Abstract
Changes in river water temperatures are anticipated to have direct effects on thermal habitat and fish population vital rates, and therefore, understanding temporal trends in water temperatures may be necessary for predicting changes in thermal habitat and how species might respond to such changes. However, many investigations into trends in water temperatures use regression methods that assume long-term monotonic changes in temperature, when in fact changes are likely to be nonmonotonic. Therefore, our objective was to highlight the need and provide an example of an analytical method to better quantify the short-term, nonmonotonic temporal changes in thermal habitat that are likely necessary to determine the effects of changing thermal conditions on fish populations and communities. To achieve this objective, this study uses Bayesian dynamic linear models (DLMs) to examine seasonal trends in river water temperatures from sites located in the eastern and western United States, regions that have dramatically different riverine habitats and fish communities. We estimated the annual rate of change in water temperature and found little evidence of seasonal changes in water temperatures in the eastern U.S. We found more evidence of warming for river sites located in the western U.S., particularly during the fall and winter seasons. Use of DLMs provided a more detailed view of temporal dynamics in river thermal habitat compared to more traditional methods by quantifying year-to-year changes and associated uncertainty, providing managers with the information needed to adapt decision making to short-term changes in habitat conditions that may be necessary for conserving aquatic resources in the face of a changing climate.
Highlights
Water temperature is considered the “master variable” of fish habitat, affecting stream metabolism, fish bioenergetics and structuring fish communities and the ecosystem services they support [1,2,3].Changes in river water temperatures, and thermal habitat, are projected to have Water 2017, 9, 90; doi:10.3390/w9020090 www.mdpi.com/journal/waterWater 2017, 9, 90 important effects on many freshwater communities
Rice and Jastram [18] found correlations between water temperature trends and agricultural land use and wetland cover in the mid-Atlantic region of the U.S it is well established that natural landscape features and anthropogenic alterations to the landscape can influence river water temperatures, the lack of relationships to average trends in this study may be due to several factors
The percentage of urban land use in the upstream catchment for Upper Colorado River Basin (UCRB) sites ranged from 0% to 2%, and the percentage of urban land use ranged from 0% to 96% for the eastern U.S sites, land use in these study sites was predominately characterized by low urban land use
Summary
Water temperature is considered the “master variable” of fish habitat, affecting stream metabolism, fish bioenergetics and structuring fish communities and the ecosystem services they support [1,2,3].Changes in river water temperatures, and thermal habitat, are projected to have Water 2017, 9, 90; doi:10.3390/w9020090 www.mdpi.com/journal/waterWater 2017, 9, 90 important effects on many freshwater communities. Because temperature is a key controller of physiological processes, changes in water temperatures have the potential to affect population vital rates, including growth and reproduction [8,9,10]. These effects have implications for habitats and the aquatic communities they support, but are projected to have substantial economic impacts due to the loss of recreational fisheries [11]. For many riverine fish species, this implies quantifying trends in seasonal water temperatures, seasons that correspond to periods of potential thermal stress (e.g., summer months) or that correspond to important life history events, such as spawning [13]. Isaak et al [14] examined trends in seasonal (spring, summer, fall and winter) river water temperatures, each of which may be important in influencing particular life history events of stream-dwelling cold water fishes
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