Abstract

BackgroundEnteropneusts are benthic marine invertebrates that belong to the deuterostome phylum Hemichordata. The two main clades of enteropneusts are defined by differences in early life history strategies. In the Spengelidae and Ptychoderidae, development is indirect via a planktotrophic tornaria larva. In contrast, development in the Harrimanidae is direct without an intervening larval life history stage. Most molecular studies in the development and evolution of the enteropneust adult body plan have been carried out in the harrimanid Saccoglossus kowalevskii. In order to compare these two developmental strategies, we have selected the spengelid enteropneust Schizocardium californicum as a suitable indirect developing species for molecular developmental studies. Here we describe the methods for adult collecting, spawning and larval rearing in Schizocardium californicum, and describe embryogenesis, larval development, and metamorphosis, using light microscopy, immunocytochemistry and confocal microscopy.ResultsAdult reproductive individuals can be collected intertidally and almost year-round. Spawning can be triggered by heat shock and large numbers of larvae can be reared through metamorphosis under laboratory conditions. Gastrulation begins at 17 h post-fertilization (hpf) and embryos hatch at 26 hpf as ciliated gastrulae. At 3 days post-fertilization (dpf), the tornaria has a circumoral ciliary band, mouth, tripartite digestive tract, protocoel, larval muscles and a simple serotonergic nervous system. The telotroch develops at 5 dpf. In the course of 60 days, the serotonergic nervous system becomes more elaborate, the posterior coeloms develop, and the length of the circumoral ciliary band increases. At the end of the larval stage, larval muscles disappear, gill slits form, and adult muscles develop. Metamorphosis occurs spontaneously when the larva reaches its maximal size (ca. 3 mm), and involves loss and reorganization of larval structures (muscles, nervous system, digestive tract), as well as development of adult structures (adult muscles, tripartite body organization).ConclusionsThis study will enable future research in S. californicum to address long standing questions related to the evolution of axial patterning mechanisms, germ layer induction, neurogenesis and neural patterning, the mechanisms of metamorphosis, the relationships between larval and adult body plans, and the evolution of metazoan larval forms.

Highlights

  • Enteropneusts are benthic marine invertebrates that belong to the deuterostome phylum Hemichordata

  • Schizocardium californicum was reported from this locality as Schizocardium sp. in two studies [48, 49], and the species was later formally described from specimens collected at another locality in southern California [50]

  • After spawning and until fertilization, the germinal vesicle is visible as a spot of lighter color

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Summary

Introduction

Enteropneusts are benthic marine invertebrates that belong to the deuterostome phylum Hemichordata. Enteropneusts are marine benthic worms with a tripartite body plan, divided along the anteroposterior (AP) axis into a preoral proboscis, a collar that encloses the buccal cavity, and a long trunk that comprises an anterior pharynx perforated by gill slits, the digestive tract and gonads In enteropneusts, this adult body plan can develop through two radically different developmental strategies, direct and indirect development [6, 10, 11]. This adult body plan can develop through two radically different developmental strategies, direct and indirect development [6, 10, 11] This diversity of life history strategies provides both challenges and opportunities for comparative developmental studies within the phylum, and with other metazoan phyla

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