AI Article Synopsis
- - The study examines how ocean acidification (OA) affects the concentration boundary layer (CBL) around reef-building corals under different water flow conditions, using three coral species as subjects.
- - Researchers conditioned corals to normal and acidic pH levels and measured changes in the CBL’s thickness and surface concentrations under low and moderate flow rates.
- - Findings indicate that while OA had minimal effects on the CBL characteristics, low flow conditions could enhance the CBL's protective capacity for corals, particularly by improving surface pH levels.
Article Abstract
Reef-building corals live in highly hydrodynamic environments, where water flow largely controls the complex chemical microenvironments surrounding them-the concentration boundary layer (CBL). The CBL may be key to alleviate ocean acidification (OA) effects on coral colonies by partially isolating them. However, OA effects on coral CBL remain poorly understood, particularly under different flow velocities. Here, we investigated these effects on the reef-building corals Acropora cytherea, Pocillopora verrucosa, and Porites cylindrica. We preconditioned corals to a control (pH 8.0) and OA (pH 7.8) treatment for four months and tested how low flow (2 cm s) and moderate flow (6 cm s) affected O and H CBL traits (thickness, surface concentrations, and flux) inside a unidirectional-flow chamber. We found that CBL traits differed between species and flow velocities. Under OA, traits remained generally stable across flows, except surface pH. In all species, the H CBL was thin and led to lower surface pH. Still, low flow thickened H CBLs and increased light elevation of surface pH. In general, our findings reveal a weak to null OA modulation of the CBL. Moreover, the OA-buffering capacity by the H CBL may be limited in coral species, though low flow could enhance CBL sheltering.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11148076 | PMC |
| http://dx.doi.org/10.1038/s41598-024-63210-9 | DOI Listing |
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