Inorganic carbon turnover caused by digestion of carbonate sands and metabolic activity of holothurians

Recent measurements have shown that holothurians (sea cucumbers) may play an important role in the cycling of CaCO3 in tropical coral reef systems through ingestion and processing of carbonate sediment. In this report, we present estimates of inorganic carbon turnover rates determined from laboratory incubations of Holothuria afro, Holothuria leucospilota and Stichopus herrmanni. The pH values of the gut lumen ranged from 7.0 to 7.6 when digestive tracts were filled with sediment compared with 6.1-6.7 in animals with empty digestive tracts. Empty gut volume estimates for H. afro and S. he; tmanni were 36 4 mL and 151 14 ml, respectively. Based on these measurements and the density and porosity of carbonate sediments of coral reefs, it is estimated that these species process 19 2 kg and 80 7 kg CaCO3 sand yr-1 per individual, respectively. The annual CaCO3 dissolution rates per H. aria and S. hei ',Lanni individual are estimated to be 6.5 1.9 g and 9.6 1.4 g, respectively, suggesting that 0.05 0.02% and 0.1 0.02% of the CaCO3 processed through their gut annually is dissolved. During incubations the CaCO3 dissolution of the fecal casts was 0.07 0.01%, 0.04 0.01% and 0.21 0.05% for H. aria, H. leucospilota and S. herrmanni, respectively. The CaCO3 saturation state in the incubation seawater decreased markedly due to a greater increase in dissolved inorganic carbon (DIC) relative to total alkalinity (AT) as a result of respiration by the animals. Our results support the hypothesis that deposit feeders such as sea cucumbers play an important ecological role in the coral reef CaCO3 cycle. (C) 2013 Elsevier Ltd. All rights reserved.