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Comparison of large‐scale citizen science data and long‐term study data for phenology modeling

Large‐scale observational data from citizen science efforts are becoming increasingly common in ecology, and researchers often choose between these and data from intensive local‐scale studies for their analyses. This choice has potential trade‐offs related to spatial scale, observer variance, and in...

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Autores principales: Taylor, Shawn D., Meiners, Joan M., Riemer, Kristina, Orr, Michael C., White, Ethan P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7378950/
https://www.ncbi.nlm.nih.gov/pubmed/30499218
http://dx.doi.org/10.1002/ecy.2568
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author Taylor, Shawn D.
Meiners, Joan M.
Riemer, Kristina
Orr, Michael C.
White, Ethan P.
author_facet Taylor, Shawn D.
Meiners, Joan M.
Riemer, Kristina
Orr, Michael C.
White, Ethan P.
author_sort Taylor, Shawn D.
collection PubMed
description Large‐scale observational data from citizen science efforts are becoming increasingly common in ecology, and researchers often choose between these and data from intensive local‐scale studies for their analyses. This choice has potential trade‐offs related to spatial scale, observer variance, and interannual variability. Here we explored this issue with phenology by comparing models built using data from the large‐scale, citizen science USA National Phenology Network (USA‐NPN) effort with models built using data from more intensive studies at Long Term Ecological Research (LTER) sites. We built statistical and process based phenology models for species common to each data set. From these models, we compared parameter estimates, estimates of phenological events, and out‐of‐sample errors between models derived from both USA‐NPN and LTER data. We found that model parameter estimates for the same species were most similar between the two data sets when using simple models, but parameter estimates varied widely as model complexity increased. Despite this, estimates for the date of phenological events and out‐of‐sample errors were similar, regardless of the model chosen. Predictions for USA‐NPN data had the lowest error when using models built from the USA‐NPN data, while LTER predictions were best made using LTER‐derived models, confirming that models perform best when applied at the same scale they were built. This difference in the cross‐scale model comparison is likely due to variation in phenological requirements within species. Models using the USA‐NPN data set can integrate parameters over a large spatial scale while those using an LTER data set can only estimate parameters for a single location. Accordingly, the choice of data set depends on the research question. Inferences about species‐specific phenological requirements are best made with LTER data, and if USA‐NPN or similar data are all that is available, then analyses should be limited to simple models. Large‐scale predictive modeling is best done with the larger‐scale USA‐NPN data, which has high spatial representation and a large regional species pool. LTER data sets, on the other hand, have high site fidelity and thus characterize inter‐annual variability extremely well. Future research aimed at forecasting phenology events for particular species over larger scales should develop models that integrate the strengths of both data sets.
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spelling pubmed-73789502020-07-24 Comparison of large‐scale citizen science data and long‐term study data for phenology modeling Taylor, Shawn D. Meiners, Joan M. Riemer, Kristina Orr, Michael C. White, Ethan P. Ecology Articles Large‐scale observational data from citizen science efforts are becoming increasingly common in ecology, and researchers often choose between these and data from intensive local‐scale studies for their analyses. This choice has potential trade‐offs related to spatial scale, observer variance, and interannual variability. Here we explored this issue with phenology by comparing models built using data from the large‐scale, citizen science USA National Phenology Network (USA‐NPN) effort with models built using data from more intensive studies at Long Term Ecological Research (LTER) sites. We built statistical and process based phenology models for species common to each data set. From these models, we compared parameter estimates, estimates of phenological events, and out‐of‐sample errors between models derived from both USA‐NPN and LTER data. We found that model parameter estimates for the same species were most similar between the two data sets when using simple models, but parameter estimates varied widely as model complexity increased. Despite this, estimates for the date of phenological events and out‐of‐sample errors were similar, regardless of the model chosen. Predictions for USA‐NPN data had the lowest error when using models built from the USA‐NPN data, while LTER predictions were best made using LTER‐derived models, confirming that models perform best when applied at the same scale they were built. This difference in the cross‐scale model comparison is likely due to variation in phenological requirements within species. Models using the USA‐NPN data set can integrate parameters over a large spatial scale while those using an LTER data set can only estimate parameters for a single location. Accordingly, the choice of data set depends on the research question. Inferences about species‐specific phenological requirements are best made with LTER data, and if USA‐NPN or similar data are all that is available, then analyses should be limited to simple models. Large‐scale predictive modeling is best done with the larger‐scale USA‐NPN data, which has high spatial representation and a large regional species pool. LTER data sets, on the other hand, have high site fidelity and thus characterize inter‐annual variability extremely well. Future research aimed at forecasting phenology events for particular species over larger scales should develop models that integrate the strengths of both data sets. John Wiley and Sons Inc. 2018-12-24 2019-02 /pmc/articles/PMC7378950/ /pubmed/30499218 http://dx.doi.org/10.1002/ecy.2568 Text en © 2018 The Authors. Ecology published by Wiley Periodicals, Inc. on behalf of Ecological Society of America. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
Taylor, Shawn D.
Meiners, Joan M.
Riemer, Kristina
Orr, Michael C.
White, Ethan P.
Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title_full Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title_fullStr Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title_full_unstemmed Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title_short Comparison of large‐scale citizen science data and long‐term study data for phenology modeling
title_sort comparison of large‐scale citizen science data and long‐term study data for phenology modeling
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7378950/
https://www.ncbi.nlm.nih.gov/pubmed/30499218
http://dx.doi.org/10.1002/ecy.2568
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