13 September 2012 Trophic status, ecological condition, and cyanobacteria risk of New England lakes and ponds based on aircraft remote sensing
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Abstract
Aircraft remote sensing of freshwater ecosystems offers federal and state monitoring agencies an ability to meet their assessment requirements by rapidly acquiring information on ecosystem responses to environmental change for water bodies that are below the resolution of space-based platforms. During this study, hyperspectral data were collected over a two-day period from glacial lakes, ponds, and man-made reservoirs in New Hampshire, Massachusetts, Connecticut, and Rhode Island. These lakes ranged from five to greater than 1600 hectares and oligotrophic-mesotrophic to eutrophic and hypereutrophic conditions. Water samples were collected by several New England state agencies coincident with the airborne remote-sensing flights to provide ground reference data for algorithm development and testing. Using an inverse modeling approach remotely sensed reflectances from the near-infrared to red portion of the spectrum were used to develop an empirical model to estimate chlorophyll a concentrations. The accuracy of the algorithm was assessed from the RSM error of predicted and measured chlorophyll values for all lakes sampled. Results showed a strong statistical relationship between measured and predicted values. The predicted chlorophyll concentrations were used to assess the biological condition, trophic status, and recreational risk to human health for the New England lakes and ponds surveyed.
© 2012 Society of Photo-Optical Instrumentation Engineers (SPIE)
Darryl J. Keith, Bryan Milstead, Henry Walker, Hilary Snook, James J. Szykman, Michael Wusk, Les Kagey, Charles Howell, Cecil Mellanson, Christopher Drueke, "Trophic status, ecological condition, and cyanobacteria risk of New England lakes and ponds based on aircraft remote sensing," Journal of Applied Remote Sensing 6(1), 063577 (13 September 2012). https://doi.org/10.1117/1.JRS.6.063577 . Submission:
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