Rigorous home range estimation with movement data: a new autocorrelated kernel density estimator
Quantifying animals' home ranges is a key problem in ecology and has important conservation and wildlife management applications. Kernel density estimation (KDE) is a workhorse technique for range delineation problems that is both statistically efficient and nonparametric. KDE assumes that the...
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| Veröffentlicht in: | Ecology (Durham) Jg. 96; H. 5; S. 1182 - 1188 |
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| Hauptverfasser: | , , , , , |
| Format: | Journal Article |
| Sprache: | Englisch |
| Veröffentlicht: |
United States
Ecological Society of America
01.05.2015
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| ISSN: | 0012-9658, 1939-9170 |
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| Abstract | Quantifying animals' home ranges is a key problem in ecology and has important conservation and wildlife management applications. Kernel density estimation (KDE) is a workhorse technique for range delineation problems that is both statistically efficient and nonparametric. KDE assumes that the data are independent and identically distributed (IID). However, animal tracking data, which are routinely used as inputs to KDEs, are inherently autocorrelated and violate this key assumption. As we demonstrate, using realistically autocorrelated data in conventional KDEs results in grossly underestimated home ranges. We further show that the performance of conventional KDEs actually degrades as data quality improves, because autocorrelation strength increases as movement paths become more finely resolved. To remedy these flaws with the traditional KDE method, we derive an autocorrelated KDE (AKDE) from first principles to use autocorrelated data, making it perfectly suited for movement data sets. We illustrate the vastly improved performance of AKDE using analytical arguments, relocation data from Mongolian gazelles, and simulations based upon the gazelle's observed movement process. By yielding better minimum area estimates for threatened wildlife populations, we believe that future widespread use of AKDE will have significant impact on ecology and conservation biology. |
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| AbstractList | Quantifying animals' home ranges is a key problem in ecology and has important conservation and wildlife management applications. Kernel density estimation (KDE) is a workhorse technique for range delineation problems that is both statistically efficient and nonparametric. KDE assumes that the data are independent and identically distributed (IID). However, animal tracking data, which are routinely used as inputs to KDEs, are inherently autocorrelated and violate this key assumption. As we demonstrate, using realistically autocorrelated data in conventional KDEs results in grossly underestimated home ranges. We further show that the performance of conventional KDEs actually degrades as data quality improves, because autocorrelation strength increases as movement paths become more finely resolved. To remedy these flaws with the traditional KDE method, we derive an autocorrelated KDE (AKDE) from first principles to use autocorrelated data, making it perfectly suited for movement data sets. We illustrate the vastly improved performance of AKDE using analytical arguments, relocation data from Mongolian gazelles, and simulations based upon the gazelle's observed movement process. By yielding better minimum area estimates for threatened wildlife populations, we believe that future widespread use of AKDE will have significant impact on ecology and conservation biology. |
| Author | Leimgruber, P. Olson, K. A. Fleming, C. H. Mueller, T. Calabrese, J. M. Fagan, W. F. |
| Author_xml | – sequence: 1 givenname: C. H surname: Fleming fullname: Fleming, C. H organization: Conservation Ecology Center, Smithsonian Conservation Biology Institute, National Zoological Park, 1500 Remount Road, Front Royal, Virginia 22630 USA Department of Biology, University of Maryland College Park, College Park, Maryland 20742 USA – sequence: 2 givenname: W. F surname: Fagan fullname: Fagan, W. F organization: Department of Biology, University of Maryland College Park, College Park, Maryland 20742 USA – sequence: 3 givenname: T surname: Mueller fullname: Mueller, T organization: Conservation Ecology Center, Smithsonian Conservation Biology Institute, National Zoological Park, 1500 Remount Road, Front Royal, Virginia 22630 USA Department of Biology, University of Maryland College Park, College Park, Maryland 20742 USA Biodiversity and Climate Research Centre, Senckenberg Gesellschaft für Naturforschung, Senckenberganlage 25, 60325 Frankfurt, Germany Department of Biological Sciences, Goethe University Frankfurt, Max-von-Laue-Strasse 9, 60438 Frankfurt, Germany – sequence: 4 givenname: K. A surname: Olson fullname: Olson, K. A organization: Conservation Ecology Center, Smithsonian Conservation Biology Institute, National Zoological Park, 1500 Remount Road, Front Royal, Virginia 22630 USA – sequence: 5 givenname: P surname: Leimgruber fullname: Leimgruber, P organization: Conservation Ecology Center, Smithsonian Conservation Biology Institute, National Zoological Park, 1500 Remount Road, Front Royal, Virginia 22630 USA – sequence: 6 givenname: J. M surname: Calabrese fullname: Calabrese, J. M organization: Conservation Ecology Center, Smithsonian Conservation Biology Institute, National Zoological Park, 1500 Remount Road, Front Royal, Virginia 22630 USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26236833$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2015 Ecological Society of America 2015 by the Ecological Society of America Copyright Ecological Society of America May 2015 |
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| SubjectTerms | Animal Distribution - physiology Animal populations Animals Antelopes - physiology Autocorrelation Brownian bridge Computer Simulation Conservation Conservation biology Correlation analysis data collection Data Interpretation, Statistical Data ranges Data sampling Density estimation Ecosystem Estimating techniques Estimation methods Estimators Gazelles home range Homing Behavior - physiology kernel density minimum convex polygon Models, Biological Models, Statistical Mongolian gazelle Mongolian gazelle, Procapra gutturosa Movement Procapra gutturosa Relocation Signal bandwidth Statistics tracking data utilization distribution wildlife Wildlife ecology Wildlife management |
| Title | Rigorous home range estimation with movement data: a new autocorrelated kernel density estimator |
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