Clarifying space use concepts in ecology: Range vs. occurrence distributions

Jesse M. Alston; Christen H. Fleming; Michael J. Noonan; Marlee A. Tucker; Inês Silva; Cody Folta; Thomas S.B. Akre; Abdullahi H. Ali; Jerrold L. Belant; Dean Beyer; Niels Blaum; Katrin Böhning-Gaese; Rogério Cunha de Paula; Jasja Dekker; Jonathan Drescher-Lehman; Nina Farwig; Claudia Fichtel; Christina Fischer; Adam T. Ford; René Janssen; Florian Jeltsch; Peter M. Kappeler; Scott D. LaPoint; A. Catherine Markham; E. Patricia Medici; Ronaldo Gonçalves Morato; Ran Nathan; Kirk A. Olson; Bruce D. Patterson; Tyler R. Petroelje; Emiliano Esterci Ramalho; Sascha Rösner; Luiz Gustavo Rodrigues Oliveira-Santos; Dana G. Schabo; Nuria Selva; Agnieszka Sergiel; Orr Spiegel; Wiebke Ullmann; Filip Zięba; Tomasz Zwijacz-Kozica; George Wittemyer; William F. Fagan; Thomas Müller; Justin M. Calabrese

doi:10.1002/ecy.70300

Clarifying space use concepts in ecology: Range vs. occurrence distributions

Jesse M. Alston
, Christen H. Fleming
, Michael J. Noonan
, Marlee A. Tucker
, Inês Silva
, Cody Folta
, Thomas S.B. Akre
, Abdullahi H. Ali
, Jerrold L. Belant
, Dean Beyer
, Niels Blaum
, Katrin Böhning-Gaese
, Rogério Cunha de Paula
, Jasja Dekker
, Jonathan Drescher-Lehman
, Nina Farwig
, Claudia Fichtel
, Christina Fischer
, Adam T. Ford
, René Janssen

Florian Jeltsch, Peter M. Kappeler, Scott D. LaPoint, A. Catherine Markham, E. Patricia Medici, Ronaldo Gonçalves Morato, Ran Nathan, Kirk A. Olson, Bruce D. Patterson, Tyler R. Petroelje, Emiliano Esterci Ramalho, Sascha Rösner, Luiz Gustavo Rodrigues Oliveira-Santos, Dana G. Schabo, Nuria Selva, Agnieszka Sergiel, Orr Spiegel, Wiebke Ullmann, Filip Zięba, Tomasz Zwijacz-Kozica, George Wittemyer, William F. Fagan, Thomas Müller, Justin M. Calabrese^*

^*Corresponding author for this work

Department of Ecology, Evolution & Behavior (EEB)

Research output: Contribution to journal › Article › peer-review

Abstract

Quantifying animal movements is necessary for answering a wide array of research questions in ecology and conservation biology. Consequently, ecologists have made considerable efforts to identify the best way to estimate an animal's home range, and many methods of estimating home ranges have arisen over the past half a century. Most of these methods fall into two distinct categories of estimators that have only recently been described in statistical detail: those that measure range distributions (methods such as kernel density estimation that quantify the long-run behavior of a movement process that features restricted space use) and those that measure occurrence distributions (methods such as Brownian bridge movement models and the Correlated Random Walk Library that quantify uncertainty in an animal movement path during a specific period of observation). In this paper, we use theory, simulations, and empirical analysis to demonstrate the importance of appropriately using these two categories of distributions and their estimators. Conflating range and occurrence distributions can have serious consequences for ecological inference and conservation practice. For example, in most situations, home ranges estimated using estimators of occurrence distributions are too small, and this problem is exacerbated by ongoing improvements in tracking technology that enable more frequent and more accurate data on animal movements. We encourage researchers to use estimators of range distributions to quantify home ranges and estimators of occurrence distributions to answer other questions in movement ecology, such as when and where an animal crossed a linear feature, visited a location of interest, or interacted with other animals.

Original language	English
Article number	e70300
Journal	Ecology
Volume	107
Issue number	3
DOIs	https://doi.org/10.1002/ecy.70300
State	Published - Mar 2026

Bibliographical note

Publisher Copyright:
© 2026 The Author(s). Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.

