Abstract
AbstractThe inflow of terrestrial groundwater into the ocean is increasingly recognized as an important local source of nutrients and pollutants to coastal ecosystems. Although there is evidence of a link between fresh submarine groundwater discharge (SGD)‐derived nutrients and primary producer and primary consumer abundances, the effects of fresh SGD on the productivity of higher trophic levels such as ichthyofaunal communities remain unclear. To further investigate this relationship, we sampled three sites inside a coral reef lagoon in Mauritius: One site entailing six distinct groundwater springs, a site highly influenced by freshwater influx through the springs, and a strictly marine control site. Using remote underwater video surveys, we found that fish abundances were significantly higher at the groundwater springs than at the other two sampling sites.Principal component analyses showed that the springs and the spring‐influenced part of the lagoon were best described by elevated water nutrient loadings, whereas the control site was characterized by higher water salinity and pH. Macroalgae cover was highest at the control site and the springs. Herbivores and invertivores dominated the fish community at the springs, in contrast to generalists at the control site. At the spring‐influenced site, we mainly encountered high coral/turf algae cover and high abundances of associated fish feeding groups (territorial farmers, corallivores). Our results provide evidence of a fresh SGD‐driven relationship between altered hydrography and distinct fish communities with elevated abundances at groundwater springs in a coral reef lagoon. These findings suggest that the management and assessment of secondary consumer productivity in tropical lagoons should take into account the effects of groundwater springs.
Highlights
Nutrient input to the coastal ocean is attributed mainly to terrestrial runoff and river discharge (Fabricius, 2005; Jickells, 1998)
Using remote underwater video surveys, we found that fish abundances were significantly higher at the groundwater springs than at the other two sampling sites.Principal component analyses showed that the springs and the spring-influenced part of the lagoon were best described by elevated water nutrient loadings, whereas the control site was characterized by higher water salinity and pH
Fresh submarine groundwater discharge (SGD) amounts to only a small percentage of river discharge (Luijendijk, Gleeson, & Moosdorf, 2020; Taniguchi, Burnett, Cable, & Turner, 2002) tropical coasts export more than 56% of all fresh SGD (Zhou, Sawyer, David, & Famiglietti, 2019)
Summary
Nutrient input to the coastal ocean is attributed mainly to terrestrial runoff and river discharge (Fabricius, 2005; Jickells, 1998). Fresh SGD may contain higher nutrient, carbon, and metal concentrations than rivers and act as a major nutrient source for various coastal ecosystems, such as coral reefs, estuaries, seagrass beds, and other near coastal communities (Johannes, 1980; Johannes & Hearn, 1985; Moore, 2010; Paytan et al, 2006; Santos et al, 2009). Despite their high productivity, coral reefs are generally oligotrophic ecosystems (Sammarco, Risk, Schwarcz, & Heikoop, 1999). We collected baseline data on water salinity, pH, and nutrient concentrations, benthos composition, and total suspended solids to determine the effects of fresh SGD on lagoonal hydrography
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