Hepatic Amyloidosis in a Chronically Entangled Grey Seal (Halichoerus grypus).

Grey seal (Halichoerus grypus) entrapment in fishing gear is well documented, consisting of two forms: peracute underwater entrapment and chronic entanglement. We now highlight a previously undescribed sequela to chronic entanglement in a female grey seal estimated to be at least 2 years of age. The animal was first observed in September 2018 on the coast of north Cornwall, southwest England, with a large encircling neck wound consistent with monofilament net entanglement. In April 2021, it was admitted for attempted rehabilitation but had to be euthanized after 9 days due to clinical deterioration despite treatment. At post-mortem examination, the seal was in poor nutritional state, the nose to flipper length was low for its estimated age and the liver was markedly enlarged, pale and friable in texture with evidence of recent and previous hepatic haemorrhage. Histopathology revealed hepatic amyloidosis and evidence of amyloid in one kidney and one adrenal gland. Proteomic analysis of microdissected amyloid from the liver indicated type AA amyloid. Chronic entanglement is the most plausible cause of AA amyloidosis in this animal, indicating that amyloidosis should be considered as a pathological sequela and welfare concern associated with chronic entanglement of grey seals.

Investigating microplastic trophic transfer in marine top predators.

Microplastics are highly bioavailable to marine organisms, either through direct ingestion, or indirectly by trophic transfer from contaminated prey. The latter has been observed for low-trophic level organisms in laboratory conditions, yet empirical evidence in high trophic-level taxa is lacking. In natura studies face difficulties when dealing with contamination and differentiating between directly and indirectly ingested microplastics. The ethical constraints of subjecting large organisms, such as marine mammals, to laboratory investigations hinder the resolution of these limitations. Here, these issues were resolved by analysing sub-samples of scat from captive grey seals (Halichoerus grypus) and whole digestive tracts of the wild-caught Atlantic mackerel (Scomber scombrus) they are fed upon. An enzymatic digestion protocol was employed to remove excess organic material and facilitate visual detection of synthetic particles without damaging them. Polymer type was confirmed using Fourier-Transform Infrared (FTIR) spectroscopy. Extensive contamination control measures were implemented throughout. Approximately half of scat subsamples (48%; n = 15) and a third of fish (32%; n = 10) contained 1-4 microplastics. Particles were mainly black, clear, red and blue in colour. Mean lengths were 1.5 mm and 2 mm in scats and fish respectively. Ethylene propylene was the most frequently detected polymer type in both. Our findings suggest trophic transfer represents an indirect, yet potentially major, pathway of microplastic ingestion for any species whose feeding ecology involves the consumption of whole prey, including humans.

Entanglement of grey seals Halichoerus grypus at a haul out site in Cornwall, UK.

Entanglement in marine debris has been internationally recognised as a potential threat to marine species. Sightings records and a photo identification catalogue from a haul out site in southwest England were used to establish entanglement records for grey seals Halichoerus grypus. Between 2004 and 2008 the annual mean entanglement rates varied from 3.6% to 5%. The maximum recapture period for entangled seals compared to paired control seals was significantly less (p=0.045) suggesting an increased mortality rate for affected seals. Of the 58 entangled cases in the catalogue, 64% had injuries that were deemed serious. Of the 15 cases where the entangling debris was visible, 14 were entangled in fisheries materials. The entanglement reported at this site could indicate a high rate of mortality and should be monitored carefully. On a more immediate level, entanglement represents a welfare issue for the affected animals.