Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution

Species distribution models can be made more accurate by use of new "Spatiotemporal Exploratory Models" (STEMs), a type of spatially explicit ensemble model (SEEM) developed at the continental scale that averages regional models pixel by pixel. Although SEEMs can generate more accurate pre...

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Main Authors: Curry, Claire M., Ross, Jeremy D., Contina, Andrea J., Bridge, Eli S.
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2018
Subjects:
Anthropocene
spatiotemporal exploratory models
data resolution
Bartramia longicauda
Colinus virginianus
Spizella pusilla
Ammodramus savannarum
landscape ecology
Molothrus ater
Eremophila alpestris
Sturnella magna
Sturnella neglecta
Chondestes grammacus
grassland birds
Holocene
Spiza americana
Jeremy
Online Access:https://doi.org/10.5061/dryad.7m13q9b
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author Curry, Claire M.
Ross, Jeremy D.
Contina, Andrea J.
Bridge, Eli S.
author_facet Curry, Claire M.
Ross, Jeremy D.
Contina, Andrea J.
Bridge, Eli S.
author_sort Curry, Claire M.
collection Zenodo
description Species distribution models can be made more accurate by use of new "Spatiotemporal Exploratory Models" (STEMs), a type of spatially explicit ensemble model (SEEM) developed at the continental scale that averages regional models pixel by pixel. Although SEEMs can generate more accurate predictions of species distributions, they are computationally expensive. We compared the accuracies of each model for 11 grassland bird species, and examined whether they improve accuracy at a statewide scale for fine and coarse predictor resolutions. We used a combination of survey data and citizen science data for 11 grassland bird species in Oklahoma to test a spatially explicit ensemble model at a smaller scale for its effects on accuracy of current models. We found that only four species performed best with either a statewide model or SEEM; the most accurate model for the remaining seven species varied with data resolution and performance measure. Policy implications: Determination of non-heterogeneity may depend on the spatial resolution of the examined dataset. Managers should be cautious if any regional differences are expected when developing policy from rangewide results that show a single model or timeframe. We recommend use of standard species distribution models or other types of non-spatially explicit ensemble models for local species prediction models. Further study is necessary to understand at what point SEEMs become necessary with varying dataset resolutions. Zip file containing code and data for Curry et al. 2018 Project: VARYING DATASET RESOLUTION ALTERS PREDICTIVE ACCURACY OF SPATIALLY EXPLICIT ENSEMBLE MODELS FOR AVIAN SPECIES DISTRIBUTION Accepted in Ecology and Evolution 12-Oct-2018. Versioning visible at: https://github.com/baeolophus/ou-grassland-bird-survey Please contact Claire M. Curry (cmcurry@ou.edu or curryclairem@gmail.com) about the *.R files or Jeremy Ross (jdross@ou.edu) about the point count and transect data. See README.txt for more information. CurryEtAl2018.zip
format Other/Unknown Material
genre Eremophila alpestris
genre_facet Eremophila alpestris
geographic Jeremy
geographic_facet Jeremy
id ftzenodo:oai:zenodo.org:4970616
institution Open Polar
language unknown
long_lat ENVELOPE(-68.838,-68.838,-69.402,-69.402)
op_collection_id ftzenodo
op_doi https://doi.org/10.5061/dryad.7m13q9b10.1002/ece3.4725
op_relation https://doi.org/10.1002/ece3.4725
https://zenodo.org/communities/dryad
https://doi.org/10.5061/dryad.7m13q9b
oai:zenodo.org:4970616
op_rights info:eu-repo/semantics/openAccess
Creative Commons Zero v1.0 Universal
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publishDate 2018
publisher Zenodo
record_format openpolar
