4.7 Article

Salinity and Water Temperature as Predictors of Bottlenose Dolphin (Tursiops truncatus) Encounter Rates in Upper Galveston Bay, Texas

Journal

FRONTIERS IN MARINE SCIENCE
Volume 8, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fmars.2021.754686

Keywords

marine mammals; seasonal movement; freshwater influx; environmental factors; industrial estuary; low salinity; flooding events; Gulf of Mexico

Funding

  1. Gulf of Mexico Alliance, the SeaWorld Busch Gardens Conservation Fund
  2. SeaWorld Busch Gardens Emergency Fund
  3. Trull Foundation

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The study found that the occurrence patterns of bottlenose dolphins in Galveston Bay are significantly influenced by water temperature and salinity, with higher water temperatures and lower salinity levels corresponding to decreased encounter rates of dolphins.
Bottlenose dolphins (Tursiops truncatus) that inhabit urban estuaries like Galveston Bay, Texas, are exposed to cumulative stressors including pollution, fisheries, shipping, freshwater inflows, and construction operations. With continuing development, it is imperative to understand the key environmental variables that make the Galveston Bay estuary suitable habitat for this protected species. The Galveston Bay Dolphin Research Program conducted monthly photo identification surveys of bottlenose dolphins in a previously understudied 186 km(2) area in upper Galveston Bay (UGB). To understand occurrence patterns in this region, we calculated monthly encounter rates of dolphins (dolphins/km) for four consecutive years (2016-2019). Using multiple linear regression models, we investigated the relationship between encounter rates, and water temperature and salinity. Monthly encounter rates ranged from 0.00 to 1.23 dolphins/km with an average of 0.34 dolphins/km (SE = 0.05). Over 80% of the variance was explained by the predictor variables water temperature and salinity (R-2 = 0.820). Water temperature had a positive linear effect on encounter rates at over 23.37 degrees C (SE = 1.42). Accordingly, higher encounter rates occurred during months with warm temperatures (May-September) compared to cooler months (November-April), indicating a predictable yearly movement pattern. Moreover, salinity was a highly significant predictor variable, with encounter rates dropping linearly with decreases in salinity. Higher numbers of dolphins are found in UGB during summer, but an exodus of dolphins occurs with low salinity levels, regardless of the time of year and water temperature. These findings should be considered during infrastructure projects (i.e., flood gate system) that may alter dolphin habitat and prey availability.

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