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You are here:   animal list > Sagitta tasmanica and other chaetognaths

Chaetognatha

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                   CHAETOGNATHA

                          Arrow Worms

Michael Le Roux (2011)

Fact Sheet

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Overview

General Information


Physical Description

Body


Identification Resources


Ecology

Distribution


Life History & Behaviour

Behaviour


Reproduction


Evolution & Systematics

Fossil History


Systematics or Phylogenetics


Morphology and Physiology

External Morphology


Internal Anatomy


Molecular Biology & Genetics

Nucleotide Sequences


Molecular Biology


Conservation

Trends


Threats


Wikipedia


References & More Information

Content Partners


Bibliographies


Names & Taxonomy

Species List


Common Names


Page Statistics

Content Summary

External Morphology

The general shape of a chaetognath resembles an arrow (VIMS) This arrow-shape is made up of a long shaft-like body, with either one or two pairs of fins (may be partially or completely rayed (SERTC)), and a caudal fin, that resemble the feathers of an arrow.

On their head, chaetognaths possess multiple pairs of grasping spines, which may or may not serrate (fig 1 & 2). Chaetognaths also commonly have two paired rows of teeth, although some may three, whilst others are known to have only one or even none (fig 3 & 4) (Szaniawski 2002, Foster 2006). For species that have two pairs, the posterior teeth are more numerous and usually also longer than the anterior, as well as been a different shape. The primary use of the grasping spines is to capture prey, whilst the teeth are believed to puncture the prey to allow for the penetration of toxins (Foster 2006). As the grasping spines are solid, and therefore cannot inject toxin into prey, it is hypothesized that the papillary pores (located next to the posterior teeth) may be where the toxin is being produced or stored (Foster 2006). All chaetognaths also have a hood, which completely covers the head to give the body a streamlined shape whilst swimming (Foster 2006).

The fins (fig 5) of chaetognaths are composed of epidermal folds, and provide more services than just propulsion and directional control. In some species, the fins may be used to brood eggs once fertilised, and for adult chaetognaths, the fins may be filled with a gel-like substance that assists to offset the weight their gonads (Foster 2006).


Figure 1: SEM view of a non-serrated grasping spine.


Figure 2: SEM view of the structure of a grasping spine.


Figure 3: SEM view of posterior and anterior teeth of a chaetognath.


Figure 4: SEM view of posterior and anterior teeth of a different species of chaetognath.


Figure 5: Dissection microscope view of the caudal fin of a chaetognath.

Classification

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