spelling ftzenodo:oai:zenodo.org:4970616 2025-01-16T21:44:15+00:00 Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution Curry, Claire M. Ross, Jeremy D. Contina, Andrea J. Bridge, Eli S. 2018-12-07 https://doi.org/10.5061/dryad.7m13q9b unknown Zenodo https://doi.org/10.1002/ece3.4725 https://zenodo.org/communities/dryad https://doi.org/10.5061/dryad.7m13q9b oai:zenodo.org:4970616 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode Anthropocene spatiotemporal exploratory models data resolution Bartramia longicauda Colinus virginianus Spizella pusilla Ammodramus savannarum landscape ecology Molothrus ater Eremophila alpestris Sturnella magna Sturnella neglecta Chondestes grammacus grassland birds Holocene Spiza americana info:eu-repo/semantics/other 2018 ftzenodo https://doi.org/10.5061/dryad.7m13q9b10.1002/ece3.4725 2024-12-05T05:20:46Z Species distribution models can be made more accurate by use of new "Spatiotemporal Exploratory Models" (STEMs), a type of spatially explicit ensemble model (SEEM) developed at the continental scale that averages regional models pixel by pixel. Although SEEMs can generate more accurate predictions of species distributions, they are computationally expensive. We compared the accuracies of each model for 11 grassland bird species, and examined whether they improve accuracy at a statewide scale for fine and coarse predictor resolutions. We used a combination of survey data and citizen science data for 11 grassland bird species in Oklahoma to test a spatially explicit ensemble model at a smaller scale for its effects on accuracy of current models. We found that only four species performed best with either a statewide model or SEEM; the most accurate model for the remaining seven species varied with data resolution and performance measure. Policy implications: Determination of non-heterogeneity may depend on the spatial resolution of the examined dataset. Managers should be cautious if any regional differences are expected when developing policy from rangewide results that show a single model or timeframe. We recommend use of standard species distribution models or other types of non-spatially explicit ensemble models for local species prediction models. Further study is necessary to understand at what point SEEMs become necessary with varying dataset resolutions. Zip file containing code and data for Curry et al. 2018 Project: VARYING DATASET RESOLUTION ALTERS PREDICTIVE ACCURACY OF SPATIALLY EXPLICIT ENSEMBLE MODELS FOR AVIAN SPECIES DISTRIBUTION Accepted in Ecology and Evolution 12-Oct-2018. Versioning visible at: https://github.com/baeolophus/ou-grassland-bird-survey Please contact Claire M. Curry (cmcurry@ou.edu or curryclairem@gmail.com) about the *.R files or Jeremy Ross (jdross@ou.edu) about the point count and transect data. See README.txt for more information. CurryEtAl2018.zip Other/Unknown Material Eremophila alpestris Zenodo Jeremy ENVELOPE(-68.838,-68.838,-69.402,-69.402)
spellingShingle Anthropocene
spatiotemporal exploratory models
data resolution
Bartramia longicauda
Colinus virginianus
Spizella pusilla
Ammodramus savannarum
landscape ecology
Molothrus ater
Eremophila alpestris
Sturnella magna
Sturnella neglecta
Chondestes grammacus
grassland birds
Holocene
Spiza americana
Curry, Claire M.
Ross, Jeremy D.
Contina, Andrea J.
Bridge, Eli S.
Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title_full Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title_fullStr Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title_full_unstemmed Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title_short Data from: Varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
title_sort data from: varying dataset resolution alters predictive accuracy of spatially explicit ensemble models for avian species distribution
topic Anthropocene
spatiotemporal exploratory models
data resolution
Bartramia longicauda
Colinus virginianus
Spizella pusilla
Ammodramus savannarum
landscape ecology
Molothrus ater
Eremophila alpestris
Sturnella magna
Sturnella neglecta
Chondestes grammacus
grassland birds
Holocene
Spiza americana
topic_facet Anthropocene
spatiotemporal exploratory models
data resolution
Bartramia longicauda
Colinus virginianus
Spizella pusilla
Ammodramus savannarum
landscape ecology
Molothrus ater
Eremophila alpestris
Sturnella magna
Sturnella neglecta
Chondestes grammacus
grassland birds
Holocene
Spiza americana
url https://doi.org/10.5061/dryad.7m13q9b

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