%0 Journal Article %1 zipkin_evaluating_2012 %A Zipkin, Elise F. %A Grant, Evan H. Campbell %A Fagan, William F. %D 2012 %J Ecological Applications %K AUC, Bayesian amphibians, bias, characteristic curve, detection hierarchical inference, model, models, multispecies occupancy, operating receiver uncertainty %N 7 %P 1962--1972 %R 10.1890/11-1936.1 %T Evaluating the predictive abilities of community occupancy models using AUC while accounting for imperfect detection %U http://www.esajournals.org.proxy.lib.uiowa.edu/doi/abs/10.1890/11-1936.1 %V 22 %X The ability to accurately predict patterns of species' occurrences is fundamental to the successful management of animal communities. To determine optimal management strategies, it is essential to understand species–habitat relationships and how species habitat use is related to natural or human-induced environmental changes. Using five years of monitoring data in the Chesapeake and Ohio Canal National Historical Park, Maryland, USA, we developed four multispecies hierarchical models for estimating amphibian wetland use that account for imperfect detection during sampling. The models were designed to determine which factors (wetland habitat characteristics, annual trend effects, spring/summer precipitation, and previous wetland occupancy) were most important for predicting future habitat use. We used the models to make predictions about species occurrences in sampled and unsampled wetlands and evaluated model projections using additional data. Using a Bayesian approach, we calculated a posterior distribution of receiver operating characteristic area under the curve (ROC AUC) values, which allowed us to explicitly quantify the uncertainty in the quality of our predictions and to account for false negatives in the evaluation data set. We found that wetland hydroperiod (the length of time that a wetland holds water), as well as the occurrence state in the prior year, were generally the most important factors in determining occupancy. The model with habitat-only covariates predicted species occurrences well; however, knowledge of wetland use in the previous year significantly improved predictive ability at the community level and for two of 12 species/species complexes. Our results demonstrate the utility of multispecies models for understanding which factors affect species habitat use of an entire community (of species) and provide an improved methodology using AUC that is helpful for quantifying the uncertainty in model predictions while explicitly accounting for detection biases.

@article{zipkin_evaluating_2012, abstract = {The ability to accurately predict patterns of species' occurrences is fundamental to the successful management of animal communities. To determine optimal management strategies, it is essential to understand species–habitat relationships and how species habitat use is related to natural or human-induced environmental changes. Using five years of monitoring data in the Chesapeake and Ohio Canal National Historical Park, Maryland, USA, we developed four multispecies hierarchical models for estimating amphibian wetland use that account for imperfect detection during sampling. The models were designed to determine which factors (wetland habitat characteristics, annual trend effects, spring/summer precipitation, and previous wetland occupancy) were most important for predicting future habitat use. We used the models to make predictions about species occurrences in sampled and unsampled wetlands and evaluated model projections using additional data. Using a Bayesian approach, we calculated a posterior distribution of receiver operating characteristic area under the curve (ROC AUC) values, which allowed us to explicitly quantify the uncertainty in the quality of our predictions and to account for false negatives in the evaluation data set. We found that wetland hydroperiod (the length of time that a wetland holds water), as well as the occurrence state in the prior year, were generally the most important factors in determining occupancy. The model with habitat-only covariates predicted species occurrences well; however, knowledge of wetland use in the previous year significantly improved predictive ability at the community level and for two of 12 species/species complexes. Our results demonstrate the utility of multispecies models for understanding which factors affect species habitat use of an entire community (of species) and provide an improved methodology using AUC that is helpful for quantifying the uncertainty in model predictions while explicitly accounting for detection biases.}, added-at = {2017-01-09T13:57:26.000+0100}, author = {Zipkin, Elise F. and Grant, Evan H. Campbell and Fagan, William F.}, biburl = {https://www.bibsonomy.org/bibtex/2e3f6dfe76eed03ab3e8cda82609259c9/yourwelcome}, doi = {10.1890/11-1936.1}, interhash = {791481cb3ed25fead63b28f53552cf12}, intrahash = {e3f6dfe76eed03ab3e8cda82609259c9}, issn = {1051-0761}, journal = {Ecological Applications}, keywords = {AUC, Bayesian amphibians, bias, characteristic curve, detection hierarchical inference, model, models, multispecies occupancy, operating receiver uncertainty}, month = may, number = 7, pages = {1962--1972}, timestamp = {2017-01-09T14:01:11.000+0100}, title = {Evaluating the predictive abilities of community occupancy models using {AUC} while accounting for imperfect detection}, url = {http://www.esajournals.org.proxy.lib.uiowa.edu/doi/abs/10.1890/11-1936.1}, urldate = {2012-12-15}, volume = 22, year = 2012 }