Combining citizen and conventional science for microplastics monitoring in the White Sea basin (Russian Arctic)

AbstractReproductive isolation was investigated among sympatric lateral plate morphs of threespine stickleback from the White Sea basin and also among phenotypically similar morphs from the distant Kamchatka River basin (Lake Azabachije). Female choice tests show that gene flow is restricted among the completely plated and low plated morphs at both locations; behavioural isolation between these morphs is complete among Lake Azabachije fish, and nearly so (93% positive assortative mating) among White Sea basin fish. However, the experiments also demonstrate that there are no barriers to reproduction among the Azabachije and White Sea complete morphs, among the Azabachije low and White Sea complete morphs, nor among the Azabachije complete and White Sea low morphs. In addition, there is no evidence of barriers to gene flow among the low and partially plated morphs. Therefore, although gene flow is restricted among the extreme morphs within each locality, nevertheless gene exchange is possible, either directly or secondarily, among all phenotypes. The reproductive isolation between the complete and low morphs from the White Sea basin developed in situ no more than eight generations after the sticklebacks were introduced into an isolated freshwater pond. Therefore behavioural isolation can evolve very rapidly among the lateral plate phenotypes of Gasterosteus aculeatus.

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Architecture of parallel adaptation to freshwater in multiple populations of threespine stickleback

10.1101/381723 ◽

2018 ◽

Author(s):

Nadezhda V. Terekhanova ◽

Anna E. Barmintseva ◽

Alexey S. Kondrashov ◽

Georgii A. Bazykin ◽

Nikolai S. Mugue

Keyword(s):

Genetic Architecture ◽

White Sea ◽

Core Region ◽

Selective Sweeps ◽

The White Sea ◽

Threespine Sticklebacks ◽

White Sea Basin ◽

Soft Selective Sweeps ◽

Freshwater Environments

AbstractThreespine sticklebacks adapted to freshwater environments all over the Northern Hemisphere. This adaptation involved parallel recruitment of freshwater alleles in clusters of closely linked sites, or divergence islands (DIs). However, it is unclear to what extent the DIs involved in adaptation and the alleles within them coincide between populations adapting to similar environments. Here, we examine 10 freshwater populations of similar ages from the White Sea basin, and study the repeatability of patterns of adaptation in them. Overall, the 65 detected DIs tend to reside in regions of low recombination, underlining the role of reduced recombination in their establishment. Moreover, the DIs are clustered in the genome to the extent that is not explainable by the recombination rate alone, consistent with the divergence hitchhiking model. 21 out of the 65 DIs are universal; i.e., the frequency of freshwater alleles in them is increased in all analyzed populations. Universal DIs tend to have longer core region shared between populations, and the divergence between the marine and the freshwater haplotypes in them is higher, implying that they are older, also consistently with divergence hitchhiking. Within most DIs, the same set of sites distinguished the marine and the freshwater haplotypes in all populations; however, in some of the DIs, the genetic architecture of the freshwater haplotype differed between populations, suggesting that they could have been established by soft selective sweeps.

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Phytoperiphyton of Watercourses of the White Sea Basin (Murmansk Region, Republic of Karelia, Russia)

International Journal on Algae ◽

10.1615/interjalgae.v22.i4.70 ◽

2020 ◽

Vol 22 (4) ◽

pp. 383-398

Author(s):

S. F. Komulaynen

Keyword(s):

White Sea ◽

The White Sea ◽

Murmansk Region ◽

White Sea Basin

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Reconstruction of the White Sea Basin during the late Younger Dryas

Boreas ◽

10.1111/j.1502-3885.2009.00128.x ◽

2010 ◽

Vol 39 (2) ◽

pp. 273-285 ◽

Cited By ~ 4

Author(s):

ANTTI PASANEN ◽

JUHA PEKKA LUNKKA ◽

NIKO PUTKINEN

Keyword(s):