Keywords

Brownian bridge movement model
Kriging
home range
kernel density estimation
movement ecology
movement model
space use
stochastic process models
utilization distribution

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10.1002/ecy.70300

Cite this

Alston, J. M., Fleming, C. H., Noonan, M. J., Tucker, M. A., Silva, I., Folta, C., Akre, T. S. B., Ali, A. H., Belant, J. L., Beyer, D., Blaum, N., Böhning-Gaese, K., de Paula, R. C., Dekker, J., Drescher-Lehman, J., Farwig, N., Fichtel, C., Fischer, C., Ford, A. T., ... Calabrese, J. M. (2026). Clarifying space use concepts in ecology: Range vs. occurrence distributions. Ecology, 107(3), Article e70300. https://doi.org/10.1002/ecy.70300

@article{a03ca91a3b524abf8992e7b620449cbc,

title = "Clarifying space use concepts in ecology: Range vs. occurrence distributions",

abstract = "Quantifying animal movements is necessary for answering a wide array of research questions in ecology and conservation biology. Consequently, ecologists have made considerable efforts to identify the best way to estimate an animal's home range, and many methods of estimating home ranges have arisen over the past half a century. Most of these methods fall into two distinct categories of estimators that have only recently been described in statistical detail: those that measure range distributions (methods such as kernel density estimation that quantify the long-run behavior of a movement process that features restricted space use) and those that measure occurrence distributions (methods such as Brownian bridge movement models and the Correlated Random Walk Library that quantify uncertainty in an animal movement path during a specific period of observation). In this paper, we use theory, simulations, and empirical analysis to demonstrate the importance of appropriately using these two categories of distributions and their estimators. Conflating range and occurrence distributions can have serious consequences for ecological inference and conservation practice. For example, in most situations, home ranges estimated using estimators of occurrence distributions are too small, and this problem is exacerbated by ongoing improvements in tracking technology that enable more frequent and more accurate data on animal movements. We encourage researchers to use estimators of range distributions to quantify home ranges and estimators of occurrence distributions to answer other questions in movement ecology, such as when and where an animal crossed a linear feature, visited a location of interest, or interacted with other animals.",

keywords = "Brownian bridge movement model, Kriging, home range, kernel density estimation, movement ecology, movement model, space use, stochastic process models, utilization distribution",

author = "Alston, \{Jesse M.\} and Fleming, \{Christen H.\} and Noonan, \{Michael J.\} and Tucker, \{Marlee A.\} and In{\^e}s Silva and Cody Folta and Akre, \{Thomas S.B.\} and Ali, \{Abdullahi H.\} and Belant, \{Jerrold L.\} and Dean Beyer and Niels Blaum and Katrin B{\"o}hning-Gaese and \{de Paula\}, \{Rog{\'e}rio Cunha\} and Jasja Dekker and Jonathan Drescher-Lehman and Nina Farwig and Claudia Fichtel and Christina Fischer and Ford, \{Adam T.\} and Ren{\'e} Janssen and Florian Jeltsch and Kappeler, \{Peter M.\} and LaPoint, \{Scott D.\} and Markham, \{A. Catherine\} and Medici, \{E. Patricia\} and Morato, \{Ronaldo Gon{\c c}alves\} and Ran Nathan and Olson, \{Kirk A.\} and Patterson, \{Bruce D.\} and Petroelje, \{Tyler R.\} and Ramalho, \{Emiliano Esterci\} and Sascha R{\"o}sner and Oliveira-Santos, \{Luiz Gustavo Rodrigues\} and Schabo, \{Dana G.\} and Nuria Selva and Agnieszka Sergiel and Orr Spiegel and Wiebke Ullmann and Filip Zi{\c e}ba and Tomasz Zwijacz-Kozica and George Wittemyer and Fagan, \{William F.\} and Thomas M{\"u}ller and Calabrese, \{Justin M.\}",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s). Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.",

year = "2026",

month = mar,

doi = "10.1002/ecy.70300",

language = "אנגלית",

volume = "107",

journal = "Ecology",

issn = "0012-9658",

publisher = "Ecological Society of America",

number = "3",

}

Alston, JM, Fleming, CH, Noonan, MJ, Tucker, MA, Silva, I, Folta, C, Akre, TSB, Ali, AH, Belant, JL, Beyer, D, Blaum, N, Böhning-Gaese, K, de Paula, RC, Dekker, J, Drescher-Lehman, J, Farwig, N, Fichtel, C, Fischer, C, Ford, AT, Janssen, R, Jeltsch, F, Kappeler, PM, LaPoint, SD, Markham, AC, Medici, EP, Morato, RG, Nathan, R, Olson, KA, Patterson, BD, Petroelje, TR, Ramalho, EE, Rösner, S, Oliveira-Santos, LGR, Schabo, DG, Selva, N, Sergiel, A, Spiegel, O, Ullmann, W, Zięba, F, Zwijacz-Kozica, T, Wittemyer, G, Fagan, WF, Müller, T & Calabrese, JM 2026, 'Clarifying space use concepts in ecology: Range vs. occurrence distributions', Ecology, vol. 107, no. 3, e70300. https://doi.org/10.1002/ecy.70300

TY - JOUR

T1 - Clarifying space use concepts in ecology

T2 - Range vs. occurrence distributions

AU - Alston, Jesse M.

