A wealth of information on osmotic and ionic reaulation in Estuarine and Marine Animals has been accumulated over the past decades. Beyond early studies of whole-animal responses to changes in envi ronmental salinities, efforts have been made later on to identify, to localize and to characterize the organs and structures responsible for the control of the characteristics of the cell's environmental fluid. When considering the problem of cell volume control in animals facing media of fluctuating salinities, we are indeed dealing with two different categories of mechanisms. A first one is concerned with the control of the osmolality of the intracellular fluid, hence with the processes directly implicated in the maintenance of cell volume and shape. They have been extensively described in several recent review papers. The second category includes the processes controllin~ the charac teristics of the cell's environmental fluid in order to minimize the amplitude of the osmotic shocks the cells may have to cope with upon acclimation to media of changed salinities. They are localized in particular organs and structures : the so-called "caZt-transporting" epithelia. Up to now, most of the studies on salt-transportino epithe lia in estuarine and marine animals used the black box approach, so that little or sometimes nothing is still known on the physiological, the biochemical and the biophysical basis of the transporting mecha nisms as well as on the structure-function relationships.

I Physiological and Ultrastructural Aspects of "Salt-Transporting Tissues" Studies

Homeostatic Function of Integuments and Nephridia in Annelids
Control of the Extracellular Fluid Osmolality in Crustaceans
Osmotic and Ionic Regulation in Saline Water Mosquito Larvae
Chloride Secretion by the Chloride Cells of the Isolated Opercular Epithelium of Marine Fish
Control of the Blood Osmolarity in Fishes, With Reference to the Functional Anatomy of the Gut
Transport Properties of Fish Urinary Bladders in Relation to Osmoregulation
The Contrasting Roles of the Salt Glands, The Integument and Behavior in Osmoregulation of Marine Reptiles
Regulation of NaCl and Water Absorption in Duck Intestine
II Biophysical and Biochemical Aspects of "Salt-Transporting Tissues" Studies
Cellular Energy Metabolism and its Regulation in Gills of Fish and Crustacea
Regulatory Functions of Na++K+-Atpase in Marine and Estuarine Animals
Ultrastructural Localization of Na++K+-Atpase in Specialized Membranes of Salt Transporting Cells in Marine Vertebrates
Models of Salt and Water Flow Across Epithelia: An Evaluation by Electron Probe X-Ray Microanalysis
Taxonomic Index.