10.26188/5d146fcceaea1 NATALIE BRISCOE NATALIE BRISCOE Jane Elith Jane Elith Rob Salguero-Gomez Rob Salguero-Gomez JOSE LAHOZ-MONFORT JOSE LAHOZ-MONFORT James Camac James Camac KATHERINE GILJOHANN KATHERINE GILJOHANN Matthew Holden Matthew Holden BRONWYN HRADSKY BRONWYN HRADSKY MICHAEL KEARNEY MICHAEL KEARNEY Sean McMahon Sean McMahon BENJAMIN PHILLIPS BENJAMIN PHILLIPS Tracey Regan Tracey Regan Jonathan Rhodes Jonathan Rhodes PETER VESK PETER VESK BRENDAN WINTLE BRENDAN WINTLE Jian Yen Jian Yen GURUTZETA GUILLERA-ARROITA GURUTZETA GUILLERA-ARROITA Forecasting species range dynamics with process-explicit models - Data files The University of Melbourne 2019 Species distribution model process-based model demography population dynamics Ecology not elsewhere classified Global Change Biology 2019-07-27 03:14:21 Dataset https://melbourne.figshare.com/articles/dataset/Forecasting_species_range_dynamics_with_process-explicit_models_-_Data_files/8331443 Data from publication:<br><br>Briscoe, N., Elith, J., Salguero-Gomez, R, Lahoz-Monfort, J., Camac, J., Giljohann, K., Holden, M., Hradsky, B., Kearney, M, McMahon, S., Phillips, B., Regan, T., Rhodes, J., Vesk, P., Wintle, B., Yen, J., Guillera-Arroita, G. (Accepted). Forecasting species range dynamics with process-explicit models: matching methods to applications, Ecology Letters <br><br>Primary contact: Natalie Briscoe (nbriscoe@unimelb.edu.au)<br><br>Files included in data package: Process_explicit_range_dynamics_review.csv Population_replication_COMADRE_and_COMPADRE.csv<br><br>DATA INFORMATION<br>File 1: Process_explicit_range_dynamics_review.csv<br><br>Description: Data from review of how process-explicit models have been used in ecology and biodiversity management including study taxa and research focus (summarized in Fig. 3). See Appendix SA1 of manuscript for details of methods and further explanations/definitions.<br><br>Variables:<br>Paper = Paper information (citation)<br>Model.class = Model class for which assessed (one of: Occupancy dynamics, Individual based model (IBM), Coupled SDM-population, Eco-physiological, Demographic distribution, Abundance dynamics) <br>Plants = were plant species modelled (0=No, 1=Yes)<br>Birds = were bird species modelled (0=No, 1=Yes)<br>Mammals = were mammal species modelled (0=No, 1=Yes)<br>Fish = were fish species modelled (0=No, 1=Yes)<br>Reptile.Amphibian = were reptile or amphibian species modelled (0=No, 1=Yes) <br>Inverts = were invertebrate species modelled (0=No, 1=Yes)<br>Other = were other species modelled (0=No, 1=Yes)<br>Virtual = were virtual species modelled (0=No, 1=Yes)<br>Method.Development = Did the research focus on demonstrating or refining new method (0= No, 1 = Yes)<br>Climate.change.Weather = Did the research aim to look at effect of changes in weather/climate (0= No, 1 = Yes)<br>Landscape.Dynamics = Did the research aim to look at effect of changes in land-use/landscape dynamics (0= No, 1 = Yes)<br>Extinction.Risk = Did the research focus on conservation - predicting extinction risk (0= No, 1 = Yes)<br>Key.Habitat = Did the research focus on conservation - identifying key habitat (0= No, 1 = Yes) <br>Potential.Range.Invasives = Did the research focus on invasive species - potential range (0= No, 1 = Yes) <br>Spread.Invasives = Did the research focus on invasive species - spread (0= No, 1 = Yes) <br>Eval.Outputs.New.Data = Were model outputs quantitatively evaluated against new data (i.e. data not used fitting the model?) (0= No, 1 = Yes)<br><br>File2: Population_replication_COMADRE_and_COMPADRE.csv<br><br>Description: Data Availability of demographic data (the number of replicate populations per study) in two global demographic databases COMPADRE_v.5.0.0 (plants; Salguero-Gómez et al. 2015) and COMADRE_v.3.0.0 (animals; Salguero-Gómez et al. 2016).<br><br>Both Comadre and Compadre databases are fully open access and available from www.compadre-db.com.<br>The digitisation protocol (available at wwww.compadre-db.org/Data) provides further information on how data were collected.<br><br>Data provided in this file were used to plot the number of population replicates per study across time (Fig. 5).<br><br>Variables:<br>Year = Year of study (recorded in Compadre/Comadre under'YearPublication')<br>No.Populations = No. of replicate populations of the species included in the study (recorded in Compadre/Comadre under 'NumberPopulations'). This is the number of populations identified by the author of the study. *Several studies that report high population replication (>40) were excluded because they report within-site replication rather than different populations.<br>Species = study species (recorded in Compadre/Comadre under 'SpeciesAccepted') *note that humans were excluded<br>Authors = authors of study (recorded in Compadre/Comadre under 'Authors')<br>Journal = journal (recorded in Compadre/Comadre under 'Journal', may also be a book, thesis or report)<br>YearPub = publication year (recorded in Compadre/Comadre as 'YearPublication')<br>Database = COMPADRE (plants) or COMADRE (animals)<br>