S. M. Nikiforov

The Use of Data on Allozyme Variability in Marine Invertebrate Populations for Biological Monitoring

This paper reviews theoretical bases, experimental investigations, and the practice of using allozyme variability of marine invertebrate populations for environmental monitoring. The causes of unsuccessful attempts and the difficulties that researchers face are discussed. A number of recommendations are proposed.

Allozyme diversity among local populations of the pacific mussel Mytilus trossulus (Bivalvia: Mytilidae) from polluted areas of Peter the Great Bay (Sea of Japan)

Allozyme variability was assessed, using starch gel electrophoresis, at 15 polymorphic loci in two samples of the Pacific mussel Mytilus trossulus collected from local populations in heavily (Golden Horn Bay) and slightly polluted areas (Sukhoputnaya Bay) of Peter the Great Bay. Significant differences between samples were found in the genotypic frequencies at nine loci and in allele frequencies, at six loci. The results are suggestive of the differential survival of individuals having different genotypes and alleles at some of the surveyed loci under conditions of pollution. Our data are not in conflict with the hypothesis of the adaptive significance of allozyme polymorphism.

Allozyme Loci Selection in the Pacific Mussel Mytilus trossulus under Stressful Conditions

The allozyme variability for 15 loci in two samples of the Pacific mussel Mytilus trossulus collected from a single giant cluster was investigated using the method of gel electrophoresis. One sample was subjected to short-term anaerobic stress and then to a longer aerobic stress, leading to the death of about 85% of the individuals. At some of the loci, significant differences in the genotypic and allele frequencies were found between the samples. The results are suggestive of the differential survival of mussels with different genotypes and alleles at some of the surveyed loci under stress. Our data are in agreement with the hypothesis of the adaptive significance of allozyme polymorphism.

Allozyme Variability in Local Populations of the Chiton Ischnochiton hakodadensis from Differently Polluted Areas of Peter the Great Bay, Sea of Japan

Allozyme variability in ten polymorphous loci and three samples of the chiton Ischnochiton hakodadensis from Peter the Great Bay, Sea of Japan, was examined by gel electrophoresis. The samples were collected in different areas of the Bay: clean, heavily polluted with petroleum hydrocarbons and detergents, and heavily polluted with heavy metal combinations. It was established that the genetic similarity of the samples was very high, but their differences in allele frequencies, observed heterozygosity, and heterozygote deficiency in some loci were statistically significant. We suppose that allozyme differences between the studied chiton samples are the result of selection to resist anthropogenic pollution of the habitat.

Allozyme Diversity among Different Size Cohorts of Spat of Mytilus trossulus (Bivalvia, Mytilidae) Dwelling together in Amursky Bay, Sea of Japan

Allozyme variability in 16 polymorphic loci in two size cohorts of large (30.0 ± 6.3 mm) and small (9.8 ± 2.3 mm) spat of the mussel Mytilus trossulus (Gould) coinhabiting the intertidal zone in Brazhnikov Bay (Amursky Bay, Sea of Japan) was studied 1988–1989. It was determined that the size cohorts compared were highly similar genetically; Neis minimum distances were 0.014 and 0.016 in 1988 and in 1989. However, statistically significant differences in allele frequencies were found at 2 loci, both in 1988 and in 1989. The loci differing by allele frequencies in 1988 did not coincide with those in 1989. Significant differences by heterozygosity between the cohorts were found only at the Idg-1 and Est-3 loci, 1988; and at the Aat-1, 6-Fgd, Est-3 loci, 1989; but the average heterozygosity was not significantly different in the cohorts for both years. A deficiency of heterozygotes (Dg) was observed almost at all loci in both cohorts. The mean Dg values were significantly higher in the cohort of small size individuals. Since the environmental conditions for both cohorts were similar, the allozyme differences between them were not a result of natural selection. A possible cause of the allozyme and size differences among the mussel cohorts is the gap in the settling time of larvae, which entails the formation of two size cohorts of mussels. Such a gap was caused by protraction of spawning period of M. trossulus and by the formation of segregate larval pools from various mussel populations differing in allele frequencies.

Allozyme Variability of the Sea Urchin Strongylocentrotus droebachiensis in the Area of Volcanic Hydrotherms

Allozyme variability was studied in 11 polymorphic loci in three samples of the sea urchin Strongylocentrotus droebachiensis using the method of gel electrophoresis. One sample was taken from a population of normal environmental conditions (Avacha Bay, Kamchatka Peninsula), the other two were sampled in Kraternaya Bay (Yankicha Island, the Kuriles): the first sample was from a bottom site where the animals were subjected to continuous stress resulting from the products of volcanic hydrothermal vents and the second sample was from a bottom site where that stress effect was periodical. Statistically significant differences in the genotypic allele frequencies and in levels of heterozygosity of some loci were revealed between the Avacha Bay and Kraternaya Bay samples. Moreover, similar differences, but in other loci, were revealed for the Kraternaya Bay samples. The possible causes of these distinctions are discussed. A conclusion on the primary role of natural selection in the origin of the observed distinctions and on the conformity of the observed data to the hypothesis of selective significance of a part of the allozyme polymorphism is put forth.

Concentrations of Heavy Metals in Soft Tissues of the Gastropod Nucella heyseanain the Vicinity of Vladivostok and in the Vostok Bay Reserve

A survey was made of 168 specimens of the gastropod mollusk Nucella heyseanafrom 5 samples collected in Amurskii Bay and Vostok Bay (Peter the Great Bay and the Sea of Japan). The variability of Cu, Zn, Cd, Pb, Fe, and Mn contents in gastropod soft tissues was analyzed. The statistic concentrations of the six metals differed significantly among the samples; they were sometimes taken at a distance of a mere several tens of meters apart. N. heyseanacollected near Vladivostok generally had higher concentrations of heavy metals; however, the amount of Zn in the specimens of one sample from the Vostok Bay Reserve was 400 μg/g, which is two times greater than that of mollusks from the urbanized zone. The canonical and discriminant analyses and the analysis of the variance indicate that the variation in heavy metal concentration within groups of mollusks (within bays) is comparable in magnitude with the variation among the groups.

Allozyme variability of the gastropodTegula rustica from Peter the Great Bay, Sea of Japan

Eight polymorphic loci were surveyed in three samples of the gastropodTegula rustica collected in a clean area of Peter the Great Bay and in three samples from a heavily polluted area of the bay. Macrospatial, microspatial, and temporal differences in allele frequencies and heterozygosity were found at some of the loci; however, the genetic similarity among the samples was very high. It is concluded that allozyme variability at the surveyed loci ofT. rustica cannot be used in pollution monitoring of Peter the Great Bay.

Microspatial heterogeneity of allele frequencies at allozyme loci in the bivalveMytilus trossulus: Dependence on age and depth

Allozyme variability was investigated at 18 polymorphic loci in 9 samples of the bivalveMytilus trossulus (Gould, 1850) from Vostok Bay, Sea of Japan. Significant differences in allele frequencies at some loci were found between samples from different age cohorts and different depths. Genetic distances between samples were as great as (and often exceeded) those typically found between geographically separate populations in Peter the Great Bay. Some practical recommendations for experimental researchers are proposed.