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1. Movements of aquatic mesopredators within the Shark River estuary (FCE LTER), Everglades National Park, South Florida, USA, February 2012 - ongoing

   https://doi.org/10.6073/pasta/dc3a992e2eb71472a89e70f837d3010f  

   Rehage, Jennifer (January 2023, Environmental Data Initiative)

   In South Florida, the allocation of the limited freshwater supply is of constant debate. Stakeholder groups for freshwater include agriculture, South Florida populations, and the natural environment and the ecosystem services that they provide. One ecosystem service invaluable to South Florida is the provisioning of coastal recreational fisheries. This ecosystem service generates approximately 8 billion dollars in angler expenditures in Florida alone. However, the interplay between the provisioning of fisheries and the allocation and input of freshwater to coastal systems is largely unknown. One such way that recreationally important fishes could be impacted by changes in freshwater inputs to coastal systems is through the availability of food. Previous research has shown that seasonal rainfall patterns and freshwater management create spikes in prey availability for important recreational fishes such as Common Snook (Centropomus undecimalis) and Largemouth Bass (Micropterus salmoides). These prey pulses are restricted to the most inland reaches of the estuary. However, two important questions remain unanswered: 1) How far away do snook and bass move to take advantage of this prey subsidy? 2) Do these spikes in prey availability increase the reproductive output of snook? In order to answer these questions, we use acoustic telemetry to track the movements of key recreational fish species (Common Snook and Largemouth Bass) over multiple years (2012 – current) in the Shark River Estuary, Everglades National Park. Data provided by this study will be the first step in quantifying the importance of freshwater inflows to coastal fisheries. From a science perspective our research will provide valuable insight to how highly mobile species respond to pulses of prey across a patchy landscape, and how these temporary highly abundant resources will act to boost consumer populations. The value of pulsed resources to consumers have been identified as an important information gap in population ecology. 

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2. Going Downriver: Patterns and Cues in Hurricane-Driven Movements of Common Snook in a Subtropical Coastal River

   https://doi.org/10.1007/s12237-019-00617-y  

   Massie, Jordan A.; Strickland, Bradley A.; Santos, Rolando O.; Hernandez, Javiera; Viadero, Natasha; Boucek, Ross E.; Willoughby, Hugh; Heithaus, Michael R.; Rehage, Jennifer S. (August 2019, Estuaries and Coasts)

   Extreme climate events such as hurricanes can influence the movement and distribution of fish and other aquatic vertebrates. However, our understanding of the scale of movement responses and how they vary across taxa and ecosystems remains incomplete. In this study, we used acoustic telemetry data to investigate the movement patterns of common snook (Centropomus undecimalis) in the Florida Coastal Everglades during Hurricane Irma, which made landfall on the southwest Florida coast as a Category 3 storm on 10 September 2017 after passing in close proximity to our study site. We hypothesized that the hurricane resulted in shifts in distribution and that these movements may have been driven by environmental cues stemming from changes in barometric pressure associated with hurricane conditions, fluctuations in water levels (stage) characterizing altered riverine conditions, or a combination of both hurricane and riverine drivers. The data revealed large-scale movements of common snook in the time period surrounding hurricane passage, with 73% of fish detected moving from the upper river into downriver habitats, and some individuals potentially exiting the river. Furthermore, regression model selection indicated that these movements were correlated to both hurricane and riverine conditions, showing increased common snook movement at higher river stage and lower barometric pressure, and stage explaining a larger proportion of model deviance. Animal movement has widespread and diverse ecological implications, and by better understanding the factors that drive movement, we may anticipate how future extreme climate events could affect fish populations in impact-prone regions. 

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3. Long-term patterns in the relative abundance of Common Snook as a factor of shifting environmental conditions in the Florida coastal Everglades

   https://doi.org/10.1093/mcfafs/vtaf026  

   Massie, Jordan A; Rezek, Ryan J; Santos, Rolando O; James, W Ryan; Viadero, Natasha M; Boucek, Ross E; Rehage, Jennifer S (September 2025, Marine and Coastal Fisheries)

