AI Article Synopsis
- The presence of chloride cells in lampreys relates to their evolutionary history and the adaptations of their ancestors, which required these cells for osmoregulation in saltwater.
- Non-parasitic species, like the least brook lamprey, and freshwater parasites like Ichthyomyzon lack chloride cells, indicating a long-term adaptation to freshwater environments.
- The time spent in freshwater is the critical factor in whether a lamprey species retains the ability to develop chloride cells.
Article Abstract
Although confined to fresh water, non-parasitic species of lampreys and the landlocked parasitic sea lamprey, all of which were derived relatively recently from an adromous ancestors, still develop chloride cells, whose function in their ancestors was for osmoregulation in marine waters during the adult parasitic phase. In contrast, such cells are not developed by the non-parasitic least brook lamprey Lampetra aepyptera, which has been separated from its ancestor for >2 million years, nor by the freshwater parasitic species of the genus Ichthyomyzon. The length of time that a non-parasitic species or landlocked parasitic form or species has spent in fresh water is thus considered the overriding factor determining whether chloride cells are developed by those lampreys.
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| http://dx.doi.org/10.1111/jfb.12633 | DOI Listing |
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