Quantifying levels of animal activity using camera trap data

1.Activity level (the proportion of time that animals spend active) is a behavioural and ecological metric that can provide an indicator of energetics, foraging effort and exposure to risk. However, activity level is poorly known for free-living animals because it is difficult to quantify activity i...

Full description

Bibliographic Details
Published in:Methods in Ecology and Evolution
Main Authors: Rowcliffe, J.M., Kays, R., Kranstauber, B., Carbone, C., Jansen, P.A.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
activity pattern
circadian activity
common vole
determinants
ecology
food
home-range size
microtus-arvalis
predator avoidance
time
Common vole
Microtus arvalis
Online Access:https://research.wur.nl/en/publications/quantifying-levels-of-animal-activity-using-camera-trap-data
https://doi.org/10.1111/2041-210X.12278
Description
Summary:1.Activity level (the proportion of time that animals spend active) is a behavioural and ecological metric that can provide an indicator of energetics, foraging effort and exposure to risk. However, activity level is poorly known for free-living animals because it is difficult to quantify activity in the field in a consistent, cost-effective and non-invasive way. 2.This article presents a new method to estimate activity level with time-of-detection data from camera traps (or more generally any remote sensors), fitting a flexible circular distribution to these data to describe the underlying activity schedule, and calculating overall proportion of time active from this. 3.Using simulations and a case study for a range of small- to medium-sized mammal species, we find that activity level can reliably be estimated using the new method. 4.The method depends on the key assumption that all individuals in the sampled population are active at the peak of the daily activity cycle. We provide theoretical and empirical evidence suggesting that this assumption is likely to be met for many species, but may be less likely met in large predators, or in high-latitude winters. Further research is needed to establish stronger evidence on the validity of this assumption in specific cases; however, the approach has the potential to provide an effective, non-invasive alternative to existing methods for quantifying population activity levels.

Similar Items