   ABSTRACT ObjectiveEnvironmental variability as a factor of climate change and water management can result in fluctuations in the abundance and distribution of fish populations from year to year, with either negative or positive effects depending on behavioral and physiological requirements and the ability to adapt to changing conditions. Variability in water levels can also influence prey availability, affecting predator abundance in seasonal foraging areas. In this study, our objective was to better understand how environmental variation has affected the relative abundance of Common Snook Centropomus undecimalis in the freshwater/estuarine habitats of Everglades National Park. MethodsElectrofishing data over 17 years (2004–2021) were analyzed in relation to a long-term time-series of environmental conditions, including water level, temperature, salinity, and precipitation. We used seasonal and trend decomposition via locally estimated scatterplot smoothing to isolate the effect of seasonality and identify nonlinear trends in the environmental time-series data and Common Snook abundance and Mann–Kendall trend tests to identify monotonic and directional trends over time. To identify the factors that best explain variation in Common Snook abundance, we used generalized linear models to relate relative abundance to the environmental covariates. ResultsWe found significant long-term trends of increasing water level and temperature and decreasing salinity in the study area. The generalized linear models indicated that Common Snook abundance had a negative relationship with water level and a positive relationship with temperature. Common Snook abundance over the 17 years of sampling was relatively stable; however, increases/decreases in Common Snook abundance corresponded to both seasonal changes in water level and the periodic occurrence of extreme conditions (e.g., cold spells, droughts, prolonged dry-season flooding). ConclusionsUnderstanding how past environmental change has affected fish populations can provide insight into how they may respond to future conditions. Our results suggest that water management decisions that maintain seasonal patterns of high/low water levels can potentially mitigate climate-driven shifts by providing conditions that promote prey production in the wet season and foraging opportunities in the dry season, increasing the relative abundance of ecologically and recreationally important species such as Common Snook. 

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4. Primed and cued: long-term acoustic telemetry links interannual and seasonal variations in freshwater flows to the spawning migrations of Common Snook in the Florida Everglades

   https://doi.org/10.1186/s40462-022-00350-5  

   Massie, Jordan A.; Santos, Rolando O.; Rezek, Ryan J.; James, W. Ryan; Viadero, Natasha M.; Boucek, Ross E.; Blewett, David A.; Trotter, Alexis A.; Stevens, Philip W.; Rehage, Jennifer S. (December 2022, Movement Ecology)

   Abstract Background Spawning migrations are a widespread phenomenon among fishes, often occurring in response to environmental conditions prompting movement into reproductive habitats (migratory cues). However, for many species, individual fish may choose not to migrate, and research suggests that conditions preceding the spawning season (migratory primers) may influence this decision. Few studies have provided empirical descriptions of these prior conditions, partly due to a lack of long-term data allowing for robust multi-year comparisons. To investigate how primers and cues interact to shape the spawning migrations of coastal fishes, we use acoustic telemetry data from Common Snook ( Centropomus undecimalis ) in Everglades National Park, Florida, USA. A contingent of Snook migrate between rivers and coastal spawning sites, varying annually in both the proportion of the population that migrates and the timing of migration within the spawning season. However, the specific environmental factors that serve as migratory primers and cues remain unknown. Methods We used eight years of acoustic telemetry data (2012–2019) from 173 tagged Common Snook to investigate how primers and cues influence migratory patterns at different temporal scales. We hypothesize that (1) interannual differences in hydrologic conditions preceding the spawning season contribute to the number of individuals migrating each year, and (2) specific environmental cues trigger the timing of migrations during the spawning season. We used GLMMs to model both the annual and seasonal migratory response in relation to flow characteristics (water level, rate of change in water level), other hydrologic/abiotic conditions (temperature, salinity), fish size, and phenological cues independent of riverine conditions (photoperiod, lunar cycle). Results We found that the extent of minimum marsh water level prior to migration and fish size influence the proportion of Snook migrating each year, and that high river water level and daily rates of change serve as primary cues triggering migration timing. Conclusion Our findings illustrate how spawning migrations are shaped by environmental factors acting at different temporal scales and emphasize the importance of long-term movement data in understanding these patterns. Research providing mechanistic descriptions of conditions that promote migration and reproduction can help inform management decisions aimed at conserving ecologically and economically important species. 

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5. Cause and consequences of Common Snook (Centropomus undecimalis) space use specialization in a subtropical riverscape

   https://doi.org/10.1038/s41598-024-82158-4  

   Santos, Rolando O; White, Mack; James, W Ryan; Viadero, Natasha M; Massie, Jordan A; Boucek, Ross E; Rehage, Jennifer S (December 2025, Scientific Reports)

   Variability in space use among conspecifics can emerge from foraging strategies that track available resources, especially in riverscapes that promote high synchrony between prey pulses and consumers. Projected changes in riverscape hydrological regimes due to water management and climate change accentuate the need to understand the natural variability in animal space use and its implications for population dynamics and ecosystem function. Here, we used long-term tracking of Common Snook (Centropomus undecimalis) movement and trophic dynamics in the Shark River, Everglades National Park from 2012 to 2023 to test how specialization in the space use of individuals (i.e., Eadj) changes seasonally, how it is influenced by yearly hydrological conditions, and its relationship to the between individual trophic niche. Snook exhibited seasonal variability in space use, with maximum individual specialization (high dissimilarity) in the wet season. The degree of individual specialization increased over the years in association with greater marsh flooding duration, which produced important subsidies. Also, there were threshold responses of individual space use specialization as a function of floodplain conditions. Greater specialization in space use results in a decrease in snook trophic niche size. These results show how hydrological regimes in riverscapes influence individual specialization of resource use (both space and prey), providing insight into how forecasted hydroclimatic scenarios may shape habitat selection processes and the trophic dynamics of mobile consumers. 

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