Ecologist-Developed Spatially-Explicit Dynamic Landscape Models

This book is written for ecologists interested in capturing their understandings of how natural systems work in software to help inform their work and communicate the consequences of proposed management plans. Historically, ecologists had to rely on the skills of trained computer programmers to modeling natural systems, but now a new generation of software is allowing ecologists to directly capture their understandings of systems in software. This book is a compilation of spatially explicit simulation models developed by ecologists and planners without any formal computer programming skills. Readers will be inspired to believe that they too can create similar models of the systems with which they are familiar.

Written for ecologists to help inform their work and communicate the consequences of proposed management plans A compilation of spatially explicit simulation models developed by ecologists and planners without formal computer programming skills Some models are the result of professional efforts accomplished in the course of landscape research Includes supplementary material: sn.pub/extras

Texte du rabat

The optimal management of landscapes must incorporate the cause-and-effect relationships that have so carefully been observed by ecologists in the field. The growing availability of straightforward, user-friendly simulation modeling tools is now helping to bridge the considerable gap between the ecologist's deep, intuitive technical understanding of landscape systems and the development of practical, science-driven landscape management plans. This book offers a thorough introduction to the topic of real-world simulation modeling for scientists who have completed little or no preparatory work in computer programming. It describes the usefulness of simple, expedient simulation models to disciplines such as ecology and the social sciences, and explains why such models can readily be understood, adopted, and extended by peers in the field or students. The text provides a detailed description of the process for building spatially explicit simulation models, either by an individual scientist or a multidisciplinary project team. It also introduces the reader to the public domain, easy-to-learn NetLogo software environment, which was used to develop all of the models presented in this book. By following the prescribed model design and development processes, the reader will learn the essentials of rapidly and inexpensively developing simulation models that can provide important new insights into landscape management or other field research problems. Eleven spatially explicit NetLogo simulation models, all developed by ecologists and social scientists without significant programming experience, are fully documented. The book also includes a CD-ROM containing these models and a fully operational copy of NetLogo that functions under all major computer operating systems running Java.

Contenu
Preface.- Foreword.- Never Fear--You Already Model!.- A Collaborative Process for Multidisciplinary Group Modeling Projects.- An Introduction to the NetLogo Modeling Environment.- A Simulation Model of Fire Ant Competition with Cave Crickets at Fort Hood, Texas.- Spatially Explicit Agent-Based Model of Striped Newt Metapopulation Dynamics Under Precipitation and Forest Cover Scenarios.- Forecasting Gopher Tortoise Distribution and Long-Term Viability at Fort Benning, Georgia.- Using Demographic Sensitivity Testing to Guide Management for Gopher Tortoises on Fort Stewart, Georgia.- A Model for Evaluating Hunting and Contraception as Feral Hog Population Control Methods.- Spatially Explicit Modeling of Productivity in Pool 5 of the Mississippi River.- Simulating Gopher Tortoise Populations in Fragmented Landscapes: An Application of the FRAGGLE Model.- An Individual-Based Model for Metapopulations on Patchy Landscapes Genetics and Demography (IMPL-GD).- An Implementation of the Pathway Analysis Through Habitat (PATH) Algorithm Using NetLogo.- A Technique for Rapidly Forecasting Regional Urban Growth.- Modeling Intimate Partner Violence and Support Systems.- Index.