White Sea ◽

Younger Dryas ◽

The White Sea ◽

White Sea Basin

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Phytoperiphyton of watercourses from the White Sea Basin (Murmansk District, Republic of Karelia, Russia)

Algologia ◽

10.15407/alg30.04.421 ◽

2020 ◽

Vol 30 (4) ◽

pp. 421-439

Author(s):

S.F. Komulaynen ◽

Keyword(s):

White Sea ◽

Taiga Zone ◽

Relative Importance ◽

Simultaneous Presence ◽

The White Sea ◽

Number Of Species ◽

Dominant Complex ◽

Climatic Regime ◽

White Sea Basin ◽

Boreal Complex

The results of phytoperiphyton studies in 92 watercourses of the White Sea basin are summarized and analyzed. Totally 540 taxa with a rank below the genus were identified. They belong to six divisions: Cyanophyta – 76, Ochrophyta – 374, Euglenophyta – 3, Dinophyta – 4, Rhodophyta – 8 and Chlorophyta – 75. Diatoms, cyanobacteria and chlorophytes form the basis of the species diversity (> 90%) in all studied rivers. The predominance of these groups reflects the specificity of the phytoperiphyton in the river systems of the boreal and subarctic zones. Leading families are Naviculaceae (174 species), Achnanthaceae (45), Desmidiaceae (43) and Fragilaceaceae (36). Together they cover 337 species or 65% of the total number of species found. The group of leading genera (187 species, 35%) includes Eunotia – 36 species, Achnanthes – 33, Navicula – 48, Pinnularia – 39, and Cymbella – 31 species. The heterogeneity of the climatic regime in the study area determines the simultaneous presence in the algae flora of widespread eurythermic species characteristic of the taiga zone, stenothermic rheophiles of alpine origin and the boreal complex typical of wetlands. The dominant complex is represented by a small number of species resistant to dynamic water loading. It is noted that the ecological-geographical spectra of algae are dominated by widespread oligogalobic species, acidophilic or indifferent to the pH of the medium. The relative importance of indicator species in the formation of groupings allows to refer the waters of the studied watercourses and reservoirs to the second class of purity.

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The ringed seal (Phoca hispida) in the western Russian Arctic

NAMMCO Scientific Publications ◽

10.7557/3.2981 ◽

1998 ◽

Vol 1 ◽

pp. 63 ◽

Cited By ~ 4

Author(s):

Stanislav E Belikov ◽

Andrei N Boltunov

Keyword(s):

Barents Sea ◽

White Sea ◽

Ringed Seal ◽

Kara Sea ◽

Russian Arctic ◽

The White Sea ◽

Phoca Hispida ◽

Ringed Seals ◽

The Barents Sea ◽

Fast Ice

This paper presents a review of available published and unpublished material on the ringed seal (Phoca hispida) in the western part of the Russian Arctic, including the White, Barents and Kara seas. The purpose of the review is to discuss the status of ringed seal stocks in relation to their primary habitat, the history of sealing, and a recent harvest of the species in the region. The known primary breeding habitats for this species are in the White Sea, the south-western part of the Barents Sea, and in the coastal waters of the Kara Sea, which are seasonally covered by shore-fast ice. The main sealing sites are situated in the same areas. Female ringed seals become mature by the age of 6, and males by the age of 7. In March-April a female gives birth to one pup in a breeding lair constructed in the shore-fast ice. The most important prey species for ringed seals in the western sector of the Russian Arctic are pelagic fish and crustaceans. The maximum annual sealing level for the region was registered in the first 70 years of the 20th century: the White Sea maximum (8,912 animals) was registered in 1912; the Barents Sea maximum (13,517 animals) was registered in 1962; the Kara Sea maximum (13,200 animals) was registered in 1933. Since the 1970s, the number of seals harvested has decreased considerably. There are no data available for the number of seals harvested annually by local residents for their subsistence.

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