Topics and Regions
Land Portal Foundation administrative account
Details
Location
Implementation of ZLA Strategic Plan
General
Zambia Land Alliance works to contribute to improved security of tenure for sustainable development and secure livelihoods. The outcomes include: a) Strengthened land tenure security of people living in rural, urban and per-urban areas, b) Effective participation, equality and justice for poor and vulnerable communities in land and natural resource governance, c) Strengthened capacity of ZLA and civil society partners to provide support to poor and vulnerable communities to respond to land governance issues. The direct target group 8 affiliated national civil society organisations and 7 District Land Alliances with affiliated membership consisting of District Farmers Associations and other local CSO's. The indirect target group are poor and vulnerable communities living in the 7 targeted districts.
Objectives
Progress results will be reported by the end of the year.
SPECTRA: Soil Processes and Ecological Services in the Karst Critical Zone of Southwest China
General
The SPECTRA programme seeks to enhance the sustainable development of one of the poorest regions of China, Guizhou, through cutting edge critical zone science undertaken by integrated, complementary and multidisciplinary teams of Chinese and UK scientists. The key question for management of the karst landscapes of SW China is "how can the highly heterogeneous critical zone resources be restored, to enable sustainable delivery of ecosystem services?" We know little about the geological, hydrological and ecological processes which control soil fertility and soil function in these landscapes and how best to manage them to maximise ecosystem service delivery. SPECTRA has been designed to address these questions through a suite of 4 interlinked workpackages. The CZ will span a gradient from undisturbed natural vegetation through to human perturbed and highly degraded landscapes. Using cutting-edge approaches we will integrate measurements of: (1) the three-dimensional distribution of plants (including roots), soil, fungi, and microbes; (2) rates of rock weathering, elemental release and soil formation processes; (3) rates of erosion and soil redistribution; and, (4) pools and fluxes of soil organic C (SOC), nitrogen (N) and phosphorus (P). This will allow us to identify the biological controls on nutrient availability, soil formation and loss in the CZ and their response to perturbation, providing the rich evidence base needed to inform land management decision-making in the Guizhou province. In doing so, SPECTRA will directly address the Newton Fund objective of enhancing economic development and social welfare by providing rigorous applied scientific knowledge that will underpin the development of strategies to improve net ecological service delivery from the karst landscape, informing realistic economic and ecological compensation plans to alleviate poverty, particularly for the households that rely on fragile soils for a living. The project is also designed to maximise the benefits to the science communities of both countries, thereby bringing significant institutional benefits to all partners. Training of Chinese Early Career Researchers in state-of-the-art approaches and techniques in leading UK laboratories is an absolute priority of the scientific partnership, and combined with the networking opportunities between project partners in the global CZ community, will contribute significantly to meeting the Newton Fund objective of building the capacity for CZ Science in China. The ultimate beneficiaries of this project will be the people of Guizhou karst region (population 35 million), which is one of the poorest regions in China with a GDP less than 50% of the national average. In response to the environmental deterioration and changing social conditions in the Guizhou karst region, the Chinese government has intervened to promote the abandonment of the most degraded cultivated land and its succession to grassland, shrub and forest. This strategy has met with mixed success and is not yet underpinned by well-developed plans to repay landowners for rational and sustainable use of land resources. This must be informed by science that quantifies current and potential ecosystem service delivery. There is significant potential for our research on the response, resilience and recovery of the karst critical zone to perturbation to inform improved land management strategies that will meet these demands, leading in turn to improved delivery of ecosystem services to the communities in this region and higher environmental quality, addressing poverty and the welfare of the population through development of long-term sustainable economic development.
Objectives
The Newton Fund builds research and innovation partnerships with developing countries across the world to promote the economic development and social welfare of the partner countries.
Land rights program for small scale farmers in Southern Mozambique - Tsakani Varimi, Continuation
General
Landrechte-Programm für Kleinbauern in drei Südprovinzen -Tsakani Varimi (Fortführung)
Objectives
Tsakani Varimi - Landrechtsprogramm im Süden Mosambiks
Cascade processes for integrated bio-refining of agricultural waste in India and Vietnam
General
Managing the water, energy and food requirements of a constantly-rising world population, in the context of climate change, is a key global challenge. Significant growth in proven and predicted fossil fuel reserves mean that achieving the Paris COP21 target for a 1.5 degree Celsius increase in mean global temperature relative to the pre-industrial level is at risk if we remain dependent upon these reserves. Biomass derived from agricultural and forestry residues is a low carbon feedstock for transportation fuels and organic chemicals. Integrating conversion processes so that biofuels, chemicals and energy are co-produced maximises the economic viability of waste biomass utilisation; an approach analogous to current petroleum refineries that deliver high volume/low value (fuels and commodity chemicals) and low volume/high value (fine/speciality chemicals) products in tandem. The potential for agricultural waste as a feedstock for low carbon fuels and chemicals is vast, even allowing for sustainable land management practices. In the EU alone, 16% of road transport fuel could be produced from waste by 2030 which would deliver green-house gas savings of greater than 60%. In Asia rice is the single most important crop, annually yielding >250 million tonnes of waste rice residues. Current practices of "at-site" burning of these waste residues in developing nations have serious detrimental effects on the environment and human health; improved waste management is therefore essential. To employ rice residues as sustainable feedstocks for transportation fuels and organic chemicals requires improved processes for their pre-treatment and conversion. This project proposes to develop an alternative, environmentally-benign process to utilise waste rice residues for the production of fuels and bio-derived agrochemicals, which will impact on renewable energy, climate change and environmental pollution by seeking to transform a plentiful waste resource into (1) an economically-viable, sustainable energy source for transportation fuels; and (2) a sustainable feedstock for the production of organic chemicals, while mitigating emissions of carbon dioxide and atmospheric particulates from "at-site" burning. We will exploit recently-established demonstrator plant facilities at ICT-Mumbai in India (ICTM) which offer cost-effective waste rice residue fractionation into lignin and cellulose, with a focus on bioethanol production. Our aim is to develop underpinning science to offer a wider range of high-value products from lignin, sugars and other extracted components thereby future-proofing the process to combat the fragile economics of bioethanol production. We propose an innovative and flexible conversion platform building on current expertise of the UK partners. A multidisciplinary team with expertise in plant cell wall deconstruction and simultaneous saccharification (Institute of Food Research; IFR), green extraction methods (The VN-UK Institute, University of DaNang), enzyme expression, tandem bio- and chemo-catalytic conversion technologies (Aston), bio-chemo routes to depolymerising lignin (Vietnam National University, Ho Chi Min City), process engineering and catalysis (Ha Noi University of Science & Technology) and photocatalytic water depollution (Aston and The Vietnam Academy of Science and Technology) will tackle the challenge of value-added product production while also ensuring sustainable water management practices are adopted. Enhanced research capacity in the Indian and Vietnamese institutes will be facilitated by interdisciplinary researcher training exchange visits to the partner research institutes at Aston and IFR, building a platform for sustainable agricultural waste management.
Objectives
The Global Challenges Research Fund (GCRF) supports cutting-edge research to address challenges faced by developing countries. The fund addresses the UN sustainable development goals. It aims to maximise the impact of research and innovation to improve lives and opportunity in the developing world. The fund addresses the UN sustainable development goals. It aims to maximise the impact of research and innovation to improve lives and opportunity in the developing world.
Securing land rights of rural communities in the central western zone of Bahia
General
Sicherung der Landrechte von Landgemeinden im zentralen Westen Bahias
Objectives
Sicherung der Landrechte von Landgemeinden im zentralen Westen Bahias