White nose syndrome in Nova Scotia

White nose syndrome has been found in Nova Scotia, the fourth Canadian province to be stricken with the bat disease. The syndrome was detected in a bat found flying in daylight on March 23 in the town of Brooklyn, in Hant County. White nose syndrome had been previously found in Canada in Ontario, Quebec, and New Brunswick.

Alison Whitlock, the U.S. Fish and Wildlife Service’s Northeast white nose syndrome coordinator mentioned the news during her presentation on the white nose syndrome national plan at the Northeast Fish & Wildlife Conference yesterday.

Find out more from the Nova Scotia Department of Natural Resources press release here. News stories appeared in The Global Saskatoon, The Canadian Press, and Halifax News Net.

White nose syndrome in Nova Scotia

White nose syndrome has been found in Nova Scotia, the fourth Canadian province to be stricken with the bat disease. The syndrome was detected in a bat found flying in daylight on March 23 in the town of Brooklyn, in Hant County. White nose syndrome had been previously found in Canada in Ontario, Quebec, and New Brunswick.

Alison Whitlock, the U.S. Fish and Wildlife Service’s Northeast white nose syndrome coordinator mentioned the news during her presentation on the white nose syndrome national plan at the Northeast Fish & Wildlife Conference yesterday.

Find out more from the Nova Scotia Department of Natural Resources press release here. News stories appeared in The Global Saskatoon, The Canadian Press, and Halifax News Net.

Are they eating people food?

Is a particular species eating human-provided food? A group of researchers studying the endangered San Joaquin kit fox found that analyzing the stable isotopes of carbon and nitrogen in the foxes’ fur painted a more accurate picture of the foxes’ diet than scat analysis alone. The team’s analysis is based on the idea that corn, a C4 grass, is the basic building block of modern, industrial food. Therefore, in areas of the country where C3 grasses predominate, looking for that skewed C13/N15 stable isotope signature can point towards a diet of modern, industrial people food.


The researchers found that the kit foxes living in an urban area in California had a C13/N15 signature almost identical to the people living in the area. And while they found the occasional scrap of food wrapper, because there are no bones or hair, the foxes’ people-food meals (which might have been garbage, or dog food left on the back porch), otherwise left little evidence in scat.

The researchers note that this technique has widespread uses. They also note that C4 grasses are native to some areas of the country, particularly in the South and West, and and would influence results there.


The paper, in The Journal of Mammalogy is open access.


Photo: B. “Moose” Peterson. Courtesy US Fish and Wildlife Service