@ARTICLE{Giambastiani_Yamuna_Volume_2020, author={Giambastiani, Yamuna and Giusti, Riccardo and Cecchi, Stefano and Palomba, Francesca and Manetti, Francesco and Romanelli, Stefano and Bottai, Lorenzo}, number={No 46}, pages={84-96}, journal={Journal of Water and Land Development}, howpublished={online}, year={2020}, publisher={Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute}, abstract={Following flood events and cloudbursts alternating with long drought periods, interest grew in the reservoirs, lakes and water basins in the Tuscany region. In-depth studies are needed to understand the role of water bodies in territorial resili-ence to climate change. Water volume is the main information to be collected to quantify and monitor their capacity. In this study, a methodology was developed for the estimation of water volume, based on depth measurements taken by sensors with low detection time and costs that can quantify the resource on a regional scale. The depth measuring instrument was a portable sounder with 95 satellite positioning system (Deeper Smart Sonar PRO + (WI-FI + GPS). 204 water bodies were measured. The results indicate that depth is a fundamental parameter to be detected in the field, to obtain the volume with automatic and precise tools. The calculated volume correlates well with the real volume with an R2 = 0.94. Elaboration of the results led to a model being developed to estimate the volume, knowing only the lake surface area. The database created can be used to conduct future studies on the dynamics of water resources in relation to climate change. It will also be possi-ble to make comparisons with data obtained from satellite and LiDAR (light detection and ranging) surveys.}, type={Article}, title={Volume estimation of lakes and reservoirs based on aquatic drone surveys: The case study of Tuscany, Italy}, URL={http://czasopisma.pan.pl/Content/117282/PDF/Giambiastiani%20et%20al%20649.pdf}, doi={10.24425/jwld.2020.134200}, keywords={deeper sonar, lake, pond, reservoir, volume model}, }