Saccoglossus kowalevskii (Agassiz, 1873)

Saccoglossus kowalevskii View in CoL : dorsal kink stage

Embryos at this stage are of elongate shape measuring approximately 700 μm in maximum length ( Fig. 6a View Fig ). The anterior proboscis region is of ovoid shape with a tapering anterior tip and is subdivided from the posterior body regions by a deep circular constriction ( Fig. 6a, d View Fig ). The proboscis region is covered by short cilia, whereas at the anterior tip, a ciliary tuft composed of long cilia is present ( Fig. 6a, c, d View Fig ). A second, yet shallow circular groove is discernable within the prospective collar region ( Fig. 6d View Fig ). The opisthotroch is composed of compound cilia of multiciliary cells and demarcates the posterior perianal field ( Fig. 6a, d View Fig ).

Serotonin-LIR reveals the presence of several bipolar neurons that are located circumferentially around the midlevel of the proboscis region ( Fig. 6a View Fig ). These bipolar neurons project a proximal neurite into a basiepidermal plexus of the proboscis region. A distal neurite connects to the apical cell surface where a single cilium is present. α- Tubulin-LIR reveals an apical ciliary tuft at the anterior tip; yet, no serotonin-LIR somata are detectable within the apical region close to the apical tuft ( Fig. 6a, c View Fig ). Throughout the prospective collar and trunk region, basiepidermal serotonin-LIR neurites form a loose network that thins out posteriorly into individual neurites within the perianal field ( Fig. 6b View Fig ). No traces of a serotonin-LIR opisthotroch neurite bundle are present within the trunk region, although tubulin staining reveals the existence of an opisthotroch ( Fig. 6a View Fig ).

S. kowalevskii : 1-gill-slit hatchling

The 1-gill-slit hatchling measures between 800 μm and 1 mm in length when fully expanded ( Fig. 6e, h View Fig ). The animals exhibit a conical proboscis with an apical tuft composed of long cilia at the anterior tip ( Fig. 6f, h View Fig ). The opisthotroch is present within the trunk region, just posterior to the position of the first pair of dorsolateral gill pores ( Fig. 6h View Fig ). The posterior trunk region including the perianal field is elongated ventrally to a total length of 150 μm ( Fig. 6e, h View Fig ).

In transmission electron micrographs, numerous basiepidermal neurites of different diameters, exhibiting oblique to oval profiles, are present in 1-gill-slit hatchlings of S. kowalevkii ( Fig. 7a–c View Fig ). The high number of neurites composes a continuous and circumferential neurite layer of 2- to 4-μm thickness ( Fig. 7b, c View Fig ).

S. kowalevskii : 3-gill-slit juvenile

The juveniles at this stage of development resemble the adult acorn worms in many aspects ( Fig. 6k, l View Fig ). Obvious differences are a lower number of gill slits and the presence of the postanal tail, a feature only present in juvenile acorn worms of the family Harrimaniidae ( Cameron 2005; Stach and Kaul 2012). Scanning electron micrographs of the anterior tip of

the proboscis show that the former ciliary tuft is degraded ( Fig. 6k, l View Fig ). The opisthotroch is partially altered and has transformed into a ventral creeping sole.

Within the proboscis and collar region, a serotonin-LIR basiepidermal plexus is present. The concentration of neurites is denser at the dorsoposterior base of the proboscis, constituting the proboscis plexus ( Fig. 6k, o View Fig ). Serotonin-LIR bipolar neurons are distributed throughout the epidermis of the proboscis with the exception of the most anterior region. Each soma has a bulbous central part containing the nucleus and a slender distal neurite reaching the apical cell surface, where a single cilium is present ( Fig. 6n View Fig ). Basally from the bulbous part, each soma sends a proximal neurite into the basiepidermal plexus. The dorsal proboscis stem sends two serotonin-LIR neurite bundles posteriorly into the subepidermal collar cord, thereby passing the proboscis neck region. At the posterior end of the collar region, the serotonin-LIR becomes superficial again and continues into a dorsal neurite bundle ( Fig. 6m, o View Fig ). Unlike B. misakiensis , S. kowalevskii lacks mesocoelic pores as well as a prebranchial nerve ring at this stage of development. A vast number of serotonin-LIR bipolar neurons are present within the epidermis of the anterior half of the collar region ( Fig. 6k, o View Fig ). The architecture of the serotonin-LIR nervous system within the trunk region differs considerably from that described for the preceding hatchling stage. Serotonin-LIR is present in a longitudinal ventral as well as dorsal neurite bundle along the trunk region ( Fig. 6k, m View Fig ). The ventral bundle is more extensive and extends to the posterior end of the postanal tail. The dorsal serotonin-LIR neurite bundle is less voluminous and is composed of few neurites only. It runs along the dorsal midline to the anus, with an interruption of the serotonin-LIR signal in the middle region of the trunk ( Fig. 6k, m View Fig ). Several serotonin-LIR bipolar neurons are present within the trunk region ( Fig. 6m View Fig ). The majority of the somata are located dorsolaterally, sending a proximal neurite into the ventral nerve cord ( Fig. 6m View Fig ). The number of serotonin-LIR somata in the trunk region is particularly low compared to the collar and proboscis region. Between the gill pores, a higher density of serotonin-LIR neurons is present. Notably, serotonin-LIR does not show a plexus-like pattern in the trunk region as in earlier stages.

Ultrastructural investigations of transmission electron micrographs of a 2-gill-slit juvenile show that only scattered neurites are present below the one-layered epidermis ( Fig. 7d–f View Fig ). The majority of neurites is concentrated within the dorsal and ventral nerve cord (read also Kaul and Stach 2010).