Prospective HyspIRI global observations of tidal wetlands

• Published in: Remote sensing of environment Vol. 167; pp. 206 - 217
• Main Authors: Turpie, Kevin R., Klemas, Victor V., Byrd, Kristin, Kelly, Maggi, Jo, Young-Heon
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.09.2015
• Subjects: Biogeography; Coastal science; Ditches; Habitats; Hydrology; Hyperspectral; HyspIRI; Imaging spectroscopy; Marshes; Remote sensing; Satellite remote sensing; Satellites; Sensors; Shellfish; Thermal imaging; Wetlands; Satellite remote sensing; HyspIRI; Coastal science; Hyperspectral; Biogeography; Imaging spectroscopy; Thermal imaging; Remote sensing; Wetlands
• ISSN: 0034-4257; 1879-0704
• DOI: 10.1016/j.rse.2015.05.008

Tidal wetlands are highly productive and act as critical habitat for a wide variety of plants, fish, shellfish, and other wildlife. These ecotones between aquatic and terrestrial environments also provide protection from storm damage, run-off filtering, and recharge of aquifers. Many wetlands along coasts have been exposed to stress-inducing alterations globally, including dredge and fill operations, hydrologic modifications, pollutants, impoundments, fragmentation by roads/ditches, and sea level rise. For wetland protection and sensible coastal development, there is a need to monitor these ecosystems at global and regional scales. Recent advances in satellite sensor design and data analysis are providing practical methods for monitoring natural and man-made changes in wetlands. However, available satellite remote sensors have been limited to mapping primarily wetland location and extent. This paper describes how the HyspIRI hyperspectral and thermal infrared sensors can be used to study and map key ecological properties, such as species composition, biomass, hydrology, and evapotranspiration of tidal salt and brackish marshes and mangroves, and perhaps other major wetland types, including freshwater marshes and wooded/shrub wetlands. •Coastal wetlands are extremely important and vulnerable ecological resources.•HyspIRI observations are crucial for vital, large-scale coastal wetland studies.•Community awareness/interest will guide NASA in allocating future support.•This paper overviews hyperspectral/TIR wetland observations, based on published work.•Includes wetland distribution maps; environmental and ecological attributes