Reservoirs are subject to anthropogenic stressors, becoming increasingly degraded. However, this ecosystem provides habitats to a large amount of species as well as
critical ecosystem services, making it important evaluate changes within reservoirs and
understand their magnitude and implications towards the ecosystem. In this study we
intend to validate the utility of remote sensing techniques to assess the ecological
potential of Portuguese reservoirs, established by the Water Framework Directive
(WFD). WFD defines several metrics to assess water quality requiring field work
followed by laboratory analyses, making a process slow and expensive. However, Remote Sensing techniques provide a complementary, cost effective and practical
solution that has a broad coverage and can be frequently executed with expressive
results. Thus, this study aims to determine the relationship between certain Water
Quality Parameters (WQP) - chlorophyll-a, phycocyanin and turbidity - and digital data
from the Sentinel-2 satellite to estimate and map these WQP. Sentinel-2 Level-1C
satellite images dating from January 2017 to December 2018 were used as inputs
regarding water quality via image processing chain based on the “waterquality” R
package, in order to analyse spatial and temporal differences between reservoirs. Indeed, after validation with in situ data, these estimates can help to predict future evolutions of
water quality in reservoirs, as well as understand the significance of anthropogenic
stressors and environmental pressures in the water bodies. Therefore, with global
climate changes in mind, this digital tool is undeniably needed for the evolution of
limnetic knowledge and its integration with other fields of researc