| Kategorie |
Textpublikation |
| Referenztyp |
Zeitschriften |
| DOI |
10.1111/2041-210X.13597
|
| Lizenz |
|
| Titel (primär) |
Estimating encounter location distributions from animal tracking data |
| Autor |
Noonan, M.J.; Martinez‐Garcia, R.; Davis, G.H.; Crofoot, M.C.; Kays, R.; Hirsch, B.T.; Caillaud, D.; Payne, E.; Sih, A.; Sinn, D.L.; Spiegel, O.; Fagan, W.F.; Fleming, C.H.; Calabrese, J.M. |
| Journal / Serie |
Methods in Ecology and Evolution |
| Erscheinungsjahr |
2021 |
| Department |
OESA |
| Band/Volume |
12 |
| Heft |
7 |
| Seite von |
1158 |
| Seite bis |
1173 |
| Sprache |
englisch |
| Topic |
T5 Future Landscapes |
| Daten-/Softwarelinks |
https://doi.org/10.5061/dryad.sf7m0cg5d |
| Supplements |
https://besjournals.onlinelibrary.wiley.com/action/downloadSupplement?doi=10.1111%2F2041-210X.13597&file=mee313597-sup-0001-Supinfo.pdf |
| Keywords |
highlight; Animal movement; Cebus capucinus; Contact; Home range; Interactions; Tiliqua rugosa |
| Abstract |
- Ecologists have long been interested in linking
individual behavior with higher‐level processes. For motile species,
this ‘upscaling’ is governed by how well any given movement strategy
maximizes encounters with positive factors, and minimizes encounters
with negative factors. Despite the importance of encounter events for a
broad range of ecological processes, encounter theory has not kept pace
with developments in animal tracking or movement modeling. Furthermore,
existing work has focused primarily on the relationship between animal
movement and encounter rates while the relationship between individual movement and the spatial locations of encounter events in the environment has remained conspicuously understudied.
- Here, we bridge this gap by introducing a method for
describing the long‐term encounter location probabilities for movement
within home ranges, termed the conditional distribution of encounters
(CDE). We then derive this distribution, as well as confidence
intervals, implement its statistical estimator into open source
software, and demonstrate the broad ecological relevance of this
distribution.
- We first use simulated data to show how our estimator
provides asymptotically consistent estimates. We then demonstrate the
general utility of this method for three simulation‐based scenarios that
occur routinely in biological systems: i) a population of individuals
with home ranges that overlap with neighbors; ii) a pair of individuals
with a hard territorial border between their home ranges; and iii) a
predator with a large home range that encompassed the home ranges of
multiple prey individuals. Using GPS data from white‐faced capuchins (Cebus capucinus) tracked on Barro Colorado Island, Panama, and sleepy lizards (Tiliqua rugosa)
tracked in Bundey, South Australia, we then show how the CDE can be
used to estimate the locations of territorial borders, identify key
resources, quantify the potential for competitive or predatory
interactions, and/or identify any changes in behaviour that directly
result from location‐specific encounter probability.
- The CDE enables researchers to better understand the
dynamics of populations of interacting individuals. Notably, the general
estimation framework developed in this work builds straightforwardly
off of home range estimation and requires no specialised data collection
protocols. This method is now openly available via the ctmm R package.
|
| dauerhafte UFZ-Verlinkung |
https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=24506 |
Noonan, M.J., Martinez‐Garcia, R., Davis, G.H., Crofoot, M.C., Kays, R., Hirsch, B.T., Caillaud, D., Payne, E., Sih, A., Sinn, D.L., Spiegel, O., Fagan, W.F., Fleming, C.H., Calabrese, J.M. (2021):
Estimating encounter location distributions from animal tracking data
Methods Ecol. Evol. 12 (7), 1158 - 1173 |
