Your search keyword '"Scott Heckbert"' showing total 2 results

1. Impacts of land-use management on ecosystem services and biodiversity: an agent-based modelling approach

Author

Thomas J. Habib, Scott Heckbert, Jeffrey J. Wilson, Andrew J. K. Vandenbroeck, Jerome Cranston, and Daniel R. Farr

Subjects

Ecological economics, Ecosystem services, Land-use planning, Agent-based modelling, Biodiversity, Simulation modelling, Medicine, Biology (General), QH301-705.5

Abstract

The science of ecosystem service (ES) mapping has become increasingly sophisticated over the past 20 years, and examples of successfully integrating ES into management decisions at national and sub-national scales have begun to emerge. However, increasing model sophistication and accuracy—and therefore complexity—may trade-off with ease of use and applicability to real-world decision-making contexts, so it is vital to incorporate the lessons learned from implementation efforts into new model development. Using successful implementation efforts for guidance, we developed an integrated ES modelling system to quantify several ecosystem services: forest timber production and carbon storage, water purification, pollination, and biodiversity. The system is designed to facilitate uptake of ES information into land-use decisions through three principal considerations: (1) using relatively straightforward models that can be readily deployed and interpreted without specialized expertise; (2) using an agent-based modelling framework to enable the incorporation of human decision-making directly within the model; and (3) integration among all ES models to simultaneously demonstrate the effects of a single land-use decision on multiple ES. We present an implementation of the model for a major watershed in Alberta, Canada, and highlight the system’s capabilities to assess a suite of ES under future management decisions, including forestry activities under two alternative timber harvest strategies, and through a scenario modelling analysis exploring different intensities of hypothetical agricultural expansion. By using a modular approach, the modelling system can be readily expanded to evaluate additional ecosystem services or management questions of interest in order to guide land-use decisions to achieve socioeconomic and environmental objectives.

Published

2016

2. Impacts of land-use management on ecosystem services and biodiversity: an agent-based modelling approach

Author

Andrew J. K. Vandenbroeck, Dan Farr, Thomas J. Habib, Scott Heckbert, Jeffrey J. Wilson, and Jerome Cranston

Subjects

Cellular automata, 0106 biological sciences, 010504 meteorology & atmospheric sciences, Computer science, media_common.quotation_subject, lcsh:Medicine, Ecosystem Science, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Ecosystem services, Land-use planning, Mathematical Biology, Sophistication, 0105 earth and related environmental sciences, media_common, Ecological economics, Ecology, Simulation modelling, Land use, business.industry, General Neuroscience, lcsh:R, Principal (computer security), Environmental resource management, Agriculture, Usability, Biodiversity, General Medicine, Modular design, Systems modelling, Agent-based modelling, Watersheds, General Agricultural and Biological Sciences, business

Abstract

The science of ecosystem service (ES) mapping has become increasingly sophisticated over the past 20 years, and examples of successfully integrating ES into management decisions at national and sub-national scales have begun to emerge. However, increasing model sophistication and accuracy—and therefore complexity—may trade-off with ease of use and applicability to real-world decision-making contexts, so it is vital to incorporate the lessons learned from implementation efforts into new model development. Using successful implementation efforts for guidance, we developed an integrated ES modelling system to quantify several ecosystem services: forest timber production and carbon storage, water purification, pollination, and biodiversity. The system is designed to facilitate uptake of ES information into land-use decisions through three principal considerations: (1) using relatively straightforward models that can be readily deployed and interpreted without specialized expertise; (2) using an agent-based modelling framework to enable the incorporation of human decision-making directly within the model; and (3) integration among all ES models to simultaneously demonstrate the effects of a single land-use decision on multiple ES. We present an implementation of the model for a major watershed in Alberta, Canada, and highlight the system’s capabilities to assess a suite of ES under future management decisions, including forestry activities under two alternative timber harvest strategies, and through a scenario modelling analysis exploring different intensities of hypothetical agricultural expansion. By using a modular approach, the modelling system can be readily expanded to evaluate additional ecosystem services or management questions of interest in order to guide land-use decisions to achieve socioeconomic and environmental objectives.

Published

2016