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Environmental GIS

Environmental GIS. Nicholas A. Procopio, Ph.D, GISP nick@drexel.edu. GIS Applications. Applications generally fulfill the five M‘s of GIS: mapping, measurement, monitoring, Modeling, and management. Political Science Analysis of election results Predictive Modeling Real Estate

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Environmental GIS

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  1. Environmental GIS Nicholas A. Procopio, Ph.D, GISP nick@drexel.edu

  2. GIS Applications • Applications generally fulfill the five M‘s of GIS: • mapping, • measurement, • monitoring, • Modeling, • and management

  3. Political Science Analysis of election results Predictive Modeling Real Estate Neighborhood Land Prices Traffic Impact Analysis Business Demographic Analysis Site Selection Market penetration Health care Epidemiology Needs Analysis Education Administration Enrollment Projections School Bus Routing Applications of a GIS

  4. Urban Planning And Management Zoning, Subdivision Planning Economic Development Emergency Response Code Enforcement Tax Assesment Environmental Science Monitoring environmental risks Management of watersheds, floodplains, wetlands, aquifers Groundwater modeling and contamination tracking Hazardous or toxic facility siting Applications of a GIS

  5. More Env. Applications • Monitoring land use change • Assessing the impact of urban settlements • Simulation of processes in the urban and natural environment

  6. Scientific questions and GIS operations • Within the spatial domain, the goals of applied problem solving include, • Managing spatial operations and inventories • Rational, effective, and efficient allocation of resources • Monitoring and understanding observed spatial distributions of attributes • Understanding the difference that place makes • Understanding of processes in the natural and human environments • Prescription of strategies for environmental maintenance and conservation

  7. Case study: Deforestation in the Philippines • Objective is to identify a range of different development scenarios that make it possible to anticipate future land use and habitat change, and hence also anticipate changes in biodiversity.

  8. Case Study: Methods • Used qualitative data collected through stakeholder interviews in a quantitative GIS-based analysis to calculate the probabilities of land use transition under three different scenarios of land use change. • The three different scenarios not only resulted in different forest areas by 2019 but also different spatial patterning of the remaining forest.

  9. Forest area (dark green) in 1999 and at the end of the land-use change simulations (2019) for three different scenarios.

  10. Uncontrolled Sprawl Restricted to existing arteries Growth in the American Midwest under four different urban growth scenarios. Horizontal extent of image is 400 km. (Source: Paul Torrens, 2005 “Simulating sprawl with geographic automata models,” reproduced courtesy of the author) Leapfrog development due to zoning Constrained development

  11. Land use in Southern New Jersey and the Pinelands

  12. Landscape Pattern Changes:Mimosa Lakes Percentage Altered Land 1988 – median pH did not exceed 4.8 1986 – 8.8% 1995 – 23% 2002 – 33% 2007 – 35% 2001 & 2009 – median pH exceeded 6.0

  13. Aquatic Integrity of the NJ Pinelands

  14. Radiotelemetry

  15. locations, general travel path, and activity range (minimum convex polygon, and 50% and 95% isopleths) of snakes. May – Oct 2002 April – Oct 2003

  16. Foundations • Foundation- • The theme of inferring process from pattern, or function from form, is a common characteristic of GIScience applications. • Contrasts nomothetic (generalized) and idiographic (specified) approaches

  17. Principles • Principles- • GIS makes it possible to incorporate diverse physical, biological, and human elements, and to forecast the size, shape, scale, and dimension of land use parcels. • It makes use of the core GIS idea that the world can be understood as a series of layers of different types of information, that can be added together meaningfully through overlay analysis to arrive at conclusions.

  18. Analysis • Analysis • Process is inferred not just through size measures, but also through spatial measures of connectivity and fragmentation.

  19. General Issues • Irrespective of the quality of the measurement process, uncertainty will always creep into any prediction • Data are never perfect • Measurement error and uncertainty • Forecasts and models are a simplified representation of the real world • GIS users should not think of systems as black boxes, • Users of GIS should always know exactly what the system is doing to their data. • User awareness of these important issues can be improved through appropriate metadata and documentation of research procedures • The results of analysis should always be reported in sufficient detail to allow someone else to replicate them.

  20. Remember…… • GIS is fundamentally about solving real-world problems. • GIS leads to better decision making!

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