HELMINTH FAUNA OF ICE SEALS IN THE ALASKAN BERING AND CHUKCHI SEAS, 2006-15.

Climate warming may affect the distribution of helminth parasites, allowing endemic species to increase in prevalence and new species to appear. We analyzed tissues from 141 ice-associated seals collected in the Alaskan (US) Bering and Chukchi seas during 2006-15 for internal helminth parasites and compared results with past studies. Specimens were collected from: ringed seals (Pusa hispida), bearded seals (Erignathus barbatus), spotted seals (Phoca largha), and ribbon seals (Histriophoca fasciata). Helminths were present in 94% (133/141) of the seals sampled. Nematodes were most prevalent in bearded (97%, 72/74) and spotted seals (93%, 13/14). Cestodes were most prevalent in bearded seals (82%, 61/74) and absent in ribbon seals, trematodes were only found in bearded (64%, 47/74) and ringed (5%, 2/44) seals, and acanthocephalans were mostly found in ringed (61%, 27/44) and spotted (64%, 9/14) seals. Although no helminths were new to the Bering-Chukchi Seas region, this study found a previously unreported host record for the lungworm Parafilaroides (Filaroides) gymnurus in a ribbon seal. We also found the lungworm Otostrongylus circumlitus in a ribbon seal and P. (F.) gymnurus in bearded seals, representing location records previously unreported from the Bering-Chukchi Seas region (although they have been reported from the Sea of Okhotsk). We found the cestode genus Pyramicocephalus in bearded seals (3%, 2/74) at a lower prevalence than was reported previously for Pyramicocephalus phocarum (44-100%) in the Bering-Chukchi Seas region. We found no species of the acanthocephalan genus Bolbosoma, although the genus was previously identified in ringed, spotted, and ribbon seals. This study yielded no new helminths and no increases in the prevalence of endemic parasites in these seal species.

Dog overpopulation and diagnosis of intestinal parasites on Santa Cruz Island, Galapagos 2016.

Dog overpopulation and diseases are hazards to native island species and humans on the Galapagos. The main objective of the study reported here was to estimate the observed human:dog ratio on Santa Cruz Island, Galapagos in September 2016. In addition, dog demographic data were used to model the expected annual dog population growth in the next 10 years. A secondary objective was to measure the burden of dogs infected with intestinal parasites. The observed human:dog ratio was 964:202 (or 4.77:1), which extrapolates to 3290 dogs; an increase of 31% in the dog population on Santa Cruz from 2014 to 2016. Study results show that current spay-neuter efforts (about 300 dogs per year; 60% females, 40% males) are not enough to keep the population stable (i.e., current baseline of 3290 dogs). The frequency of dogs infected with Ancylostoma spp., an intestinal parasite in dogs that can cause cutaneous larval migrans in humans, was 18/44 or 41% (95% CI = 27%, 55%). These results provide the most complete assessment of the dog overpopulation on the Galapagos to date.

Geographic distribution of Angiostrongylus cantonensis in wild rats (Rattus rattus) and terrestrial snails in Florida, USA.

The parasitic nematode Angiostrongylus cantonensis is a major cause of eosinophilic meningitis in humans, and has been documented in other incidental hosts such as birds, horses, dogs and non-human primates. It is endemic in Hawaii, and there have been sporadic reports in the southern continental United States. This parasite uses rats as definitive hosts and snails as intermediate hosts. In this study, we collected potential definitive and intermediate hosts throughout Florida to ascertain the geographic distribution in the state: Rats, environmental rat fecal samples, and snails were collected from 18 counties throughout the state. Classical diagnostics and morphological identification, along with molecular techniques were used to identify nematode species and confirm the presence of A. cantonensis. Of the 171 Rattus rattus collected, 39 (22.8%) were positive for A. cantonensis, and 6 of the 37 (16.2%) environmental rat fecal samples collected in three of the surveyed counties were also positive for this parasite by real time PCR. We examined 1,437 gastropods, which represented 32 species; 27 (1.9%) were positive for A. cantonensis from multiple sites across Florida. Three non-native gastropod species, Bradybaena similaris, Zachrysia provisoria, and Paropeas achatinaceum, and three native gastropod species, Succinea floridana, Ventridens demissus, and Zonitoides arboreus, which are newly recorded intermediate hosts for the parasite, were positive for A. cantonensis. This study indicates that A. cantonensis is established in Florida through the finding of adult and larval stages in definitive and intermediate hosts, respectively, throughout the state. The ability for this historically subtropical nematode to thrive in a more temperate climate is alarming, however as the climate changes and average temperatures rise, gastropod distributions will probably expand, leading to the spread of this parasite in more temperate areas. Through greater awareness of host species and prevalence of A. cantonensis in the United States, potential accidental infections may be avoided.

