Statistic Summaries of SLM Options by Context in the WebGIS sub-tool of Geoinformatics Options by Contexts (GeOC)
Presentation on the Statistic Summaries of SLM Options by Context in the WebGIS sub-tool of Geoinformatics Options by Contexts (GeOC).
Presentation on the Statistic Summaries of SLM Options by Context in the WebGIS sub-tool of Geoinformatics Options by Contexts (GeOC).
Presentation on Mapping Tool in the WebGIS of Geo-informatics Options by Contexts (GeOC)
This off-line CRP-DS/ICARDA template of SLM technology description is partly adapted from those of WOCAT, however with major modifications and additions. It has six (6) main parts. The information fields that are inherited and modified from the WOCAT template are marked with WOCAT (Note: Inherited from WOCAT) and MW (Note: Modifed from WOCAT), respectively. All new fields are kept unmarked. All compulsory fields are highlighted with a red asterrisk (*).
With Second Level Land Certification (SLLC), farmers gain increased security of tenure: this incentivises them to invest more in their land.
To allow for this productive investment to take place, the Land Investment for Transformation (LIFT) programme is working with micro finance institutions (MFIs) to roll out an innovative financial product: the SLLC-linked individual loan.
Accessing longer terms and larger size loans allows farmers to increase the productivity of their land, graduate from subsistence farming, and become more commercially oriented.
Supporting the agriculture sector
The GoE with technical support from the Land Investment for Transformation (LIFT) programme is issuing Second Level Land Certificates (SLLC) to increase the land tenure security of farmers. As a result, farmers are more willing to invest in their land in a productive and sustainable way. However, to allow for increased productive investment, farmers must have access to improved agri-inputs and technologies that are climate smart: this is currently a challenge in most rural areas.
The GeOC tool is divided in 2 components: the web-based geographic information system (called WEB-GIS tool) and the Sustainable Land Management (called SLM tool).
This videos focus on WEB-GIS interface. This video shows how a context socio-ecological type can be defined and which the different outputs that the GeOC offers are.
To check the GeOC tool, please follow this link: http://geoc.mel.cgiar.org
Under the Economics of Land degradation initiative (ELD), scientists from ICARDA are collaborating with developments to develop the GeOC tool. It is a new web-based GIS tool to define context specific options for sustainable land management required to achieve Land Degradation Neutrality (LDN).
This video gives further more infromation about the GeOC tool.
To check the GeOC tool, please follow this link: http://geoc.mel.cgiar.org
The GeOC tool is divided in 2 components: the web-based geographic information system (called WEB-GIS tool) and the Sustainable Land Management (called SLM tool).
This video gives a presentation of the key functionalities WEB-GIS interface.
To check the GeOC tool, please follow this link: http://geoc.mel.cgiar.org
To learn more about the project under which the GeOC tool is developed, please follow this link: https://mel.cgiar.org/projects/geoxc
The GeOC tool is divided in 2 components: the web-based geographic information system (called WEB-GIS tool) and the Sustainable Land Management (called SLM tool).
This videos focus on WEB-GIS interface. It shows the function that maps the socio-ecological context similarity of a selected SLM. This will provide a spatially explicit extrapolation domain that supports the out or upscaling of the selected SLM.
To check the GeOC tool, please follow this link: http://geoc.mel.cgiar.org
Property rights and management regimes for high-elevation rangelands in Bhutan have evolved over centuries in response to environmental, cultural, and political imperatives. The 2007 Land Act of Bhutan aims to redress historical inequities in property rights by redistributing grazing leases to local livestock owners in a process known as rangeland nationalization.
Riparian ecosystems are valuable to the ecological and human communities that depend on them. Over the past century, they have been subject to shifting management practices to maximize human use and ecosystem services, creating a complex relationship between water policy, management, and the natural ecosystem. This has necessitated research on the spatial and temporal dynamics of riparian vegetation change. The San Acacia Reach of the Middle Rio Grande has experienced multiple management and river flow fluctuations, resulting in threats to its riparian and aquatic ecosystems.
Conservation scientists recognize that additional protected areas are needed to maintain biological diversity and ecological processes. As regional conservation planners embark on recommending additional areas for protection in formal ecological reserves, it is important to evaluate candidate lands for their role in building a resilient protected areas system of the future.