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Li et al., 2024

Tubule system of earliest shells as a defense against increasing microbial attacks

Li, L., Topper, T. P., Betts, M. J., Altanshagai, G., Enkhbaatar, B., Li, G., Li, S., Skovsted, C. B., Cui, L., Zhang, X.
DOI
DOI10.1016/j.isci.2024.109112
Aasta2024
AjakiriiScience
Köide27
Number3
Leheküljed109112
Tüüpartikkel ajakirjas
Keelinglise
Id49096

Abstrakt

The evolutionary mechanism behind the early Cambrian animal skeletonization was a complex and multifaceted process involving environmental, ecological, and biological factors. Predation pressure, oxygenation, and seawater chemistry change have frequently been proposed as the main drivers of this biological innovation, yet the selection pressures from microorganisms have been largely overlooked. Here we present evidence that calcareous shells of the earliest mollusks from the basal Cambrian (Fortunian Age, ca. 539–529 million years ago) of Mongolia developed advanced tubule systems that evolved primarily as a defensive strategy against extensive microbial attacks within a microbe-dominated marine ecosystem. These high-density tubules, comprising approximately 35% of shell volume, enable nascent mineralized mollusks to cope with increasing microbial bioerosion caused by boring endolithic cyanobacteria, and hence represent an innovation in shell calcification. Our finding demonstrates that enhanced microboring pressures played a significant role in shaping the calcification of the earliest mineralized mollusks during the Cambrian Explosion.

Viimati muudetud: 2.4.2024
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