Amy C. Klink scite author profile

Unoccupied aerial system (UAS) technologies applied to health assessments of large whales can have positive implications for progressive management. We focused on the collection of cetacean respiratory blow samples for endocrine, DNA profiling, microbial metabarcoding, and metagenomics analyses, with the goal of improving management of large whale populations. Blow samples were collected from humpback (Megaptera novaeangliae, n = 109 samples analyzed), blue (Balaenoptera musculus, n = 21 samples analyzed), and killer whale (Orcinus orca, n = 1 sample analyzed) species, as well as the responses of the whales to the collection of their blow by UAS. Endocrine analyses were validated for 5 steroid hormones in humpback whales and 4 hormones in blue whales. For DNA profiling, we attempted to extract and amplify nuclear and mitochondrial DNA, resulting in sequencing of mtDNA haplotypes for 54% of samples, identification of sex for 39%, and individual identification by microsatellite genotyping for 17%. The DNA profiles of 2 of the blow samples from humpback whales were matched to a DNA register for this regional population. Metagenomic and microbial metabarcoding classifications found a diverse number of bacteria, eukaryotes, and viruses in humpback whale blow. Although a significant portion of classifications were found in both seawater and blow, several of the most abundant organisms were present only in blow samples, suggesting they are true members of the respiratory microbiome. A comprehensive integration of laboratory‐based approaches using noninvasive UAS collection technologies could become an important management tool for health assessments of large cetaceans, especially for species listed as endangered. The addition of individual and population‐level health assessments to currently practiced stewardship of large whales, renders them as excellent sentinels of ocean health. © 2021 The Wildlife Society.

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Pathological findings and survey for pathogens associated with reproductive failure in perinatal Steller sea lions Eumetopias jubatus

Esquible

Burek‐Huntington²,

Atkinson

et al. 2019

Dis. Aquat. Org.

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Steller sea lions (SSLs) Eumetopias jubatus experienced a population decline in the 1960s, leading to the listing of the western stock as endangered and the eastern stock as threatened under the US Endangered Species Act. A decrease of births in the western stock beginning in the late 1960s indicates that reproductive failure may have contributed to the decline. We evaluated the role pathogens play in spontaneous abortions, premature births and neonatal deaths in SSLs. Archived tissues from carcasses (n = 19) collected in Alaska from 2002 to 2015 were tested by PCR for Coxiella burnetii, Brucella spp., Chlamydia and morbilliviruses. Animals examined included 47% premature pups, 32% aborted fetuses, 11% neonates and 11% intrauterine fetuses. Gross necropsy and histology findings were summarized in the context of the PCR findings. Tissues were negative for Chlamydia and C. burnetii. Brucella spp. were detected in the lung tissues of 3 animals, including 1 positive for the ST27 strain, the first detection of Brucella spp. DNA in SSLs. Phocine distemper virus was detected in 3 animals in 2 skin lesions and 1 placenta by heminested diagnostic qRT-PCR. Both skin and the placental lesions had vesiculoulcerative changes, and 1 skin lesion contained inclusion bodies in syncytia and upon histologic examination, suggesting that the lesions may be associated with an infection reminiscent of phocine distemper virus, the first in SSLs. We highlight the continuing need for disease surveillance programs to improve our understanding of the prevalence and potential population impacts of these infectious disease agents for pinnipeds in Alaskan waters.

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Discovery of Avian Paramyxoviruses APMV-1 and APMV-6 in Shorebirds and Waterfowl in Southern Ukraine

Klink

Rula

Sushko³

et al. 2023

Viruses

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Emerging RNA virus infections are a growing concern among domestic poultry industries due to the severe impact they can have on flock health and economic livelihoods. Avian paramyxoviruses (APMV; avulaviruses, AaV) are pathogenic, negative-sense RNA viruses that cause serious infections in the respiratory and central nervous systems. APMV was detected in multiple avian species during the 2017 wild bird migration season in Ukraine and studied using PCR, virus isolation, and sequencing. Of 4090 wild bird samples collected, mostly from southern Ukraine, eleven isolates were grown in ovo and identified for APMV serotype by hemagglutinin inhibition test as: APMV-1, APMV-4, APMV-6, and APMV-7. To build One Health’s capacity to characterize APMV virulence and analyze the potential risks of spillover to immunologically naïve populations, we sequenced virus genomes in veterinary research labs in Ukraine using a nanopore (MinION) platform. RNA was extracted and amplified using a multiplex tiling primer approach to specifically capture full-length APMV-1 (n = 5) and APMV-6 (n = 2) genomes at high read depth. All APMV-1 and APMV-6 fusion (F) proteins possessed a monobasic cleavage site, suggesting these APMVs were likely low virulence, annually circulating strains. Utilization of this low-cost method will identify gaps in viral evolution and circulation in this understudied but important critical region for Eurasia.

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Amy C. Klink

Recent Detections ofSpilogale putorius(Eastern Spotted Skunk) in South Carolina

Genetic, Endocrine, and Microbiological Assessments of Blue, Humpback and Killer Whale Health using Unoccupied Aerial Systems

Pathological findings and survey for pathogens associated with reproductive failure in perinatal Steller sea lions Eumetopias jubatus

Discovery of Avian Paramyxoviruses APMV-1 and APMV-6 in Shorebirds and Waterfowl in Southern Ukraine

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