Data Paper. Data Paper

Abstract

<h2>File List</h2><blockquote> <p><a href="body_composition.txt">body_composition.txt</a> -- comma-delimited ASCII text file, 239 records not including header row.</p> <p><a href="size_to_mass_biometric_equations.txt">size_to_mass_biometric_equations.txt</a> -- comma-delimited ASCII text file, 199 records not including header row. </p> <p><a href="mass_to_mass_biometric_equations.txt">mass_to_mass_biometric_equations.txt</a> -- comma-delimited ASCII text file, 66 records not including header row. </p> </blockquote><h2>Description</h2><blockquote> <p>Many marine organisms have gelatinous bodies, but the trait is most common in the medusae (phylum Cnidaria), ctenophores (phylum Ctenophora), and the pelagic tunicates (phylum Chordata, class Thaliacea). Although there are taxonomic and trophic differences between the thaliaceans and the other two closely related phyla, the collective term "jellyfish" has been used within the framework of this article. Because of the apparent increase in bloom events, jellyfish are receiving greater attention from the wider marine science community. Questions being posed include: (1) what is the role of jellyfish in pelagic food webs in a changing environment, and (2) what is the role of jellyfish in large-scale biogeochemical processes such as the biological carbon pump? In order to answer such questions, fundamental data on body composition and biomass are required. The purpose of this data set was to compile proximate and elemental body composition and length–mass and mass–mass regressions for jellyfish (i.e., medusae, siphonophores, ctenophores, salps, doliolids, and pyrosomes) to serve as a baseline data set informing studies on biogeochemical cycling, food web dynamics, and ecosystem modeling, and physiology. Using mainly published data from 1932 to 2010, we have assembled three data sets: (1) body composition (wet, dry, and ash-free dry mass, C, N, P as a percentage of wet and dry mass, and C:N), (2) length–mass biometric equations, and (3) mass–mass biometric equations. The data sets represent a total of 102 species from six classes (20 Thaliacea, 2 Cubozoa, 33 Hydrozoa, 26 Scyphozoa, 17 Tentaculata, 4 Nuda) in three phyla. Where it exists, we have included supplementary data on location, salinity, whole animal or tissue type, measured size range, and where appropriate, the regression type with values of sample size, correlation coefficients (<i>r</i>, <i>r</i>²), and level of significance for the relationship. In addition to the raw unpublished data, we have provided summary tables of mean (± SD) body composition for the main taxonomic groups.</p> <p><i>Key words: biometric relationships; carbon; ctenophores; dry mass; Medusae; nitrogen; organic mass; proximate composition; salps</i>.</p> </blockquote