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Biomineralization: Integrating mechanism and evolutionary history

Pupa U. P. A. Gilbert, Kristin Bergmann, Nicholas Boekelheide, Sylvie Tambutté, Tali Mass, Frédéric Marin, Jess F. Adkins, Jonathan Erez, Benjamin Gilbert, Vanessa Knutson, Marjorie Cantine, Javier Ortega‐Hernández, Andrew H. Knoll

2022Science Advances305 citationsDOIOpen Access PDF

Abstract

Calcium carbonate (CaCO 3 ) biomineralizing organisms have played major roles in the history of life and the global carbon cycle during the past 541 Ma. Both marine diversification and mass extinctions reflect physiological responses to environmental changes through time. An integrated understanding of carbonate biomineralization is necessary to illuminate this evolutionary record and to understand how modern organisms will respond to 21st century global change. Biomineralization evolved independently but convergently across phyla, suggesting a unity of mechanism that transcends biological differences. In this review, we combine CaCO 3 skeleton formation mechanisms with constraints from evolutionary history, omics, and a meta-analysis of isotopic data to develop a plausible model for CaCO 3 biomineralization applicable to all phyla. The model provides a framework for understanding the environmental sensitivity of marine calcifiers, past mass extinctions, and resilience in 21st century acidifying oceans. Thus, it frames questions about the past, present, and future of CaCO 3 biomineralizing organisms.

Topics & Concepts

BiomineralizationMechanism (biology)Evolutionary biologyComputer scienceBiologyComputational biologyData sciencePaleontologyEpistemologyPhilosophyCalcium Carbonate Crystallization and InhibitionPaleontology and Stratigraphy of FossilsCephalopods and Marine Biology
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