Data from: Elliptical Time-Density model to estimate wildlife utilization distributions

Citation
Wall J, Wittemyer G, LeMay V, Douglas-Hamilton I, Klinkenberg B. 2014. Data from: Elliptical Time-Density model to estimate wildlife utilization distributions. Movebank Data Repository. https://doi.org/10.5441/001/1.f321pf80
Abstract
We present a new animal space-use model (Elliptical Time-Density - ETD) that uses discrete-time tracking data collected in wildlife movement studies. The ETD model provides a trajectory-based, non-parametric approach to estimate the utilization distribution (UD) of an animal, using model parameters derived directly from the movement behavior of the species. The model builds on the theory of ‘time-geography’ whereby elliptical constraining regions are established between temporally-adjacent recorded locations. Using a Weibull speed distribution fitted for an animal's movement data, a time-density value (i.e., time per unit landscape) is determined from the expectation of all elliptical regions equal to, or greater-than, the minimum bounding ellipse for a given landscape point. We tested the ETD model using a tracking dataset for an African elephant (Loxodonta africana) and compared the resulting UDs for regularly sampled, frequently recorded locations, as well as irregular random time intervals between locations and also infrequent temporal-sampling regimes, providing insight to the method's performance with different resolution data. We compared the performance of the ETD model, the Brownian Bridge Movement Model (BBMM), the Time-Geography Density Estimator (TGDE) and the Kernel Density Estimator (KDE) by calculating omission/commission errors from the predicted space-use distribution of each model relative to the true known UD of our elephant test data. The comparison was made for the 10% to 99% percentile UD model areas. The ETD90 model (i.e., ETD model parameterized using the 90% percentile value of the Weibull speed distribution) resulted in the fewest errors of commission and omission with regards to locating the true movement path at the 99% percentile UD area. The ETD model provides an improved approach for estimating animal UDs since: i) parameters are derived directly from the tracking data rather than assumed; ii) parameter values are biologically interpretable; iii) the Weibull speed distribution is adaptable to various temporal-sampling regimes; and iv) the ETD model handles the case of degenerate ellipses thus preserving landscape connectivity in the UD. Software (freeware) for calculating the ETD and a Bayesian framework for estimating the Weibull distribution speed parameters are also introduced in the paper.
Keywords
Loxodonta africana,animal movement,GIS,GPS tracking,home-range,Loxodonta africana,utilization distribution
Taxa
Taxon
Loxodonta africana
African Bush Elephant, African elephant, African savannah elephant
Sensors
Sensor
GPS
Related Workflows
DOIs of related Publications
BibTex
@misc{001/1_f321pf80,
  title = {Data from: Elliptical Time-Density model to estimate wildlife utilization distributions},
  author = {Wall, J and Wittemyer, G and LeMay, V and Douglas-Hamilton, I and Klinkenberg, B},
  year = {2014},
  URL = {http://dx.doi.org/10.5441/001/1.f321pf80},
  doi = {doi:10.5441/001/1.f321pf80},
  publisher = {Movebank data repository}
}
RIS
TY  - DATA
ID  - doi:10.5441/001/1.f321pf80
T1  - Data from: Elliptical Time-Density model to estimate wildlife utilization distributions
AU  - Wall, Jake
AU  - Wittemyer, George
AU  - LeMay, Valerie
AU  - Douglas-Hamilton, Iain
AU  - Klinkenberg, Brian
Y1  - 2014/08/01
KW  - Loxodonta africana
KW  - African elephant
KW  - animal movement
KW  - GIS
KW  - GPS tracking
KW  - home-range
KW  - Loxodonta africana
KW  - utilization distribution
KW  - Loxodonta africana
PB  - Movebank data repository
UR  - http://dx.doi.org/10.5441/001/1.f321pf80
DO  - doi:10.5441/001/1.f321pf80
ER  -