Geospatial Software Tools and Apps for the Analysis of Human and Natural Systems

geoapp_screenshot_mod

A suite of geospatial software tools and apps for socioeconomic and environmental analysis on coupled human-natural systems (CHANS) from local to global scales.

Software and Data Availability

The suite of tools, documentation, and data can be found on our main Telecoupling Toolbox online repository on Github (see also end of this page). The web application can be found directly at: https://telecoupling.msu.edu/geo-app

Highlights

  • The modular design of the toolbox allows the integration of existing tools and software to assess synergies and trade-offs associated with policies and other local to global interventions
  • The suite of geospatial tools can systematically map and quantify multiple socioeconomic and environmental impacts
  • Provide users with an easy-to-use interface.

Research Team

Francesco Tonini, Jianguo ‘Jack’ Liu, Paul McCord

Abstract

Telecoupling is a novel interdisciplinary umbrella concept that enables natural and social scientists to understand and generate information for managing how humans and nature can sustainably coexist worldwide. The telecoupling framework gains its distinction by enabling researchers to dive deeply into systemic complexities, even if systems are far away from each other. It is also ambitious in its aim to meet challenges unencumbered by disciplines. To understand the forces affecting sustainability across local to global scales, it is essential to build a comprehensive set of spatially explicit tools for describing and quantifying multiple reciprocal socioeconomic and environmental interactions over distances. We introduce the Telecoupling Toolbox, the first set of tools developed to map and identify the five major interrelated components of the telecoupling framework: systems, flows, agents, causes, and effects. The modular design of the toolbox allows the integration of existing tools and software to assess synergies and trade-offs associated with policies and other local to global interventions. We show applications of the toolbox by using two representative telecoupling case studies that address a variety of socioeconomic and environmental issues. The results suggest that the toolbox can systematically map and quantify multiple telecouplings under various contexts while providing users with an easy-to-use interface. It is our hope that the innovative, free, and open-source toolbox can provide a useful platform to address globally important issues, such as land use and land cover change, species invasion, migration, flows of ecosystem services, and trade of goods and products.

Literature

  • Tonini, F., and Liu, J. (2017). Telecoupling Toolbox: Spatially explicit tools for studying telecoupled human and natural systems. Ecology and Society, 22 (4 ), pp. Art11. https://doi.org/10.5751/ES-09696-220411
View Related Code on GitHub