Functional traits and stable isotopes reveal trophic interactions in a highly invaded reservoir: implications for fisheries
Data files
Jun 28, 2025 version files 196.75 KB
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Ecomorphology.csv
1.55 KB
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Fisheries.csv
189.34 KB
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README.md
2.25 KB
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Stable_Isotopes.csv
3.61 KB
Abstract
Aquatic ecosystems worldwide face significant threats, with human activities and biological invasions reshaping their dynamics and structure. Invasive species are among the biggest threats in freshwater ecosystems and cost to the global economy billions every year. Dams, even if human created, serve as species reservoirs and provide multiple ecosystem services. This study investigates the functional diversity and trophic ecology of the fish assemblage in the Zimapan dam in Mexico, a highly disturbed ecosystem that receives wastewater from one of the world's megacities along with industrial discharges. We focused on species coexistence, ecological niches, and the impact on local fisheries of tilapia. We identified eight species and two subspecies inhabiting this dam, only one of which is native, and observed functional complementarity among them. However, we observed trophic niche overlap, particularly between tilapia and other species, suggesting potential competition for resources. Our findings suggest that black bass predation, introduced for recreational fishing, is contributing to the decline of tilapia fisheries, a crucial economic activity for local communities. We provide recommendations for managing this complex ecosystem, emphasising the importance of continuous monitoring and regulation to sustain both biodiversity and human livelihoods.
DOI: https://doi.org/10.5061/dryad.gxd2547xg
Description of the data and file structure
This dataset accompanies a study assessing the functional diversity, trophic structure, and fishing dynamics of the fish community in the Zimapán Reservoir, Mexico. The data are structured in three files:
- Stable_Isotopes.csv – Stable isotope values of fish muscle tissues.
- Ecomorphology.csv – Functional trait data based on morphological measurements.
- Fisheries.csv – Daily fishing catch records from the “13 de Junio” cooperative.
File: Stable_Isotopes.csv
Description: carbon (δ¹³C) and nitrogen (δ¹⁵N) isotope values from 90 individuals of ten fish species.
Variables:
- Species: Scientific name of each individual (e.g., Oreochromis spp., Lepomis macrochirus).
- Standard length (mm): Measured from snout to caudal peduncle.
- δ13C: Carbon isotopic ratio (‰), indicates the source of primary production in the food web.
- δ15N: Nitrogen isotopic ratio (‰), used to infer trophic position within the food web.
File: Ecomorphology.csv
Description: Functional trait data derived from 21 morphological measurements on adult individuals, following Villéger et al. (2010), and grouped into ecomorphological indices related to locomotion and food acquisition.
Variables:
- Species: Scientific name.
- Locomotion traits: The first 10 columns contain ecomorphological indices related to the locomotion function of fish.
- Food acquisition traits: The last 4 columns contain ecomorphological indices related to the food acquisition function of fish.
File: Fisheries.csv
Description: Daily fishing logbook data from 7,541 records collected between July 2019 and October 2023.
Variables:
- Year: Calendar year of catch (e.g., 2020).
- Month: Numerical month (1–12).
- Week: Week number within the year.
- Day: Day of the month.
- Species: All records correspond to Tilapia (Oreochromis spp.), the commercially important species.
- Kilograms: Total biomass (kg) caught per fisher, per day.