William Thorndyke scite author profile

The world's oceans are slowly becoming more acidic. In the last 150 yr, the pH of the oceans has dropped by ~0.1 units, which is equivalent to a 25% increase in acidity. Modelling predicts the pH of the oceans to fall by 0.2 to 0.4 units by the year 2100. These changes will have significant effects on marine organisms, especially those with calcareous skeletons such as echinoderms. Little is known about the possible long-term impact of predicted pH changes on marine invertebrate larval development. Here we predict the consequences of increased CO 2 (corresponding to pH drops of 0.2 and 0.4 units) on the larval development of the brittlestar Ophiothrix fragilis, which is a keystone species occurring in high densities and stable populations throughout the shelf seas of northwestern Europe (eastern Atlantic). Acidification by 0.2 units induced 100% larval mortality within 8 d while control larvae showed 70% survival over the same period. Exposure to low pH also resulted in a temporal decrease in larval size as well as abnormal development and skeletogenesis (abnormalities, asymmetry, altered skeletal proportions). If oceans continue to acidify as expected, ecosystems of the Atlantic dominated by this keystone species will be seriously threatened with major changes in many key benthic and pelagic ecosystems. Thus, it may be useful to monitor O. fragilis populations and initiate conservation if needed.

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Neural development of the brittlestar Amphiura filiformis

Dupont

Thorndyke

et al. 2009

Dev Genes Evol

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Comparative features of the development of the larval nervous system of ophiuroids have the potential for resolving aspects of echinoderm evolution. In Amphiura filiformis serotonergic neural progenitors appear in the animal plate of late gastrulae. The serotonergic progenitors increase in number and become displaced to the aboral ectoderm side of the developing ciliary band. The ciliary band neurons appear as irregularly spaced neural progenitors on the oral side of the ciliary band lateral to the mouth. These cells extend neurites along the axis of the ciliary band, which meet at the center of the ventral transverse ciliary band. The larval nervous system begins as a U-shaped tract of axons that surrounds the oral field and tracts of axons and neurons in the ciliary bands of the larval arms are added. In addition, the larval nervous system has an extensive pre-oral neuropil, rings of nerves surrounding the anus and pyloric sphincters, and a plexus of axons that surround the esophagus. The nervous system of the juvenile develops beneath the oral ectoderm. The components of the adult nervous system: five segments of radial nerve, commissures that form the nerve ring, and podial nerves all appear as the juvenile develops. The larval nervous system begins to fragment and degenerate as the juvenile grows. The complete description of neural development of an ophiuroid reveals that the four classes so far investigated are consistent with phylogenies based on adult features and comparisons of neural organization help rationalize conflicting hypotheses of the evolution of larval forms in echinoderms.

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Seawater carbonate chemistry and morphometric coordinates and morphology of the control 8-arm pluteus of brittlestar Ophiothrix fragilis, 2008

Dupont¹,

Havenhand²,

Thorndyke³

et al. 2008

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