Abstract
Lake water quality monitoring has the potential to be improved through integrating detailed spatial information from new generation remote sensing satellites with high frequency observations from in situ optical sensors (WISPstation). We applied this approach for Lake Trasimeno with the aim of increasing knowledge of phytoplankton dynamics at different temporal and spatial scales. High frequency chlorophyll-a data from the WISPstation was modeled using non-parametric multiplicative regression. The ‘day of year’ was the most important factor, reflecting the seasonal progression of a phytoplankton bloom from July to September. In addition, weather factors such as the east–west wind component were also significant in predicting phytoplankton seasonal and diurnal patterns. Sentinel 3-OLCI and Sentinel 2-MSI satellites delivered 42 images in 2018 that successfully mapped the spatial and seasonal change in chlorophyll-a. The potential influence of localized inflows in contributing to increased chlorophyll-a in mid-summer was visualized. The satellite data also allowed an estimation of quality status at a much finer scale than traditional manual methods. Good correspondence was found with manually collected field data but more significantly, the greatly increased spatial and temporal resolution provided by satellite and WISPstation sensors clearly offers an unprecedented resource in the research and management of aquatic resources.
Highlights
The Earth’s surface waters are an essential global resource for human life, and the services provided by the freshwater ecosystem foster water, food, and energy security [1,2]
Phytoplankton is widely distributed in inland waters, and some species, such as cyanobacteria can form blooms or scum and potentially produce potent toxins that can result in a range of adverse effects on aquatic ecosystems and human health [12,13,14]
Chlorophyll-a maps derived from satellite images were analyzed to obtain annual and summer coefficient of variation (CV) values for the lake and a sub-set of ten regions of interest (ROIs) were selected for spatial-temporal analyses
Summary
The Earth’s surface waters are an essential global resource for human life, and the services provided by the freshwater ecosystem foster water, food, and energy security [1,2]. The analysis of hourly variability is still limited to geostationary sensors [34], but the spatial and spectral resolutions are too limited to monitor the optical complexity of inland waters For this reason, hyperspectral observations gathered from continuous measurement sensors are a useful tool to integrate with satellite data, and they can provide valuable data for validating satellite products. This study integrates satellite remote sensing data with results from in situ optical sensors for assessing phytoplankton spatial and temporal dynamics in Lake Trasimeno, a turbid, eutrophic, shallow lake located in central Italy. (ii) the assessment of intra-annual exploited to provide spatial and temporal information on Chl-a concentration for evaluating trends phytoplankton with phenology and dynamics at whole-lake scale from S3-OLCI and S2-MSIofproducts. Evaluating trends and relationships with environmental change and supporting implementation of the EU’s and
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