Isolation and genetic analysis of the chikungunya virus from Aedes aegypti and Aedes albopictus mosquitoes captured in Central America

Introduction. The habitat of mosquitoes belonging to the genera Aedes spp., Culex spp., Culiseta spp. is in South and Central America, including Nicaragua. Monitoring of the spread of mosquito vectors and assessment of the infection with arboviruses can provide information on possible occurrence of new diseases or an increase in the reported cases, changes in the infectivity of viruses for humans due to changes in pathogen transmitters. The purpose of this study was isolation and identification of arboviruses belonging to the Flavivirus and Alphavirus genera from A. albopictus, A. aegypti, Culiseta spp., Culex spp. mosquitoes captured in forests of Nicaragua. Materials and methods. A. albopictus, A. aegypti, Culiseta spp., Culex spp. mosquitoes were captured during the dry season in 2021 in forested areas of Nicaragua in four different locations. Mosquitoes were sorted into pools, each containing 5-8 mosquitoes (236 pools in total). Using the reverse transcription polymerase chain reaction, the pools were tested for the presence of chikungunya (CHIKV), dengue, Zika, and yellow fever viruses. Positive pools were inoculated into the C6/36 cell culture to obtain isolates and for their further sequencing. Results. The dengue virus was detected only in Aedes spp. mosquitoes: in 7 pools — A. aegypti, in 1 — A. albopictus. CHIKV was also detected only in Aedes spp. mosquitoes: in 3 pools — A. aegypti, in 1 — A. albopictus. The sequencing of nucleotide sequences of 6К, Е1, Е2, and NS1 genes of CHIKV isolated from A. albopictus mosquitoes showed that compared to the similar gene sequences from CHIKV isolates recovered from A. aegypti mosquitoes, the 6K gene region contained 4 nucleotide and 4 amino acid substitutions, while the E1 region contained 16 nucleotide substitutions, 10 of them led to amino acid substitutions; the E2 region contained 14 nucleotide and 11 amino acid substitutions; the NS1 region contained 33 nucleotide and 19 amino acid substitutions

Migrations of young spotted seals (Phoca largha) from Peter the Great Bay, Sea of Japan/East Sea, and the pattern of their use of seasonal habitats.

We studied the migrations of young spotted seals during their annual cycle. In May 2017, we attached satellite tags (SPOT-293A) to three individuals (two underyearlings and one yearling) captured at their breeding ground in Peter the Great Bay, western Sea of Japan/East Sea. The operational time of the installed tags ranged from 207 to 333 days; a total of 27195 locations were uploaded. All three seals migrated east and further north along the coast of the mainland. The average daily migration speed of the seals ranged between 70 and 135 km/day. The yearling moved faster than the underyearlings. During early August, they arrived at their summer habitats, which were located in the northern part of the Tatar Strait (Sea of Japan/East Sea) for the underyearling seals and in Aniva Bay (Sea of Okhotsk) for the yearling seal. While moving from the place of tagging to the summer feeding grounds, the seals covered a distance of 2300 to 3100 km. From August to October, each seal permanently stayed within the same isolated area. The reverse migration of all three seals began in November. When the seals traveled south, they used the same routes by which they had moved north in the spring, but they moved at a faster speed. By December, two seals returned to their natal islands, where both stayed until their transmitters stopped sending signals (in March 2018)