# Fatty acid analysis as a tool to infer the diet in Illinois river otters (Lontra canadensis)

**Authors:** Damian Satterthwaite-Phillips, Jan Novakofski, Nohra Mateus-Pinilla

PMC · DOI: 10.1186/2055-0391-56-16 · 2014-09-02

## TL;DR

This study uses fatty acid analysis to determine the diet of river otters in Illinois, finding that fish and molluscs are the main components.

## Contribution

The study demonstrates the effectiveness of fatty acid analysis in inferring diet in an opportunistic predator with diverse prey.

## Key findings

- Fish species make up the largest portion (37.7%) of the otter diet by mass.
- Molluscs rank second at 32.0%, indicating a larger dietary role than previously reported.
- Fatty acid profiles differ among prey species, allowing diet inference despite diversity.

## Abstract

Fatty acids (FA) have recently been used in several studies to infer the diet in a number of species. While these studies have been largely successful, most have dealt with predators that have a fairly specialized diet. In this paper, we used FA analysis as a tool to infer the diet of the nearctic river otter (Lontra canadensis). The river otter is an opportunistic predator known to subsist on a wide variety of prey including, fishes, crayfish, molluscs, reptiles and amphibians, among others. We analyzed the principle components of 60 FA from otters and 25 potential prey species in Illinois, USA. Prey species came from 4 major taxonomic divisions: fishes, crayfish, molluscs and amphibians. Within each division, most, but not all, species had significantly different profiles. Using quantitative FA signature analysis, our results suggest that, by mass, fish species are the most significant component of Illinois River otters’ diet (37.7 ± 1.0%). Molluscs ranked second (32.0 ± 0.8%), followed by amphibians (27.3 ± 4.3%), and finally, crayfish (3.0 ± 0.6%). Our analysis indicates that molluscs make up a larger portion of the otter diet than previously reported. Throughout much of the Midwest there have been numerous otter reintroduction efforts, many of which appear to be successful. In regions where mollusc species are endangered, these data are essential for management agencies to better understand the potential impact of otters on these species. Our analysis further suggests that quantitative FA signature analysis can be used to infer diet even when prey species are diverse, to the extent that their FA profiles differ. Better understanding of the otter’s metabolism of FA would improve inferences of diet from FA analysis.

## Linked entities

- **Species:** Lontra canadensis (taxon 76717)

## Full-text entities

- **Diseases:** PC (MESH:D015324)
- **Species:** Pomoxis nigromaculatus (black crappie, species) [taxon 8182], Lepomis microlophus (redear sunfish, species) [taxon 270331], Phocidae (crawling seals, family) [taxon 9709], Lampsilis siliquoidea (species) [taxon 52396], Fusconaia flava (Wabash pigtoe, species) [taxon 96912], Amblema plicata [taxon 47525], Squalius cephalus (chub, species) [taxon 8284], Astacoidea (crayfish, superfamily) [taxon 6724], Lontra canadensis (Northern American river otter, species) [taxon 76717], Micropterus dolomieu (smallmouth bass, species) [taxon 147949], Etheostoma blennioides (greenside darter, species) [taxon 54350], Siluriformes (catfishes, order) [taxon 7995], Homo sapiens (human, species) [taxon 9606], Pomoxis annularis (species) [taxon 201697], Dorosoma cepedianum (American gizzard shad, species) [taxon 336262], Nocomis biguttatus (hornyhead chub, species) [taxon 86923], Micropterus salmoides (largemouth bass, species) [taxon 27706], Semotilus atromaculatus (creek chub, species) [taxon 67558], Caudata (salamanders, order) [taxon 8293], Corbicula fluminea (asian clam, species) [taxon 45949], Phoca vitulina (harbor seal, species) [taxon 9720], Pleurobema sintoxia (species) [taxon 96916]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC4540258/full.md

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Source: https://tomesphere.com/paper/PMC4540258