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Two decades of data show climate change is transforming Biscayne Bay, study finds
https://news.miami.edu/rosenstiel/stories/2026/06/two-decades-of-data-show-climate-change-is-transforming-biscayne-bay-study-finds.htmlTwenty years of observations show that Biscayne Bay, the largest estuary on the Atlantic Coast of Florida is becoming warmer, saltier, and more acidic, raising concerns for South Florida ecosystems and water resources.
By Diana Udel
05-29-2026
…
“Biscayne Bay is changing in measurable ways as climate change accelerates,” said co-author Maria Josefina Olascoaga, a co-author of the study and a professor in the Department of Ocean Sciences at the Rosenstiel School. “We observed that parts of the bay are becoming saltier and warmer, while pH levels are declining, making the water more acidic. These changes can affect seagrasses, fisheries, wildlife, and the broader coastal ecosystem that South Florida communities depend on.”
The researchers evaluated long-term records of salinity, temperature, dissolved oxygen, and pH collected monthly from 34 monitoring stations throughout the bay. They compared changes across decades, seasons, and geographic regions of Biscayne Bay to identify climate-related trends.
The findings show a significant increase in salinity across several regions of Biscayne Bay, especially near canal mouths, where researchers also detected saltwater intrusion in bottom waters. Water temperatures rose throughout the bay, with North Bay warming the fastest. Overall, median temperatures increased by 0.5 degrees Celsius during the study’s second decade. Researchers also documented declining pH levels in most areas, indicating a growing influence of ocean acidification. Together, these changes point to a shift away from historically fresher, estuarine conditions toward saltier, warmer, and more ocean-like waters, reflecting the combined effects of climate change and sea level rise.
Long-term environmental monitoring is critical to understanding how a changing climate is affecting Biscayne Bay at the local level, providing data that help communities and resource managers anticipate and prepare for future impacts on coastal ecosystems and water resources. The authors note that these findings can also inform decisions on water management, restoration projects, and coastal protection efforts aimed at strengthening the bay’s resilience.
…
Caccia, V., Janz, E. M., Estevanez, M. & Olascoaga, M. J. Climate change influence on salinity, temperature, dissolved oxygen and pH in Biscayne Bay (Florida): Two decades of observations (2001–2021). Estuarine, Coastal and Shelf Science 336, 109861 (2026). https://doi.org/10.1016/j.ecss.2026.109861
By Diana Udel
05-29-2026
…
“Biscayne Bay is changing in measurable ways as climate change accelerates,” said co-author Maria Josefina Olascoaga, a co-author of the study and a professor in the Department of Ocean Sciences at the Rosenstiel School. “We observed that parts of the bay are becoming saltier and warmer, while pH levels are declining, making the water more acidic. These changes can affect seagrasses, fisheries, wildlife, and the broader coastal ecosystem that South Florida communities depend on.”
The researchers evaluated long-term records of salinity, temperature, dissolved oxygen, and pH collected monthly from 34 monitoring stations throughout the bay. They compared changes across decades, seasons, and geographic regions of Biscayne Bay to identify climate-related trends.
The findings show a significant increase in salinity across several regions of Biscayne Bay, especially near canal mouths, where researchers also detected saltwater intrusion in bottom waters. Water temperatures rose throughout the bay, with North Bay warming the fastest. Overall, median temperatures increased by 0.5 degrees Celsius during the study’s second decade. Researchers also documented declining pH levels in most areas, indicating a growing influence of ocean acidification. Together, these changes point to a shift away from historically fresher, estuarine conditions toward saltier, warmer, and more ocean-like waters, reflecting the combined effects of climate change and sea level rise.
Long-term environmental monitoring is critical to understanding how a changing climate is affecting Biscayne Bay at the local level, providing data that help communities and resource managers anticipate and prepare for future impacts on coastal ecosystems and water resources. The authors note that these findings can also inform decisions on water management, restoration projects, and coastal protection efforts aimed at strengthening the bay’s resilience.
…
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