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Data for: Transformation of dissolved organic matter by two Indo-Pacific sponges

Citation

Hildebrand, Tabea et al. (2022), Data for: Transformation of dissolved organic matter by two Indo-Pacific sponges, Dryad, Dataset, https://doi.org/10.5061/dryad.m0cfxpp6v

Abstract

Dissolved organic matter (DOM) is the largest organic carbon reservoir in the ocean and an integral component of biogeochemical cycles. The role of free-living microbes in DOM transformation has been studied thoroughly, whereas little attention has been directed towards the influence of benthic organisms. Sponges are efficient filter feeders and common inhabitants of many benthic communities circumglobally. In our study, we investigated how two tropical coral reef sponges shape marine DOM. We compared bacterial abundance, inorganic and organic nutrients in off reef, sponge inhalant, and sponge exhalant water of Melophlus sarasinorum and Rhabdastrella globostellata. DOM and bacterial cells were taken up, and dissolved inorganic nitrogen was released by the two Indo-Pacific sponges. Both sponge species utilized a common set of 142 of a total of 3040 compounds detected in DOM on a molecular formula level via ultrahigh-resolution mass spectrometry. In addition, species-specific uptake was observed, likely due to differences in their associated microbial communities. Overall, the sponges removed presumably semi-labile and semi-refractory compounds from the water column, thereby competing with pelagic bacteria. Within minutes, sponge holobionts altered the molecular composition of surface water DOM (inhalant) into a composition similar to deep-sea DOM (exhalent). The apparent radiocarbon age of DOM increased consistently from off reef and inhalant to exhalant by about 900 14C years for M. sarasinorum. In the pelagic, similar transformations require decades to centuries. Our results stress the dependence of DOM lability definition on the respective environment and illustrate that sponges are hotspots of DOM transformation in the ocean.

Here, we provide the data from this study. The four tables contain the metadata, bulk measurements of dissolved organic carbon (DOC), total dissolved nitrogen, NOx, and radiocarbon dating of DOC, bacterioplankton abundances measured with a flow cytometer, and relative peak intensities of molecular formulas obtained through Fourier-transform ion cyclotron resonance mass spectrometry and the online tool ICBM-OCEAN.

Funding

Niedersächsisches Ministerium für Wissenschaft und Kultur, Award: ZN3285

Volkswagen Foundation, Award: ZN3285