Cat Food Mystery Foils Diet Study
For Immediate Release
A study that set out to measure how much wildlife domestic cats eat to supplement the food they are given by their owners was unsuccessful due to an unexpectedly high variability in cat food ingredients. This accidental discovery suggests that some cat food manufacturers regularly change ingredient composition, even within the same flavors of cat food.
Feral cats are responsible for several native wildlife declines, like the Key Largo woodrat, but the impact of pet cats on urban wildlife isn’t well understood. This inspired a collaborative study led by researchers at North Carolina State University to directly measure how often pet cats eat outside of their food bowls.
A common way to understand the composition of animal diets is to collect samples of fur, nails, or blood from an animal and analyze its carbon and nitrogen isotopes. All organic materials contain isotopes of elements that get locked into body tissues, following the basic principle that you are what you eat. For example, the ratios of nitrogen isotopes present in carnivores are dependably distinct from those of plant eaters. Similarly, researchers can distinguish the types of plants that an animal eats by measuring the ratio of carbon isotopes.
For this study, researchers collected isotopes from things a cat might eat, including different brands and flavors of cat foods. They predicted cats that only ate from their food bowls would have an identical isotopic match to the food, while differences between cat and pet food would indicate a cat supplementing its diet with wild prey.
“We really thought this was going to be an ideal application of the isotope methodology,” says Roland Kays, a co-author of the study and scientist at NC State and the NC Museum of Natural Sciences. “Usually these studies are complicated by the variety of food a wild animal eats, but here we had the exact pet food people were giving their cats.”
This assumes that cat food producers use consistent types and amounts of ingredients. As it turns out, that is not the case.
The carbon and nitrogen isotopes in cat foods varied widely – even between foods that were the same flavor and from the same brand. The only clear relationship found was that the least expensive cat foods had higher carbon values, indicating a strong presence of corn product in inexpensive cat food. In addition, pet foods sampled from the United Kingdom had lower carbon values, suggesting less input from corn products.
“This isn’t what we aimed to study, but it is important in as much as there are hundreds of millions of cats (perhaps more) on Earth,” says Rob Dunn, co-author of the study and a professor in NC State’s Department of Applied Ecology. “The diets of cats, dogs and domestic animals have enormous consequences for global sustainability, cat health and much else. But they are very non-transparent. In short, at the end of this study we are still ignorant about why some cats kill more wildlife than others, and we have also found we are ignorant about something else, the shifting dynamics of ‘Big Pet Food.’”
The paper, “High variability within pet foods prevents the identification of native species in pet cats’ diets using isotopic evaluation,” is published in the journal PeerJ. The paper was authored by Brandon McDonald, Troi Perkins, and Roland Kays from NC State’s Department of Forestry and Environmental Resources and the North Carolina Museum of Natural Sciences; Rob Dunn from NC State’s Department of Applied Ecology; Jennifer McDonald and Holly Cole from the University of Exeter’s Center for Ecology and Conservation; and Robert Feranec from New York State Museum.
The work was done with support from the National Science Foundation, under grant 1319293; the British Ecological Society, under grant LRB16/1013; and the Undergraduate Research Committee at North Carolina State University.
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Note to Editors: The study abstract follows.
“High variability within pet foods prevents the identification of native species in pet cats’ diets using isotopic evaluation”
Authors: Brandon W. McDonald, Troi Perkins, Roland Kays, North Carolina State University and North Carolina Museum of Natural Sciences; Robert R. Dunn, North Carolina State University and Natural History Museum of Denmark; Jennifer McDonald and Holly Cole, University of Exeter; Robert S. Feranec, New York State Museum
Published: Jan 22, 2020, PeerJ
DOI: 10.7717/peerj.8337
Abstract: Domestic cats preying on wildlife is a frequent conservation concern but typical approaches for assessing impacts rely on owner reports of prey returned home, which can be biased by inaccurate reporting or by cats consuming prey instead of bringing it home. Isotopes offer an alternative way to quantify broad differences in animal diets. By obtaining samples of pet food from cat owners we predicted that we would have high power to identify cats feeding on wild birds or mammals, given that pet food is thought to have higher C isotope values, due to the pervasive use of corn and/or corn by-products as food ingredients, than native prey. We worked with citizen scientists to quantify the isotopes of 202 cat hair samples and 239 pet food samples from the US and UK. We also characterized the isotopes of 11 likely native prey species from the southeastern US and used mixing models to assess the diet of 47 cats from the same region. Variation in C and N isotope values for cat food was very high, even within the same brand/flavor, suggesting that pet food manufacturers use a wide range of ingredients, and that these may change over time. Cat food and cat hair from the UK had lower C values than the US, presumably reflecting differences in the amount of corn used in the food chains of the two countries. This high variation in pet food reduced our ability to classify cats as hunters of native prey, such that only 43% of the animals could be confidently assigned. If feral or free ranging cats were considered, this uncertainty would be even higher as pet food types would be unknown. Our results question the general assumption that anthropogenic foods always have high C isotope values, because of the high variability we documented within one product type (cat food) and between countries (US vs. UK), and emphasize the need to test a variety of standards before making conclusions from isotope ecology studies.
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