Grazing under experimental hypercapnia and elevated temperature does not affect the radula of a chiton (Mollusca, Polyplacophora, Lepidopleurida)

Chitons (class Polyplacophora) are benthic grazing molluscs with an eight-part aragonitic shell armature. The radula, a serial tooth ribbon that extends internally more than half the length of the body, is mineralised on the active feeding teeth with iron magnetite apparently as an adaptation to con...

Full description

Bibliographic Details
Published in:Marine Environmental Research
Main Authors: Sigwart, Julia D., Carey, Nicholas
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Lepidopleurida chiton
Ocean acidification radula
Biomineralisation
Grazing molluscs
OCEAN ACIDIFICATION
ACANTHOPLEURA-ECHINATA
MYTILUS-EDULIS
TEETH
MINERALIZATION
MAGNETITE
SEAWATER
/dk/atira/pure/sustainabledevelopmentgoals/life_below_water
SDG 14 - Life Below Water
Ocean acidification
Online Access:https://pure.qub.ac.uk/en/publications/grazing-under-experimental-hypercapnia-and-elevated-temperature-does-not-affect-the-radula-of-a-chiton-mollusca-polyplacophora-lepidopleurida(f2bf9b68-c236-4bec-8db9-d6d4b221e2cf).html
https://doi.org/10.1016/j.marenvres.2014.05.004
Description
Summary:Chitons (class Polyplacophora) are benthic grazing molluscs with an eight-part aragonitic shell armature. The radula, a serial tooth ribbon that extends internally more than half the length of the body, is mineralised on the active feeding teeth with iron magnetite apparently as an adaptation to constant grazing on rocky substrates. As the anterior feeding teeth are eroded they are shed and replaced with a new row. The efficient mineralisation and function of the radula could hypothetically be affected by changing oceans in two ways: changes in seawater chemistry (pH and pCO(2)) may impact the biomineralisation pathway, potentially leading to a weaker or altered density of the feeding teeth; rising temperatures could increase activity levels in these ectothermic animals, and higher feeding rates could increase wear on the feeding teeth beyond the animals' ability to synthesise, mineralise, and replace radular rows. We therefore examined the effects of pH and temperature on growth and integrity in the radula of the chiton Leptochiton asellus. Our experiment implemented three temperature (similar to 10, 15, 20 degrees C) and two pCO(2) treatments (similar to 400 mu atm, pH 8.0; similar to 2000 mu atm, pH 7.5) for six treatment groups. Animals (n = 50) were acclimated to the treatment conditions for a period of 4 weeks. This is sufficient time for growth of ca. 7-9 new tooth rows or 20% turnover of the mineralised portion. There was no significant difference in the number of new (non-mineralised) teeth or total tooth row count in any treatment. Examination of the radulae via SEM revealed no differences in microwear or breakage on the feeding cusps correlating to treatment groups. The shell valves also showed no signs of dissolution. As a lineage, chitons have survived repeated shifts in Earth's climate through geological time, and at least their radulae may be robust to future perturbations.

Similar Items