Saved in:
Bibliographic Details
Main Authors: Stears, Keenan, Schmitt, Melissa H, Peel, Mike J, Ramalevha, Tsumbedzo, McCauley, Douglas J, Thompson, Dave I, Burkepile, Deron E
Format: Artículo científico
Language:en
Published: Ecology and evolution 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/39803192/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266255339749378
author Stears, Keenan
Schmitt, Melissa H
Peel, Mike J
Ramalevha, Tsumbedzo
McCauley, Douglas J
Thompson, Dave I
Burkepile, Deron E
author_facet Stears, Keenan
Schmitt, Melissa H
Peel, Mike J
Ramalevha, Tsumbedzo
McCauley, Douglas J
Thompson, Dave I
Burkepile, Deron E
Stears, Keenan
Schmitt, Melissa H
Peel, Mike J
Ramalevha, Tsumbedzo
McCauley, Douglas J
Thompson, Dave I
Burkepile, Deron E
collection PubMed - marine biology
contents Remotely-Sensed Game Trails Are a Behavioral Footprint That Explains Patterns of Herbivore Habitat Use. Stears, Keenan Schmitt, Melissa H Peel, Mike J Ramalevha, Tsumbedzo McCauley, Douglas J Thompson, Dave I Burkepile, Deron E Trade-offs between food acquisition and predator avoidance shape the landscape-scale movements of herbivores. These movements create landscape features, such as game trails, which are paths that animals use repeatedly to traverse the landscape. As such, these trails integrate behavioral trade-offs over space and time. Here, we used remotely sensed imagery to analyze the density of game trails with spatial environmental variables to understand landscape-scale patterns of herbivore habitat use in an African savanna. Woody plant cover was the best predictor of game trail density, with the highest densities correlating with intermediate woody plant cover. We also explored how patterns of game trail density compared to two known measures of herbivore habitat use (i.e., dung counts and maximum entropy modeling) and found strong quantitative fits. To understand the patterns revealed by the density of game trails, we explored the trade-off between food acquisition and perceived predation risk across a woody plant cover gradient. Using behavioral observations, we found that the relationship between woody plant cover and the distribution of game trails was likely driven by the risk and reward trade-off, with less vigilance and more feeding occurring in areas with a high density of game trails and intermediate woody cover. Ultimately, we show that game trails are a novel data source that can be used to identify broadly-occurring patterns of herbivore habitat use over large spatial scales.
format Artículo científico
id pubmed_39803192
institution PubMed
language en
publishDate 2025
publisher Ecology and evolution
record_format pubmed
spellingShingle Remotely-Sensed Game Trails Are a Behavioral Footprint That Explains Patterns of Herbivore Habitat Use.
Stears, Keenan
Schmitt, Melissa H
Peel, Mike J
Ramalevha, Tsumbedzo
McCauley, Douglas J
Thompson, Dave I
Burkepile, Deron E
Remotely-Sensed Game Trails Are a Behavioral Footprint That Explains Patterns of Herbivore Habitat Use. Stears, Keenan Schmitt, Melissa H Peel, Mike J Ramalevha, Tsumbedzo McCauley, Douglas J Thompson, Dave I Burkepile, Deron E Trade-offs between food acquisition and predator avoidance shape the landscape-scale movements of herbivores. These movements create landscape features, such as game trails, which are paths that animals use repeatedly to traverse the landscape. As such, these trails integrate behavioral trade-offs over space and time. Here, we used remotely sensed imagery to analyze the density of game trails with spatial environmental variables to understand landscape-scale patterns of herbivore habitat use in an African savanna. Woody plant cover was the best predictor of game trail density, with the highest densities correlating with intermediate woody plant cover. We also explored how patterns of game trail density compared to two known measures of herbivore habitat use (i.e., dung counts and maximum entropy modeling) and found strong quantitative fits. To understand the patterns revealed by the density of game trails, we explored the trade-off between food acquisition and perceived predation risk across a woody plant cover gradient. Using behavioral observations, we found that the relationship between woody plant cover and the distribution of game trails was likely driven by the risk and reward trade-off, with less vigilance and more feeding occurring in areas with a high density of game trails and intermediate woody cover. Ultimately, we show that game trails are a novel data source that can be used to identify broadly-occurring patterns of herbivore habitat use over large spatial scales.
title Remotely-Sensed Game Trails Are a Behavioral Footprint That Explains Patterns of Herbivore Habitat Use.
url https://pubmed.ncbi.nlm.nih.gov/39803192/