reduced youth unemployment, engage African youth in the process of identifying the core of the unemployment problem and approaches to solve it, and maintain databases that store and manage large amounts of digital information that is accurate and reliable. The goal of this project is to build significant research capacity across African universities to help reduce youth unemployment in African countries, starting with: Nigeria, Ghana, Kenya, Egypt, Senegal and South Africa.The expected outcomes at the end of three years after project start are: i) One high-performing hub that has the capacity to raise external funds, form partnerships, explore entrepreneurial activities, attract excellent mentors worldwide, and anchor a research network across African universities; ii) 12 doctoral students and post-doctoral fellows and 13 faculty members distributed across African universities who can carry out research in how to reduce youth unemployment in Africa; and iii) Models, local best practices and reliable digital data that can be applied to reduce youth unemployment in Africa. To achieve its objectives, the project will carry out five major initiatives: i) Baseline assessment- establishes existing gaps that necessitate research investment; ii) Networking Events - hosts conferences, workshops and seminars; iii) international placement events to develop the capacity to reduce youth unemployed of all the individuals and organizations that are part of the hub-and-spokes network; iv) Research Labs - trains and mentors young academics from the six African countries to define problems, set objectives and priorities, conduct sound research, and identify solutions to high youth unemployment in Africa as well as work collaboratively; v) Infrastructure and Dissemination- documents and updates models, local best practices and digital databases that can be applied to design and implement policies, strategies and programs to reduce youth unemployment in Africa; and shares the reports produced and the digital data that is used and created by the project with all stakeholders. The project comprised of a team of experts drawn from universities in Five African countries (University of Lagos Nigeria, University of Ghana, University of Cape Town, South Africa, University of Nairobi Kenya, and The America University in Cairo, Egypt), three universities in the United Kingdom (Lancaster University, University of Strathclyde , Coventry University and University of Derby) and 2 in North America (Carleton University, Canada and University of Iowa, USA) The investment required is 600 thousand pounds. The funds will be invested in capacity building and networking (70%), scoping studies (20%) and administrative support (10%). This project responds to the urgent need for a multi-country strategic approach to address high youth unemployment rates in African countries. The project greatly benefits young career academics in different African countries because it provides a platform for them to build their research capacities in one or more of the nine focus areas of the ARUA, USD-CoE and the resources that can be leveraged to form partnerships and explore entrepreneurial opportunities

* Context The Earth's vegetation is changing in response to climate change, increased concentrations of CO2 in the atmosphere, and harvesting for fuel, food and building materials. These changes can accelerate or reduce climate change by altering the carbon cycle, and also affect the livelihoods of those who use natural resources in their day-to-day lives. One of the most important ways to understand vegetation change and its impacts, is to make careful measurements of the same patches of vegetation ("plots") repeatedly. Networks of these plots have produced surprising findings, challenging theory and models of vegetation responses to climate change. E.g. in Latin America, a network of these plots has shown that tropical forests are not soaking up as much carbon as predicted. Networks of these on-the-ground plot measurements are the only way to get a detailed view of how vegetation is currently changing. However at the moment, different researchers do not combine their data to understand regional patterns of change. This project will address this by bringing together researchers collecting plot data in southern African woodlands to share data and answer the big questions about what is happening to the vegetation in the region. The southern African woodlands are the largest savanna in the world (3 million km2), and support the livelihoods of 160M people. Many of these people are poor and depend upon the woodlands for 25% of their income and to support their agriculture. Theory and models suggest that these woodlands will be sensitive to increased atmospheric CO2 and other environmental changes underway: this is because, unlike forests, woodlands maintain a balance in the competition between trees and grasses, allowing both types of plant to co-exist. Small changes that benefit trees (such as more CO2 in the atmosphere) might rapidly change woodlands into a tree-dominated system. This would mean that they store more carbon, but might reduce the diversity of plants on the ground. It is also possible that human use of these woodlands, particularly wood harvesting for fuel, is altering their diversity and reducing the "services" that they provide. Currently we have no way to know if these changes are happening - satellite data and models can help, but need to be validated with plot measurements. * Aims and objectives Understanding the response of southern African woodlands to global change is the long-term goal of SEOSAW. It will do this by creating a regularly re-measured, systematic plot network. The stepping stones to this network are to: 1) develop an online data-sharing platform to exchange existing plot data so that we can look for signs of widespread change 2) combine NERC-funded data from 486 plots with data from 1,783 plots measured by others, to create a network that covers the whole region 3) use this new data set to better understand the processes that allow trees and grasses to co-exist, to allow modellers to make better predictions of future change 4) encourage researchers to make measurements in similar ways in the future, so that we can more easily detect changes 5) create a plan for future plot measurements that covers the whole region, and makes best use of the available time and money. * Who will benefit? SEOSAW will fill a large gap in the network of plots in tropical regions and benefit: - modellers of the Earth's vegetation will be able to test their models against reality in one of the most difficult to model biomes - scientists using satellite data to map vegetation will now be able to calibrate and validate their maps in all types of tropical vegetation - Those modelling the carbon cycle, who need to know how much carbon is being taken up by the woodlands Conservationists will also benefit, as SEOSAW will identify parts of the region that have unique or particularly diverse woodlands, helping to prioritise conservation efforts.