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We suggest that a longer period of warmer temperatures in the summer may result in earlier uptake of nutrients or increased calcite precipitation resulting in a shortening of the duration of phytoplankton blooms. The current scenario of increasing LOS of temperature with climate change may lead to an alteration of phytoplankton phenological cycles resulting in blooms of shorter duration in lakes where nutrients become limiting. Satellite-derived information on lake temperature and Chl-a concentration proved essential in detecting trends at appropriate resolution over time.","mimetype":"application/xml+jats"}],"refs":[{"index":0,"extra":{"authors":["M Bresciani"],"doi":"10.1007/s10750-017-3462-2","unstructured":"Bresciani, M., I. Cazzaniga, M. Austoni, T. Sforzi, F. Buzzi, G. Morabito & C. Giardino, 2018. Mapping phytoplankton blooms in deep subalpine lakes from Sentinel-2A and Landsat-8. Hydrobiologia 824: 197–214.","volume":"824"},"key":"4773_CR1","year":2018,"container_name":"Hydrobiologia","locator":"197"},{"index":1,"extra":{"unstructured":"Bresciani, M., G. Free, M. Pinardi, M. Laanen, R. Padula, A. Fabbretto, S. Mangano, & C. Giardino, 2021. Optical remote sensing in shallow lake Trasimeno: understanding from applications across diverse temporal, spectral and spatial scales Springer \"Water\" book series."},"key":"4773_CR2"},{"index":2,"extra":{"authors":["M Bresciani"],"doi":"10.3390/w12010284","unstructured":"Bresciani, M., M. Pinardi, G. Free, G. Luciani, S. Ghebrehiwot, M. Laanen, S. Peters, V. Della Bella, R. Padula & C. Giardino, 2020. The use of multisource optical sensors to study phytoplankton spatio-temporal variation in a shallow turbid lake. Water 12: 284.","volume":"12"},"key":"4773_CR3","year":2020,"container_name":"Water","locator":"284"},{"index":3,"extra":{"authors":["DC Carslaw"],"doi":"10.1016/j.envsoft.2011.09.008","unstructured":"Carslaw, D. 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