Airborne imaging spectrometry is a powerful tool to investigate key biophysical parameters in inland waters. High spectral resolution data forms a contiguous spectrum that enables the detection and identification of a variety of key water quality indicators (e.g., cyanobacteria pigments); high spatial resolution imagery is suitable for fine scale observation (e.g., the patchy spatial distribution of phytoplankton in productive waters). Airborne observations ensure flexible flight paths that allow the observations of unexpected events to be acquired on time. In this chapter we present an overview of remote sensing techniques, by focusing on imaging spectrometry, for assessing water quality parameters in inland waters such as lakes, streams, rivers, reservoir and ponds (hence all that is defined "case-2 waters" according to a traditional remote sensing terminology). Then, examples of applications by using airborne Multispectral Infrared and Visible Imaging Spectrometer (MIVIS) images of Italian inland waters acquired at a spatial resolution varying from 3 to 5 m are presented. Those examples include the retrieval of water quality parameters (i.e. chlorophyll-a, suspended particulate matter and coloured dissolved organic matter), the detection and monitoring of submerged vegetation, the observation of a cyanobacteria bloom in productive lakes and the investigation of the signal reflected by floating materials of terrestrial origin (i.e., pollens and oil).
Imaging Spectrometry of Inland Water Quality in Italy Using MIVIS: An Overview
Claudia Giardino;Mariano Bresciani;Erica Matta;
2015
Abstract
Airborne imaging spectrometry is a powerful tool to investigate key biophysical parameters in inland waters. High spectral resolution data forms a contiguous spectrum that enables the detection and identification of a variety of key water quality indicators (e.g., cyanobacteria pigments); high spatial resolution imagery is suitable for fine scale observation (e.g., the patchy spatial distribution of phytoplankton in productive waters). Airborne observations ensure flexible flight paths that allow the observations of unexpected events to be acquired on time. In this chapter we present an overview of remote sensing techniques, by focusing on imaging spectrometry, for assessing water quality parameters in inland waters such as lakes, streams, rivers, reservoir and ponds (hence all that is defined "case-2 waters" according to a traditional remote sensing terminology). Then, examples of applications by using airborne Multispectral Infrared and Visible Imaging Spectrometer (MIVIS) images of Italian inland waters acquired at a spatial resolution varying from 3 to 5 m are presented. Those examples include the retrieval of water quality parameters (i.e. chlorophyll-a, suspended particulate matter and coloured dissolved organic matter), the detection and monitoring of submerged vegetation, the observation of a cyanobacteria bloom in productive lakes and the investigation of the signal reflected by floating materials of terrestrial origin (i.e., pollens and oil).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.