This file is part of IDEAS, which uses RePEc data


[ Papers | Articles | Software | Books | Chapters | Authors | Institutions | JEL Classification | NEP reports | Search | New papers by email | Author registration | Rankings | Volunteers | FAQ | Blog | Help! ]

A dynamic graph automata approach to modeling landscape change in the Andes and the Amazon

Author info | Abstract | Publisher info | Download info | Related research | Statistics
Author Info
Sahotra Sarkar
Kelley Crews-Meyer
Kenneth Young
Christopher Kelley
Alexander Moffett
Abstract

A generalization of cellular automata was developed that allows flexible, dynamic updating of variable neighborhood relationships, which in turn allows the integration of interactions at widely disparate spatial and temporal scales. Cells in the landscapes were modeled as vertices of dynamic graph automata that allow temporally variable causal connectivity between spatially nonadjacent cells. A trial was carried out to represent changes in an Amazonian and a tropical Andean landscape modeled as dynamic graph automata with input from a Landsat TM-derived Level 1 classification with the following classes: for the Amazon—forest, nonforest vegetation, water, and urban or bare (soil); for the Andes—forest, scrub (shrub or grassland), agriculture, and bare or exposed ground. Explicit automata transition rules were used to simulate temporal land-cover change. These rules were derived independently from fieldwork in each area, including vegetation plots or transects and informal interviews. Such a generalization of cellular automata was useful for modeling land-use – land-cover change (LULCC), although it potentially increases the computational complexity of an already data intensive process (involving 5 – 8 million cells, in 1000 stochastic simulations, with each simulation encompassing 15 annual time steps). The interannual predicted LULCC, while more nuanced in the Andean site, poses a serious threat to compositional and configurational stability in both the Andes and the Amazon, with implications for landscape heterogeneity and habitat fragmentation.

Download Info
To download:

If you experience problems downloading a file, check if you have the proper application to view it first. Information about this may be contained in the File-Format links below. In case of further problems read the IDEAS help page. Note that these files are not on the IDEAS site. Please be patient as the files may be large.

File URL: http://www.envplan.com/abstract.cgi?id=b33146
File Format: text/html
File Function: abstract
Download Restriction: Fulltext access restricted to subscribers, see http://www.envplan.co.uk/B.html for details
File URL: http://www.envplan.com/epb/fulltext/b36/b33146.pdf
File Format: application/pdf
File Function: main text
Download Restriction: Fulltext access restricted to subscribers, see http://www.envplan.co.uk/B.html for details

As the access to this document is restricted, you may want to look for a different version under "Related research" (further below) or search for a different version of it.

Publisher Info
Article provided by Pion Ltd, London in its journal Environment and Planning B: Planning and Design.

Volume (Year): 36 (2009)
Issue (Month): 2 (March)
Pages: 300-318
Download reference. The following formats are available: HTML (with abstract), plain text (with abstract), BibTeX, RIS (EndNote, RefMan, ProCite), ReDIF
Handle: RePEc:pio:envirb:v:36:y:2009:i:2:p:300-318

Contact details of provider:
Web page: http://www.pion.co.uk

For technical questions regarding this item, or to correct its listing, contact: (Neil Hammond).

Related research
Keywords:

Statistics
Access and download statistics

Did you know? About 1000 journals are listed on RePEc.

This page was last updated on 2009-12-19.

This information is provided to you by IDEAS at the Department of Economics, College of Liberal Arts and Sciences, University of Connecticut using RePEc data on a server sponsored by the Society for Economic Dynamics.