Browse by author
Lookup NU author(s): Dr Rachel Gaulton
Full text for this publication is not currently held within this repository. Alternative links are provided below where available.
Ecological studies can be limited by the mismatch in spatial-temporal scales between wildlife GPS telemetry data, collected sub-hourly, and the large-area maps used to identify disturbances, generally updated annually. Recent advancements in remote sensing, data fusion modeling, mapping, and change detection approaches offer environmental data products representing every 16-day period through the growing season. Here we highlight opportunities and challenges for integrating wildlife location data with high spatial and temporal resolution landscape disturbance data sets, available from remotely sensed imagery. We integrated 16-day outputs from the Spatial Temporal Adaptive Algorithm for mapping Reflectance Change (STAARCH) disturbance maps with grizzly bear (Ursus arctos) telemetry data. Our results indicate that males and females avoided same-year disturbances, while male bears were most likely to avoid recently disturbed areas in summer. When intra-year (disturbances mapped at a 16-day time-step) analysis of disturbance was compared to traditional annual time-step analysis, annual aggregation of disturbance data resulted in an increase in the observed selection of same-year disturbed habitat, although change was not statistically significant (α 0.05). We caution the use of low-temporal resolution disturbance data to evaluate short-term impacts on wildlife and highlight the need for further development of probabilistic- and model-based techniques for overcoming spatial-temporal differences between datasets.
Author(s): Brown ND, Nelson TA, Wulder MA, Coops NC, Hilker T, Bater C, Gaulton R, Stenhouse G
Editor(s): Ban Y
Publication type: Book Chapter
Publication status: Published
Book Title: Multitemporal Remote Sensing: Methods and Applications
Print publication date: 30/11/2016
Acceptance date: 12/10/2016
Series Title: Remote Sensing and Digital Image Processing
Publisher: Springer International Publishing
Library holdings: Search Newcastle University Library for this item