Abstract
Recent studies show that all marine bony fish produce mud-sized (<63 mu m) carbonate at rates relevant to carbonate sediment budgets, thus adding to the debate about the often enigmatic origins of fine-grained marine carbonates. However, existing production data are geographically and taxonomically limited, and because different fish families are now known to produce different carbonate polymorphsan issue relevant to predicting their preservation potential-these limitations represent an important knowledge gap. Here we present new data from sites in the Western Pacific Ocean, based on an analysis of 45 fish species. Our data show that previously reported production outputs (in terms of rates and family-specific mineralogies) are applicable across different biogeographic regions. On this basis, we model carbonate production for nine coral reef systems around Australia, with production rates averaging 2.1-9.6 g m(-2) yr(-1), and up to 105 g m(-2) yr(-1) at discrete sites with high fish biomass. With projected production rates on lower-latitude reefs up to two-fold higher, these outputs indicate that carbonate production rates by fish can be comparable with other fine-grained carbonate-producing taxa such as codiacean algae. However, carbonates produced by Australian reef fish assemblages are dominated by a highly unstable amorphous polymorph; a marked contrast to Caribbean assemblages in which Mg calcite dominates. These findings highlight important regional differences in the sedimentary relevance and preservation potential of fish carbonates as a function of historical biogeographic processes that have shaped the world's marine fish faunas.
Highlights
Shallow, warm marine carbonate settings are sites of prolific carbonate sediment production and accumulation (Schlager, 2003)
Evidence has emerged that all bony marine fishes precipitate mud-sized carbonates in their intestines (Walsh et al, 1991), and that these can be excreted at rates relevant to carbonate sediment budgets—especially in habitats with high fish biomass, such as coral reefs (Perry et al, 2011; Salter et al, 2017)
Carbonates from all fish comprised fine-grained particles with distinctive morphologies (Fig. 1), seemingly unique among marine carbonates and similar to those described in earlier fish carbonate studies from The Bahamas (Salter et al, 2012)
Summary
Warm marine carbonate settings are sites of prolific carbonate sediment production and accumulation (Schlager, 2003). We expand the range of teleost taxa for which production is documented to encompass 67 species (more than a three-fold increase over existing data) and 34 families (more than a two-fold increase). Integrating these new data with fish biomass data sets, we generate production models for nine coral reef systems in Australia. STUDY LOCATIONS AND METHODS Carbonate production by 45 Western Pacific members of 27 teleost fish families (Table DR1 in the GSA Data Repository1) was quantified at two locations in Queensland, Australia, during April/May 2014 and May 2015: Heron Reef (23°45′S, 151°92′E); and Moreton Bay (27°29′S, 153°24′E).
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