Isolation and characterization of 18 new polymorphic microsatellite loci for the swordfish, Xiphias gladius

Eighteen microsatellite loci (13 di- and 5 tri-repeats) were isolated from swordfish and characterized in two populations from the Atlantic Ocean and Mediterranean Sea. The number of alleles per locus ranged from two to 29 and the observed heterozygosity from 0.302 to 0.953. All but one locus conformed to Hardy-Weinberg expectations and there was no evidence for linkage disequilibrium between loci.     

Development of 11 microsatellite loci for population studies in the swordfish,Xiphias gladius (Teleostei: Scombridae)

Eleven microsatellite loci were developed in the swordfish, Xiphias gladius, to examine population structure. Loci were amplified in samples from two geographically distant populations (Ecuador and Mediterranean Sea). Observed heterozygosity ranged from 0.150 to 0.960. Most loci conformed to Hardy–Weinberg expectations with the exception of locus Xg‐59, which had a heterozygote deficit caused probably by null alleles. Locus Xg‐402 did not show significant divergence between the populations. The remaining nine loci showed statistically significant spatial heterogeneity (genic differentiation) between the two populations, making them useful for future studies of population structure in swordfish.     

Age estimates derived from hard parts of swordfish Xiphias gladius from the north-western Mediterranean Sea

Accurate age estimates for fish are critical for properly understanding stock dynamics and health; this is particularly true for larger billfishes. Here we determined the most accurate aging estimation methods for swordfish (Xiphias gladius). We compared age estimates obtained from fin-ray sections, otolith sections, whole otoliths, and vertebrae collected from 87 swordfish off the east coast of Corsica. Age estimates from otolith sections were most consistently estimated across different readers (lowest average percentage error), followed by fin-ray sections, third vertebrae, and whole otoliths. When the age estimates from the otolith sections were compared with the other three age sclerochronological methods, we found the average percentage error to be lowest between the otolith section and fin-ray methods. However, age estimates from fin rays proved most useful for estimating swordfish younger than 6 years, as the fin ray-based age diverged from that of the otolith sections as the swordfish aged. Combining fin ray and otolith section techniques, we estimated the growth parameters of 1–12-year-old females (L_∞ = 259.412, k = 0.113, t₀ = −2.499) and 1–7-year-old males (L_∞ = 175.543, k = 0.202, t₀ = −2.239). We found that females grew significantly faster than males after 3 years and remained larger thereafter. Our calculated growth rates for this region of the north-western Mediterranean Sea were lower than those of the Atlantic, Pacific, and eastern Mediterranean Sea swordfish populations, and similar to growth rates recorded for the western Mediterranean Sea populations. Our study provides critical knowledge on biological-related parameters to serve as a guide for preserving the swordfish population in the Mediterranean Sea.     

Marked mitochondrial DNA differences between Mediterranean and Atlantic populations of the swordfish, Xiphias gladius

Restriction analysis of mitochondrial DNA (mtDNA) from 204 individuals of swordfish (Xiphias gladius) revealed no differentiation among samples from three sites in the Mediterranean Sea (Greece, Italy, Spain), but a high degree of differentiation between Mediterranean samples and a sample from the Gulf of Guinea. A fifth sample from the Atlantic side of the Straits of Gibraltar (Tarifa) consisted mostly of mitotypes that are common in the Mediterranean, but contained several of mtDNA types of the Guinea sample not found in the Mediterranean. We conclude that, in spite of free migration of swordfish across the Straits of Gibraltar, little genetic exchange occurs between the populations inhabiting the Mediterranean Sea and the tropical Atlantic ocean. This is the first evidence of genetic differentiation among geographic populations of this highly mobile species that supports a world-wide fishery.