Abstract
Tropical seagrass beds are productive coastal ecosystems that are important blue carbon sinks and crucial habitats and feeding grounds for consumers at high trophic levels. To understand how energy sustains the ecosystem from seagrass production, we constructed an Ecopath trophic model to reveal the possible pathways of energy flow in the tropical seagrass beds around Dongsha Island, South China Sea. The model indicates that Dongsha seagrass beds were developing but well-structured ecosystems. The productive seagrasses were rarely directly consumed by herbivores and, ultimately, flowed into detrital pools. Detritus was the main food source used to support diverse consumers in the food web. Nevertheless, the low cycling rate (2.74%) suggests that most detritus was not reused or exported and was stored as a large organic carbon pool in the sediments. The detritus-feeding invertebrates are keystone groups in the Dongsha seagrass beds, as they recycle energy from detritus and transfer to top predators such as sharks. The predation of top predators affected the biomasses of other compartments, leading to strong top-down control via a trophic cascade effect.
Highlights
Tropical seagrass beds may serve many ecological functions
Dongsha Island is dominated by a tropical climate and water temperatures around the island average 27.6 ◦ C, the intense northeast monsoons from October to early March can markedly reduce the water temperature to 19 ◦ C
A 30% increase in Q/B would result in only an approximate 4% increase in the estimated EE values of its prey groups, suggesting that the biomass and production/total biomass (P/B) values were more sensitive in determining the EE values in our model and that our model was reliable, as the biomass and P/B values were derived mostly from locally reliable data
Summary
Tropical seagrass beds may serve many ecological functions. High primary production can fix a large amount of CO2 into their biomass [1,2]. They can provide a major source of organic matter in coastal areas after littering [3,4]. They are recognized as crucial habitats or nursery grounds for marine animals [5,6]. Tropical seagrass beds can support abundant and diverse resources for coastal fisheries [5,7]. The structure and functioning of tropical seagrass beds remain unclear
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