Ocean acidification affects calcareous tube growth in adults and reared offspring of serpulid polychaetes

The energetically costly transition from free-swimming larvae to a benthic life stage and maintenance of a calcareous structure can make calcifying marine invertebrates vulnerable to ocean acidification. The first goal of this study was to evaluate the impact of ocean acidification on calcified tube...

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Bibliographic Details
Published in:Journal of Experimental Biology
Main Authors: Díaz-Castañeda, Victoria, Cox, T. Erin, Gazeau, Frédéric, Fitzer, Susan, Delille, Jérémy, Alliouane, Samir, Gattuso, Jean-Pierre
Format: Text
Language:English
Published: The Company of Biologists Ltd 2019
Subjects:
RESEARCH ARTICLE
Ocean acidification
Online Access:http://jeb.biologists.org/cgi/content/short/222/13/jeb196543
https://doi.org/10.1242/jeb.196543
Description
Summary:The energetically costly transition from free-swimming larvae to a benthic life stage and maintenance of a calcareous structure can make calcifying marine invertebrates vulnerable to ocean acidification. The first goal of this study was to evaluate the impact of ocean acidification on calcified tube growth for two Serpulidae polychaete worms. Spirorbis sp. and Spirobranchus triqueter were collected at 11 m depth from the northwest Mediterranean Sea and maintained for 30 and 90 days at three mean pH T levels (total scale): 8.1 (ambient), 7.7 and 7.4. Moderately decreased tube elongation rates were observed in both species at pH T 7.7 while severe reductions occurred at pH T 7.4. There was visual evidence of dissolution and tubes were more fragile at lower pH but fragility was not attributed to changes in fracture toughness. Instead, it appeared to be due to the presence of larger alveoli covered in a thinner calcareous layer. The second objective of this study was to test for effects on S. triqueter offspring development. Spawning was induced, and offspring were reared in the same pH conditions that the parents experienced. Trochophore size was reduced at the lowest pH level but settlement success was similar across pH conditions. Post-settlement tube growth was most affected. At 38 days post-settlement, juvenile tubes at pH T 7.7 and 7.4 were half the size of those at pH T 8.1. The results suggest future carbonate chemistry will negatively affect the initiation and persistence of both biofouling and epiphytic polychaete tube worms.

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