Staying hydrated in seawater
M Grosell, AM Oehlert - Physiology, 2023 - journals.physiology.org
Reduction of intestinal lumen osmotic pressure by the formation of Ca (Mg) CO3,“
ichthyocarbonate,” is essential for osmoregulation by the only vertebrate group, ray-finned …
ichthyocarbonate,” is essential for osmoregulation by the only vertebrate group, ray-finned …
CO2 and calcification processes in fish
M Grosell - Fish physiology, 2019 - Elsevier
All teleost fish calcify and produce structures known as otoliths confined by saccular
epithelia in the inner ear. These structures enable detection of acceleration/movement …
epithelia in the inner ear. These structures enable detection of acceleration/movement …
Implications of dietary carbon incorporation in fish carbonates for the global carbon cycle
AM Oehlert, J Garza, S Nixon, LA Frank… - Science of the Total …, 2024 - Elsevier
Marine bony fish are important participants in Earth's carbon cycle through their
contributions to the biological pump and the marine inorganic carbon cycle. However …
contributions to the biological pump and the marine inorganic carbon cycle. However …
The role of marine fish-produced carbonates in the oceanic carbon cycle is determined by size, specific gravity, and dissolution rate
Rising CO 2 emissions have heightened the necessity for increased understanding of
Earth's carbon cycle to predict future climates. The involvement of marine planktonic species …
Earth's carbon cycle to predict future climates. The involvement of marine planktonic species …
Calcium carbonate production by fish in temperate marine environments
Marine bony fishes are an important source of calcium carbonate with relevance to sediment
production and inorganic carbon cycling. However, knowledge of the production and fate of …
production and inorganic carbon cycling. However, knowledge of the production and fate of …
Interrogation of the Gulf toadfish intestinal proteome response to hypersalinity exposure provides insights into osmoregulatory mechanisms and regulation of …
Marine bony fish live in a hyperosmotic environment and maintain osmotic homeostasis by
drinking seawater, and absorbing salt and water across their gastrointestinal tract. Although …
drinking seawater, and absorbing salt and water across their gastrointestinal tract. Although …
Comparison of the organic matrix found in intestinal CaCO3 precipitates produced by several marine teleost species
KL Schauer, EAF Christensen, M Grosell - Comparative Biochemistry and …, 2018 - Elsevier
Marine bony fish poses the unique ability to hydrate from imbibed seawater. They
accomplish this, in part, by the precipitation of inorganic carbonate mineral in their intestine …
accomplish this, in part, by the precipitation of inorganic carbonate mineral in their intestine …