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Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers

Elemental ratios in biogenic marine calcium carbonates are widely used in geobiology, environmental science, and paleoenvironmental reconstructions. It is generally accepted that the elemental abundance of biogenic marine carbonates reflects a combination of the abundance of that ion in seawater, th...

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Autores principales: Ulrich, Robert N., Guillermic, Maxence, Campbell, Julia, Hakim, Abbas, Han, Rachel, Singh, Shayleen, Stewart, Justin D., Román-Palacios, Cristian, Carroll, Hannah M., De Corte, Ilian, Gilmore, Rosaleen E., Doss, Whitney, Tripati, Aradhna, Ries, Justin B., Eagle, Robert A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9645792/
https://www.ncbi.nlm.nih.gov/pubmed/36381649
http://dx.doi.org/10.3389/feart.2021.641760
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author Ulrich, Robert N.
Guillermic, Maxence
Campbell, Julia
Hakim, Abbas
Han, Rachel
Singh, Shayleen
Stewart, Justin D.
Román-Palacios, Cristian
Carroll, Hannah M.
De Corte, Ilian
Gilmore, Rosaleen E.
Doss, Whitney
Tripati, Aradhna
Ries, Justin B.
Eagle, Robert A.
author_facet Ulrich, Robert N.
Guillermic, Maxence
Campbell, Julia
Hakim, Abbas
Han, Rachel
Singh, Shayleen
Stewart, Justin D.
Román-Palacios, Cristian
Carroll, Hannah M.
De Corte, Ilian
Gilmore, Rosaleen E.
Doss, Whitney
Tripati, Aradhna
Ries, Justin B.
Eagle, Robert A.
author_sort Ulrich, Robert N.
collection PubMed
description Elemental ratios in biogenic marine calcium carbonates are widely used in geobiology, environmental science, and paleoenvironmental reconstructions. It is generally accepted that the elemental abundance of biogenic marine carbonates reflects a combination of the abundance of that ion in seawater, the physical properties of seawater, the mineralogy of the biomineral, and the pathways and mechanisms of biomineralization. Here we report measurements of a suite of nine elemental ratios (Li/Ca, B/Ca, Na/Ca, Mg/Ca, Zn/Ca, Sr/Ca, Cd/Ca, Ba/Ca, and U/Ca) in 18 species of benthic marine invertebrates spanning a range of biogenic carbonate polymorph mineralogies (low-Mg calcite, high-Mg calcite, aragonite, mixed mineralogy) and of phyla (including Mollusca, Echinodermata, Arthropoda, Annelida, Cnidaria, Chlorophyta, and Rhodophyta) cultured at a single temperature (25°C) and a range of pCO(2) treatments (ca. 409, 606, 903, and 2856 ppm). This dataset was used to explore various controls over elemental partitioning in biogenic marine carbonates, including species-level and biomineralization-pathway-level controls, the influence of internal pH regulation compared to external pH changes, and biocalcification responses to changes in seawater carbonate chemistry. The dataset also enables exploration of broad scale phylogenetic patterns of elemental partitioning across calcifying species, exhibiting high phylogenetic signals estimated from both uni- and multivariate analyses of the elemental ratio data (univariate: λ = 0–0.889; multivariate: λ = 0.895–0.99). Comparing partial R(2) values returned from non-phylogenetic and phylogenetic regression analyses echo the importance of and show that phylogeny explains the elemental ratio data 1.4–59 times better than mineralogy in five out of nine of the elements analyzed. Therefore, the strong associations between biomineral elemental chemistry and species relatedness suggests mechanistic controls over element incorporation rooted in the evolution of biomineralization mechanisms.
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spelling pubmed-96457922022-11-14 Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers Ulrich, Robert N. Guillermic, Maxence Campbell, Julia Hakim, Abbas Han, Rachel Singh, Shayleen Stewart, Justin D. Román-Palacios, Cristian Carroll, Hannah M. De Corte, Ilian Gilmore, Rosaleen E. Doss, Whitney Tripati, Aradhna Ries, Justin B. Eagle, Robert A. Front Earth Sci (Lausanne) Article Elemental ratios in biogenic marine calcium carbonates are widely used in geobiology, environmental science, and paleoenvironmental reconstructions. It is generally accepted that the elemental abundance of biogenic marine carbonates reflects a combination of the abundance of that ion in seawater, the physical properties of seawater, the mineralogy of the biomineral, and the pathways and mechanisms of biomineralization. Here we report measurements of a suite of nine elemental ratios (Li/Ca, B/Ca, Na/Ca, Mg/Ca, Zn/Ca, Sr/Ca, Cd/Ca, Ba/Ca, and U/Ca) in 18 species of benthic marine invertebrates spanning a range of biogenic carbonate polymorph mineralogies (low-Mg calcite, high-Mg calcite, aragonite, mixed mineralogy) and of phyla (including Mollusca, Echinodermata, Arthropoda, Annelida, Cnidaria, Chlorophyta, and Rhodophyta) cultured at a single temperature (25°C) and a range of pCO(2) treatments (ca. 409, 606, 903, and 2856 ppm). This dataset was used to explore various controls over elemental partitioning in biogenic marine carbonates, including species-level and biomineralization-pathway-level controls, the influence of internal pH regulation compared to external pH changes, and biocalcification responses to changes in seawater carbonate chemistry. The dataset also enables exploration of broad scale phylogenetic patterns of elemental partitioning across calcifying species, exhibiting high phylogenetic signals estimated from both uni- and multivariate analyses of the elemental ratio data (univariate: λ = 0–0.889; multivariate: λ = 0.895–0.99). Comparing partial R(2) values returned from non-phylogenetic and phylogenetic regression analyses echo the importance of and show that phylogeny explains the elemental ratio data 1.4–59 times better than mineralogy in five out of nine of the elements analyzed. Therefore, the strong associations between biomineral elemental chemistry and species relatedness suggests mechanistic controls over element incorporation rooted in the evolution of biomineralization mechanisms. 2021 2021-05-04 /pmc/articles/PMC9645792/ /pubmed/36381649 http://dx.doi.org/10.3389/feart.2021.641760 Text en https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY) (https://creativecommons.org/licenses/by/4.0/) . The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Article
Ulrich, Robert N.
Guillermic, Maxence
Campbell, Julia
Hakim, Abbas
Han, Rachel
Singh, Shayleen
Stewart, Justin D.
Román-Palacios, Cristian
Carroll, Hannah M.
De Corte, Ilian
Gilmore, Rosaleen E.
Doss, Whitney
Tripati, Aradhna
Ries, Justin B.
Eagle, Robert A.
Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title_full Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title_fullStr Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title_full_unstemmed Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title_short Patterns of Element Incorporation in Calcium Carbonate Biominerals Recapitulate Phylogeny for a Diverse Range of Marine Calcifiers
title_sort patterns of element incorporation in calcium carbonate biominerals recapitulate phylogeny for a diverse range of marine calcifiers
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9645792/
https://www.ncbi.nlm.nih.gov/pubmed/36381649
http://dx.doi.org/10.3389/feart.2021.641760
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