Rise of oceanographic barriers in continuous populations of a cetacean: the genetic structure of harbour porpoises in Old World waters

<p>Abstract</p> <p>Background</p> <p>Understanding the role of seascape in shaping genetic and demographic population structure is highly challenging for marine pelagic species such as cetaceans for which there is generally little evidence of what could effectively restrict their dispersal. In the present work, we applied a combination of recent individual-based landscape genetic approaches to investigate the population genetic structure of a highly mobile extensive range cetacean, the harbour porpoise in the eastern North Atlantic, with regards to oceanographic characteristics that could constrain its dispersal.</p> <p>Results</p> <p>Analyses of 10 microsatellite loci for 752 individuals revealed that most of the sampled range in the eastern North Atlantic behaves as a 'continuous' population that widely extends over thousands of kilometres with significant isolation by distance (IBD). However, strong barriers to gene flow were detected in the south-eastern part of the range. These barriers coincided with profound changes in environmental characteristics and isolated, on a relatively small scale, porpoises from Iberian waters and on a larger scale porpoises from the Black Sea.</p> <p>Conclusion</p> <p>The presence of these barriers to gene flow that coincide with profound changes in oceanographic features, together with the spatial variation in IBD strength, provide for the first time strong evidence that physical processes have a major impact on the demographic and genetic structure of a cetacean. This genetic pattern further suggests habitat-related fragmentation of the porpoise range that is likely to intensify with predicted surface ocean warming.</p

Vertical distribution, diurnal and seasonal migration of copepods in Saronic Bay, Greece

The problem of vertical distribution and the movements of copepods was studied from several plankton samples collected by vertical hauls in the Saronic Bay, Greece during two cruises (8 to 17 August and 21 November to 1 December, 1969). The species, whose vertical movements were analyzed, were divided into 3 groups: (1) Those which perform diurnal vertical migration (generally psychrophilic species found in summer samples in deeper layers and in reduced numbers). In autumn, the number of specimens is generally increased and many individuals reach the surface at night. From surface hauls it is known that these species abound in night surface hauls during the cold period. (2) Those species which execute a seasonal vertical migration. These, too are, in general, psychrophilic and found in summer in the deep water layers. In autumn, the population of the upper layers increases. From surface hauls it is known that these species abound in day and night surface samples. (3) Copepods which remained at the surface layer in both seasons of our cruises. These species are thermophilic and are absent from surface hauls during the cold period. © 1971 Springer-Verlag

Vertical distribution, diurnal and seasonal migration of copepods in Saronic Bay, Greece

The problem of vertical distribution and the movements of copepods was studied from several plankton samples collected by vertical hauls in the Saronic Bay, Greece during two cruises (8 to 17 August and 21 November to 1 December, 1969). The species, whose vertical movements were analyzed, were divided into 3 groups: (1) Those which perform diurnal vertical migration (generally psychrophilic species found in summer samples in deeper layers and in reduced numbers). In autumn, the number of specimens is generally increased and many individuals reach the surface at night. From surface hauls it is known that these species abound in night surface hauls during the cold period. (2) Those species which execute a seasonal vertical migration. These, too are, in general, psychrophilic and found in summer in the deep water layers. In autumn, the population of the upper layers increases. From surface hauls it is known that these species abound in day and night surface samples. (3) Copepods which remained at the surface layer in both seasons of our cruises. These species are thermophilic and are absent from surface hauls during the cold period. © 1971 Springer-Verlag

Variability of some morpho-ecological factors in six pelagic copepods from the Aegean Sea

The variability of some morpho-ecological factors was studied in 6 pelagic copepods from the North Aegean Sea. From the different findings it is concluded that temperature has a significant influence on body length; the higher the temperature of the environment during development, the shorter the body at maturity. The ratio of males to females is high in species which prefer warmer, and very low in species which prefer colder, waters. The percentage of copepodids in the entire population increases in winter and decreases considerably in summer. © 1969 Springer-Verlag

Acute toxicity of copper to a copepod

The acute toxicity of copper to the marine copepod Acartia clausi was determined by means of static bioassays. Natural copepod assemblages from two different locations, one from an area polluted with industrial effluents and domestic wastes and another from a relatively uncontaminated area, were compared. Results of metal toxicity tests expressed as 48 h LC50 values indicate a significant difference in the tolerance of copper between the two populations, with the LC50 of the pollution-adapted population higher than that of the population from the uncontaminated area. © 1978

The longevity of three generations of normal and pollution-impacted Acartia clausi (Copepoda) populations in the Saronicos Gulf (Greece)

The longevity of two populations of the planktonic copepod Acartia clausi in the Saronicos Gulf was estimated. One group lived in a heavily polluted area, the other group in a relatively clean area. Three annual generations were studied. A comparison was also made between fed and unfed animals. A temperature of 14°C appeared to be the most favourable for the survival of Acartia; however, the optimum survival temperature depended also upon the generation to which the Acartia belonged. The acclimatization temperature has a strong influence on survival. Acartia in its natural environment thrives best and has maximum longevity at colder temperatures. The pollution-adapted Acartia population survived longer under laboratory-controlled conditions than the population living in a non-polluted area. © 1981 Dr. W. Junk b.v. Publishers

The longevity of three generations of normal and pollution-impacted Acartia clausi (Copepoda) populations in the Saronicos Gulf (Greece)

The longevity of two populations of the planktonic copepod Acartia clausi in the Saronicos Gulf was estimated. One group lived in a heavily polluted area, the other group in a relatively clean area. Three annual generations were studied. A comparison was also made between fed and unfed animals. A temperature of 14°C appeared to be the most favourable for the survival of Acartia; however, the optimum survival temperature depended also upon the generation to which the Acartia belonged. The acclimatization temperature has a strong influence on survival. Acartia in its natural environment thrives best and has maximum longevity at colder temperatures. The pollution-adapted Acartia population survived longer under laboratory-controlled conditions than the population living in a non-polluted area. © 1981 Dr. W. Junk b.v. Publishers