LandSFACTS model details (inputs/outputs)
The LandsFACTS model was originally (v1.6) set up to simulate cropping systems at the landscape scale. Since 2007, it was further developed to allow modelling land uses at multiple scales within an evolving environment. The diagram below presents the main inputs and outputs of the model.
Figure: LandSFACTS version 2.0 inputs and outputs
Temporal constraints: return period, minimum and maximum repetition of crops within a field, forbidden crop sequences, past allocations. Each constraint can be field specific.
Spatial constraints: yearly land capability, separation distances between crops, linked fields. In progress: connectivity metrics.
Further information on LandSFACTS:
Research
- Science Departments
- Cell and Molecular Sciences
- Phytophthora infestans research
- Potato Cyst Nematodes
- Virus research
- Rhynchosporium on barley
- Bacterial Plant Pathogens
- Human and animal pathogens on plants
- Epidemiology and population biology
- Aphid-Plant Interactions
- Dundee Effector Consortium
- Integrated pest management
- Imaging Technologies
- Cereal genetics
- Potato genetics
- Soft fruit genetics, genomics and phenomics
- Abiotic stress research
- Staff and Students
- Alternative splicing and stress
- Ecological Sciences
- Environmental and Biochemical Sciences
- Natural products and food chemistry
- Environmental monitoring
- Automatic Weather Station - Invercauld
- Automatic Weather Station - Sourhope Farm
- Monitoring Data - Lunan
- Monitoring Data - Tarland Burn, Aboyne
- Monitoring Data - Tarland Burn, Coull
- Monitoring Data - Tarland Burn, Netherton
- Monitoring Data - Tarland Burn, Tarland Village
- Monitoring Data - Yetholm Mains, Bowmont Water
- Soil chemistry and mineralogy
- Biochemistry and hydrology
- Soil physics and characterisation
- Environmental Chemistry
- Isotope applications
- Analysis equipment
- Field sites and research platforms
- Environmental and Biochemical Sciences Staff
- Information and Computational Sciences
- Social, Economic and Geographical Sciences
- Cell and Molecular Sciences
- Research Facilities
- International
- Postgraduate study
- Research Partners
Areas of Interest
- Areas of Interest
- Centre for Human and Animal Pathogens in the Environment
- New Zealand Flatworm
- Water and food security
- National waters inventory Scotland
- Nutrient cycles
- Future scenarios for water resources
- Ecosystem services approaches
- Exploring ways for the application of ecosystem services approaches at the catchment level
- UNESCO Global Dialogue book
- Cost-effectiveness, disproportionality analysis and multiple benefits of the EU Water Framework Directive
- Payment for water ecosystem services
- Assessing and valuing peatland ecosystem services for sustainable management
- Valuing the impacts of ecosystem service interactions for policy effectiveness
- Water Futures: Towards Equitable Resource Management Strategies
- Water resource monitoring
- Global Change - the local context
- Coastal Research and Consultancy
- Farmer led phosphorus sampling
- Hydropower resources research
- Improving water quality in Scotland
- URflood
- Septic tank system for on-site wastewater treatment
- Scenarios and land use futures
- Scottish Rivers Handbook
- Land manager attitudes and behaviours
- Soil forensics
- Realising Land's Potential stakeholder engagement events
- Community-based Management of Environmental challenges in Latin America
- OrkCEmP: Exploring ideas about Community in Orkney
- Vibrant Rural Communities workshop
- Biodiversity
- Land
- People
- Ecosystem services
- Research outputs
- Improving the plant
- Optimising soil conditions
- Root-soil interactions
- Soil diversity
- Integrated pest management
- Soil science
Related Staff
Related Content
- Scenarios and land use futures (Research Page)
- LandSFACTS (Research Page)