Ionic and osmotic environment of developing elasmobranch embryos

Synopsis The elasmobranchs display a variety of ionic and osmotic environments for developing embryos. Oviparous species protect their eggs with a tough, fibrous capsule which is highly permeable to ions and urea even at oviposition. Thus the embryonic tissues are bathed by a solution ionically similar to sea water. In the more advanced reproductive style ofSqualus acanthias (a lecithotrophic live bearer) early embryos in egg capsules are retained in utero and bathed in a solution osmotically similar to maternal plasma. Several months into the 22 month gestation period the embryos can iono- and osmoregulate in a uterine solution resembling sea water. Embryos of more advanced viviparous species develop in a solution that is ionically and osmotically similar to maternal plasma. Iono- and osmoregulation by these embryos would appear to be unnecessary. Clearly, in the oviparous elasmobranchs, the ability of the embryo to regulate salts and urea is present at the earliest stage of development. The need for elasmobranch embryos to regulate osmolytes was reduced or delayed as viviparity evolved.