Abstract
To examine N-isotope ratios (15N/14N) in tissues and shell organic matrix of bivalves as a proxy for natural and anthropogenic nutrient fluxes in coastal environments, Pinctada imbricata, Isognomon alatus, and Brachidontes exustusbivalves were live-collected and analyzed from eight sites in Bocas del Toro, Panama. Sites represent a variety of coastal environments, including more urbanized, uninhabited, riverine, and oceanic sites. Growth under differing environmental conditions is confirmed by δ18O values, with open ocean Escudo de Veraguas shells yielding the highest average δ18O (−1.0‰) value and freshwater endmember Rio Guarumo the lowest (−1.7‰). At all sites there is no single dominant source of organic matter contributing to bivalve δ15N and δ13C values. Bivalve δ15N and δ13C values likely represent a mixture of mangrove and seagrass N and C, although terrestrial sources cannot be ruled out. Despite hydrographic differences between end-members, we see minimal δ15N and δ13C difference between bivalves from the river-influenced Rio Guarumo site and those from the oceanic Escudo de Veraguas site, with no evidence for N from open-ocean phytoplankton in the latter. Populated sites yield relative 15N enrichments suggestive of anthropogenic nutrient input, but low δ15N values overall make this interpretation equivocal. Lastly, δ15N values of tissue and shell organic matrix correlate significantly for pterioideans P. imbricata and I. alatus. Thus for these species, N isotope studies of historical and fossil shells should provide records of ecology of past environments.
Highlights
Deforestation of rainforest and mangrove forest, pollution from industrial farming, and wastewater influx from a growing human population are contributing to the eutrophication of coastal ecosystems in the Bocas del Toro Archipelago of Panama (Cramer, 2013; Aronson et al, 2014; Schlöder, O’Dea & Guzmán, 2013)
Analysis of variance indicated that at 95% confidence, there was no significant difference between mean δ15N values (F = 2.69, df = 3, p = 0.06) or mean δ13C values (F = 2.34, df = 3, p = 0.09) between tissue types for P. imbricata, there was a significant difference in mean δ15N values (F = 10.44, df = 3, p
No single dominant source of organic matter contributes to δ15N and δ13C values in shallow-water mollusk tissues from Bocas del Toro
Summary
Deforestation of rainforest and mangrove forest, pollution from industrial farming, and wastewater influx from a growing human population are contributing to the eutrophication of coastal ecosystems in the Bocas del Toro Archipelago of Panama (Cramer, 2013; Aronson et al, 2014; Schlöder, O’Dea & Guzmán, 2013). This anthropogenic influence creates changes in nutrient conditions and habitat that result in significant detrimental impacts on coastal marine biodiversity, fisheries, and tourism (e.g., Jackson, 2001; Jackson et al, 2001; Lin & Dushoff, 2004; Seemann et al, 2014). One way to characterize spatial and temporal variations in carbon and nitrogen sources to this and other coastal marine ecosystems is through the stable isotopes that are assimilated by, and accumulate in, coastal marine organisms (e.g., Torres-Rojas et al, 2014; Fertig, Carruthers & Dennison, 2014)
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