Your search keyword '"Anna V. Klenova"' showing total 2 results

1. Signs of Genetic and Morphometric Population Differentiation in Small Planctivorous Seabird, Parakeet Auklet Aethia psittacula, Reinforces Linkage between Population Structure and Migratory Strategy

Author

Y.B. Artukhin, V. A. Zubakin, O.S. Pshenichnikova, Carley R. Schacter, Anna V. Klenova, and Nikolay B. Konyukhov

Subjects

education.field_of_study, Panmixia, biology, Range (biology), Population, Population genetics, Zoology, Parakeet auklet, biology.organism_classification, Aethia, Genetic structure, Animal Science and Zoology, education, Psittacula

Abstract

Study of population genetic structure is essential for insight in species biology, but mechanisms of its formation and factors influencing it remain insufficiently understood. Here we analyzed differentiation among populations in small colonial seabird of North Pacific, the Parakeet Auklet Aethia psittacula, which was previously considered as a monomorphic species. We compare our results with data on congeneric species to investigate the most important factors affecting the process of population differentiation in Aethini. We analyzed morphometric measurements, mitochondrial DNA control region fragment and microsatellite loci from six Parakeet Auklet colonies spanning the breeding range. Although results of microsatellite variability analysis did not reveal differences between birds from different colonies, results of control region variability and morphometric analyses testified for a slight but significant differentiation between birds from the Aleutian Islands and other parts of their range. They were significantly smaller in most linear parameters measured and had higher body condition (expressed as the scaled mass index). The results of mtDNA analysis and discrepancy between different types of genetic markers indicated that birds from Aleutian Islands and from the other parts of their breeding range probably originated from different refuges and the differentiation of mitochondrial lineages between them took place around 100 000 years ago. Our results and conclusions from the comparison with congeneric species indicated that foraging and migration patterns seem to determine population structure in small planktivorous alcids, with panmixia in highly mobile species, clear population differentiation in resident species and intermediate population differentiation in more dispersive species.

Published

2021

2. Individual and Sexual Differences in the Calls of the Monomorphic White-Faced Whistling DuckDendrocygna viduata

Author

Elena V. Volodina, Anna V. Klenova, Olga A. Filatova, and Ilya A. Volodin

Subjects

White (mutation), Monomorphism, Dendrocygna viduata, Sexual differentiation, biology, Waterfowl, Zoology, Animal Science and Zoology, Context (language use), Anatomy, biology.organism_classification, Ornithology, Whistling duck

Abstract

The White-faced Whistling Duck is a waterfowl species lacking any differences in ornamentation, coloration, size or behavior between the sexes. For distant communication, this species uses loud whistles. We analyzed 12 spec- tral parameters of 344 whistles from 23 captive adult ducks (14 males and 9 females). Discriminant analysis showed 94% correct assignment to an individual (N = 279 calls from 14 birds; 15-22 calls per bird). Separately for 8 males (162 calls) and for 6 females (117 calls), discriminant analysis showed 99% and 93% correct assignment to individuals respectively. Discriminant analysis for sex (N = 86; 3 calls from each of 14 males and 5 calls from each of 9 females) showed 100% correct assignment. Intersexual differences were governed by frequency parameters, the values of which were significantly higher in females than in males. Cluster analysis showed that differences between sexes were expressed significantly more strongly than the individual differences. The fact that the "acoustical keys" differed as regards the identification of individual birds or their sex may significantly enhance the reliability of acoustical recog- nition systems in the White-faced Whistling Duck. The data are discussed in the context of the biology of the White- faced Whistling Duck and significant intersexual differences in syringial and tracheal anatomy, which may be respon- sible for the sharp distinctions between the sexes in the calls of this species.

Published

2005