AU - Fleming, Christen H.

AU - Noonan, Michael J.

AU - Tucker, Marlee A.

AU - Silva, Inês

AU - Folta, Cody

AU - Akre, Thomas S.B.

AU - Ali, Abdullahi H.

AU - Belant, Jerrold L.

AU - Beyer, Dean

AU - Blaum, Niels

AU - Böhning-Gaese, Katrin

AU - de Paula, Rogério Cunha

AU - Dekker, Jasja

AU - Drescher-Lehman, Jonathan

AU - Farwig, Nina

AU - Fichtel, Claudia

AU - Fischer, Christina

AU - Ford, Adam T.

AU - Janssen, René

AU - Jeltsch, Florian

AU - Kappeler, Peter M.

AU - LaPoint, Scott D.

AU - Markham, A. Catherine

AU - Medici, E. Patricia

AU - Morato, Ronaldo Gonçalves

AU - Nathan, Ran

AU - Olson, Kirk A.

AU - Patterson, Bruce D.

AU - Petroelje, Tyler R.

AU - Ramalho, Emiliano Esterci

AU - Rösner, Sascha

AU - Oliveira-Santos, Luiz Gustavo Rodrigues

AU - Schabo, Dana G.

AU - Selva, Nuria

AU - Sergiel, Agnieszka

AU - Spiegel, Orr

AU - Ullmann, Wiebke

AU - Zięba, Filip

AU - Zwijacz-Kozica, Tomasz

AU - Wittemyer, George

AU - Fagan, William F.

AU - Müller, Thomas

AU - Calabrese, Justin M.

PY - 2026/3

Y1 - 2026/3

N2 - Quantifying animal movements is necessary for answering a wide array of research questions in ecology and conservation biology. Consequently, ecologists have made considerable efforts to identify the best way to estimate an animal's home range, and many methods of estimating home ranges have arisen over the past half a century. Most of these methods fall into two distinct categories of estimators that have only recently been described in statistical detail: those that measure range distributions (methods such as kernel density estimation that quantify the long-run behavior of a movement process that features restricted space use) and those that measure occurrence distributions (methods such as Brownian bridge movement models and the Correlated Random Walk Library that quantify uncertainty in an animal movement path during a specific period of observation). In this paper, we use theory, simulations, and empirical analysis to demonstrate the importance of appropriately using these two categories of distributions and their estimators. Conflating range and occurrence distributions can have serious consequences for ecological inference and conservation practice. For example, in most situations, home ranges estimated using estimators of occurrence distributions are too small, and this problem is exacerbated by ongoing improvements in tracking technology that enable more frequent and more accurate data on animal movements. We encourage researchers to use estimators of range distributions to quantify home ranges and estimators of occurrence distributions to answer other questions in movement ecology, such as when and where an animal crossed a linear feature, visited a location of interest, or interacted with other animals.

AB - Quantifying animal movements is necessary for answering a wide array of research questions in ecology and conservation biology. Consequently, ecologists have made considerable efforts to identify the best way to estimate an animal's home range, and many methods of estimating home ranges have arisen over the past half a century. Most of these methods fall into two distinct categories of estimators that have only recently been described in statistical detail: those that measure range distributions (methods such as kernel density estimation that quantify the long-run behavior of a movement process that features restricted space use) and those that measure occurrence distributions (methods such as Brownian bridge movement models and the Correlated Random Walk Library that quantify uncertainty in an animal movement path during a specific period of observation). In this paper, we use theory, simulations, and empirical analysis to demonstrate the importance of appropriately using these two categories of distributions and their estimators. Conflating range and occurrence distributions can have serious consequences for ecological inference and conservation practice. For example, in most situations, home ranges estimated using estimators of occurrence distributions are too small, and this problem is exacerbated by ongoing improvements in tracking technology that enable more frequent and more accurate data on animal movements. We encourage researchers to use estimators of range distributions to quantify home ranges and estimators of occurrence distributions to answer other questions in movement ecology, such as when and where an animal crossed a linear feature, visited a location of interest, or interacted with other animals.

KW - Brownian bridge movement model

KW - Kriging

KW - home range

KW - kernel density estimation

KW - movement ecology

KW - movement model

KW - space use

KW - stochastic process models

KW - utilization distribution

UR - https://www.scopus.com/pages/publications/105032156370

U2 - 10.1002/ecy.70300

DO - 10.1002/ecy.70300

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???

C2 - 41793168

AN - SCOPUS:105032156370

SN - 0012-9658

VL - 107

JO - Ecology

JF - Ecology

IS - 3

M1 - e70300

ER -

Clarifying space use concepts in ecology: Range vs. occurrence distributions

Abstract

Bibliographical note

Keywords

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