Abstract
Characterizing the spatial and temporal dynamics of hydrologically sensitive areas (HSAs) is vital to the effective management of the boreal forest. HSAs are defined as saturated or inundated areas that, if disturbed, might result in a significant change in the movement of water, nutrients and biota within landscapes. This study presents a remote sensing technique that uses archived European Remote Sensing Satellite (ERS)‐1 and ERS‐2 synthetic aperture radar (SAR) images to monitor HSAs in the Willow River watershed (1030 km2) on the western Boreal Plain of Canada. ERS images were used to generate a probability of HSA occurrence map for a 10‐year period (1991–2000). This map revealed the complexity of HSAs on the western Boreal Plain, where some areas remained consistently dry or wet whereas others were dynamic, transitioning from dry to wet and vice versa. A probability map of HSA occurrence provides spatial and temporal information previously unavailable for this region that may expand our understanding of the hydrological behaviour of drainage basins and serve as a planning tool for land management decisions.
Acknowledgements
Funding for this study was provided by a NSERC‐CRD grant to S. Bayley, I. Creed, K. Devito and L. Foote for the Hydrology, Ecology, and Disturbance (HEAD) research project in collaboration with Ducks Unlimited Canada, Alberta‐Pacific Forest Industries Inc, Weyerhaeuser Canada, Syncrude Canada Ltd, and Suncor Energy Inc. Funding was also provided by a Network of Centres of Excellence on Sustainable Forest Management (NCE‐SFM) grant to I. Creed. We gratefully acknowledge NASA and the Alaska Satellite Facility for providing the ERS images.