Saved in:
Bibliographic Details
Main Authors: Castillo Alvarez, Cristina, Hathorne, Edmund, Clog, Matthieu, Finch, Adrian, Kröger, Roland, Penkman, Kirsty, Allison, Nicola
Format: Artículo científico
Language:en
Published: Communications earth & environment 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/41323748/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266119874215936
author Castillo Alvarez, Cristina
Hathorne, Edmund
Clog, Matthieu
Finch, Adrian
Kröger, Roland
Penkman, Kirsty
Allison, Nicola
author_facet Castillo Alvarez, Cristina
Hathorne, Edmund
Clog, Matthieu
Finch, Adrian
Kröger, Roland
Penkman, Kirsty
Allison, Nicola
Castillo Alvarez, Cristina
Hathorne, Edmund
Clog, Matthieu
Finch, Adrian
Kröger, Roland
Penkman, Kirsty
Allison, Nicola
collection PubMed - marine biology
contents Aragonite lithium/magnesium as an indicator of calcification media saturation state in marine calcifiers. Castillo Alvarez, Cristina Hathorne, Edmund Clog, Matthieu Finch, Adrian Kröger, Roland Penkman, Kirsty Allison, Nicola Marine calcifiers support ecosystem services, including shell fisheries and coral reefs. Constraining the saturation state of the calcification media of these organisms is essential to understand the response of biomineralisation to environmental change. Here we synthesise aragonite over variable pH, saturation state, temperature, and in the presence of simple biomolecules. We show that the lithium/magnesium distribution coefficient, relating aragonite and precipitation fluid compositions, is significantly affected by precipitation rate but not by temperature or pH. Precipitation rate reflects saturation state and temperature, so lithium/magnesium of biogenic aragonite can be used to calculate mineral precipitation rate and, if the precipitation temperature is known, to reconstruct calcification medium saturation state. Applying the distribution coefficients to a published calcifier dataset indicates that calcification media saturation state is . 9 to 13 at 18-30 °C and . 6 to 10 at 10-18 °C. Coral calcification media saturation state varies between ocean sites, species, and reef zones.
format Artículo científico
id pubmed_41323748
institution PubMed
language en
publishDate 2025
publisher Communications earth & environment
record_format pubmed
spellingShingle Aragonite lithium/magnesium as an indicator of calcification media saturation state in marine calcifiers.
Castillo Alvarez, Cristina
Hathorne, Edmund
Clog, Matthieu
Finch, Adrian
Kröger, Roland
Penkman, Kirsty
Allison, Nicola
Aragonite lithium/magnesium as an indicator of calcification media saturation state in marine calcifiers. Castillo Alvarez, Cristina Hathorne, Edmund Clog, Matthieu Finch, Adrian Kröger, Roland Penkman, Kirsty Allison, Nicola Marine calcifiers support ecosystem services, including shell fisheries and coral reefs. Constraining the saturation state of the calcification media of these organisms is essential to understand the response of biomineralisation to environmental change. Here we synthesise aragonite over variable pH, saturation state, temperature, and in the presence of simple biomolecules. We show that the lithium/magnesium distribution coefficient, relating aragonite and precipitation fluid compositions, is significantly affected by precipitation rate but not by temperature or pH. Precipitation rate reflects saturation state and temperature, so lithium/magnesium of biogenic aragonite can be used to calculate mineral precipitation rate and, if the precipitation temperature is known, to reconstruct calcification medium saturation state. Applying the distribution coefficients to a published calcifier dataset indicates that calcification media saturation state is . 9 to 13 at 18-30 °C and . 6 to 10 at 10-18 °C. Coral calcification media saturation state varies between ocean sites, species, and reef zones.
title Aragonite lithium/magnesium as an indicator of calcification media saturation state in marine calcifiers.
url https://pubmed.ncbi.nlm.nih.gov/41323748/