Angiostrongylus cantonensis in Introduced Gastropods in Southern Florida.

Angiostrongylus cantonensis , the rat lungworm, is a zoonotic, parasitic nematode that uses the rat as a definitive host and gastropods as intermediate hosts. It is prevalent in parts of Asia, the Pacific islands, and the Caribbean. In the United States, A. cantonensis is established in Hawaii and in recent years has been reported in Alabama, California, Louisiana, and Florida, where it has been found in the reintroduced Lissachatina fulica (also known as Achatina fulica), the giant African snail that was once eradicated from the state. Since 2004, A. cantonensis has been identified as the causative agent for 2 non-human primate deaths in Florida, one attributed to ingestion of the snail Zachrysia provisoria. Our study further supports the presence of A. cantonensis in Z. provisoria in Florida and identifies 2 additional introduced terrestrial snails, Bradybaena similaris and Alcadia striata, that serve as intermediate hosts for A. cantonensis , as well as evidence of rat infection, in southern Florida. The finding of both definitive and intermediate hosts suggests that A. cantonensis may be established in south Florida.

The influence of changing prey availability on the prevalence of Diphyllobothrium in river otters from Yellowstone National Park.

Parasite prevalence in predatory mammals is influenced by numerous factors including diet, sex, season, and habitat. We examined the effect of such factors on the prevalence of gastrointestinal helminths in North American river otters ( Lontra canadensis ) in Yellowstone Lake, Yellowstone National Park. Otters in this ecosystem have recently experienced a decline in their main prey, Yellowstone cutthroat trout ( Oncorhynchus clarkii bouvieri), and have, in turn, increased consumption of alternative foods. Helminths were found in 13.2% of otter fecal samples. The dominant parasite was a Diphyllobothrium sp. ( Diphyllobothrium ditremum or Diphyllobothrium dendriticum ), a cestode acquired from cutthroat trout. Truttaedacnitis truttae and Contracaecum spp. nematodes were incidental parasites in otter feces, and acanthocephalan eggs were found in 1 sample. The prevalence of trout remains and a Diphyllobothrium sp. in otter feces was higher during the cutthroat trout spawning season. A Diphyllobothrium sp. was more prevalent in the feces of female otters. There was no relationship between annual declines in the frequency of trout in otter feces and prevalence of parasites. Helminth prevalence and species richness in Yellowstone otters was low and likely reflects low predator densities and few intermediate hosts. This is the first study reporting the helminth fauna of river otters in the Greater Yellowstone Area and confirms the otter as a definitive host for Diphyllobothrium sp. in this region.

Detection of spirorchiid trematodes in gastropod tissues by polymerase chain reaction: preliminary identification of an intermediate host of Learedius learedi.

Marine spirorchiid trematodes are associated with morbidity and mortality in sea turtles worldwide. The intermediate hosts remain unknown, and discovery efforts are hindered by the large number and great diversity of potential hosts within sea turtle habitats, as well the potential for low prevalence and overdispersion. A high-throughput DNA extraction and polymerase chain reaction-based method was developed to detect the internal transcribed spacer 2 (ITS2) region of the ribosomal gene of 2 spirorchiid genera, Learedius and Hapalotrema , within pooled samples of gastropod tissues. A model system consisting of freshwater snail ( Pomacea bridgesii ) tissues and DNA extracts spiked with adult Learedius learedi and known quantities of spirorchiid DNA was used to develop and test the technique. Threshold of detection was found to be equivalent to an early prepatent infection within 1.5 g of gastropod tissue. This technique was used to screen approximately 25 species of marine gastropods at a captive facility where green turtles ( Chelonia mydas ) become infected by L. learedi . The parasite was detected in a sample of knobby keyhole limpet ( Fissurella nodosa ), thus providing the first evidence of an intermediate host for a marine spirorchiid trematode. This technique has many potential applications in trematode life cycle discovery studies.