Trace element bioaccumulation, tissue distribution, and elimination in odontocetes stranded in Florida and Georgia, USA over a 15-year period (2007-2021).

Odontocetes obtain nutrients including essential elements through their diet and are exposed to heavy metal contaminants via ingestion of contaminated prey. We evaluated the prevalence, concentration, and tissue distribution of essential and non-essential trace elements, including heavy metal toxicants, in tissue (blubber, kidney, liver, skeletal muscle, skin) and fecal samples collected from 90 odontocetes, representing nine species, that stranded in Georgia and Florida, USA during 2007-2021. Samples were analyzed for concentrations of seven essential (cobalt, copper, iron, manganese, molybdenum, selenium, zinc) and five non-essential (arsenic, cadmium, lead, mercury, thallium) elemental analytes using inductively-coupled plasma mass spectrometry. Risso's dolphins (Grampus griseus) and short-finned pilot whales (Globicephala macrorhynchus) had the highest median concentrations of mercury, cadmium, and lead, while dwarf sperm whales (Kogia sima) had the lowest. Adult pygmy and dwarf sperm whales that stranded in 2019-2021 had higher concentrations of arsenic, copper, iron, lead, manganese, selenium, thallium, and zinc compared to those that stranded in 2010-2018, suggesting an increasing risk of exposure over time. The highest concentrations of many elements (e.g., cadmium, cobalt, copper, manganese, molybdenum, thallium, zinc) were in fecal samples, illustrating the usefulness of this noninvasively collected sample. Aside from fecal samples, hepatic tissues had the highest concentrations of iron, manganese, mercury, molybdenum, and selenium in most species; renal tissues had the highest concentrations of cadmium; skin had the highest concentrations of zinc; and copper, arsenic, and lead concentrations were primarily distributed among the liver and kidneys. Phylogenetic differences in patterns of trace element concentrations likely reflect species-specific differences in diet, trophic level, and feeding strategies, while heterogeneous distributions of elemental analytes among different organ types reflect differences in elemental biotransformation, elimination, and storage. This study illustrates the importance of monitoring toxic contaminants in stranded odontocetes, which serve as important sentinels of environmental contamination, and whose health may be linked to human health.

Gastrointestinal leiomyosarcoma in a pygmy sperm whale (Kogia breviceps).

An adult male pygmy sperm whale (Kogia breviceps) was stranded within a tidal pool on Fernandina Beach on the north Florida Atlantic coast (USA) and expired soon after discovery. Necropsy findings included a small intestinal mass markedly expanding the intestinal wall and partially obstructing the lumen. This finding likely led to the malnutrition and ultimately the stranding of this whale. The differential diagnoses for the mass based on gross evaluation included a duodenal adenocarcinoma, leiomyoma/sarcoma, gastrointestinal stroma tumor, and benign/malignant peripheral nerve sheath tumor, previously referred to as neurofibromas or schwannomas. The mass was presumptively diagnosed as a leiomyosarcoma via routine histopathology and confirmed by immunoreactivity for desmin and smooth actin (SMA). KIT, a gene name for CD 117, was negative, excluding a gastrointestinal stromal tumor (GIST). Leiomyosarcomas have been reported within numerous wild and domestic species, although this is the first reported case of any neoplasm in a pygmy sperm whale (K. breviceps).