Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them?
Postnatal growth is an important life-history trait that varies widely across avian species, and several equations with a sigmoidal shape have been used to model it. Classical three-parameter models have an inflection point fixed at a percentage of the upper asymptote which could be an unrealistic a...
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ftdans:oai:easy.dans.knaw.nl:easy-dataset:119246 2023-07-02T03:32:45+02:00 Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? Svagelj, Walter S. Laich, Agustina Gómez Quintana, Flavio 2018-11-15T16:47:12.000+01:00 http://nbn-resolving.org/urn:nbn:nl:ui:13-l2-54wn https://easy.dans.knaw.nl/ui/datasets/id/easy-dataset:119246 unknown doi:10.5061/dryad.s448n5d/1 doi:10.1111/jav.01864 http://nbn-resolving.org/urn:nbn:nl:ui:13-l2-54wn doi:10.5061/dryad.s448n5d https://easy.dans.knaw.nl/ui/datasets/id/easy-dataset:119246 OPEN_ACCESS: The data are archived in Easy, they are accessible elsewhere through the DOI https://dans.knaw.nl/en/about/organisation-and-policy/legal-information/DANSLicence.pdf Life sciences medicine and health care 2018 ftdans https://doi.org/10.5061/dryad.s448n5d/110.1111/jav.0186410.5061/dryad.s448n5d 2023-06-13T12:53:55Z Postnatal growth is an important life-history trait that varies widely across avian species, and several equations with a sigmoidal shape have been used to model it. Classical three-parameter models have an inflection point fixed at a percentage of the upper asymptote which could be an unrealistic assumption generating biased fits. The Richards model emerged as an interesting alternative because it includes an extra parameter that determines the location of the inflection point which can move freely along the growth curve. Recently, nonlinear mixed models (NLMM) have been used in modeling avian growth because these models can deal with a lack of independence among data as typically occurs with multiple measurements on the same individual or on groups of related individuals. Here, we evaluated the usefulness of von Bertalanffy, Gompertz, logistic, U4 and Richards’s equations modeling chick growth in the Imperial Shag (Phalacrocorax atriceps). We modelled growth in commonly used morphological traits, including body mass, bill length, head length and tarsus length, and compared the performance of models by using NLMM. Estimated adult size, age at maximum growth and maximum growth rates markedly differed across models. Overall, the most consistent performance in estimated adult size was obtained by the Richards model that showed deviations from mean adult size within 5%. Based on AICc values, the Richards equation was the best model for all traits analyzed. For tarsus length, both Richards and U4 models provided indistinguishable fits because the relative inflection value estimated from the Richards model was very close to that assumed by the U4 model. Our results highlight the bias incurred by three-parameter models when the assumed inflection placement deviates from that derived from data. Thus, the application of the Richards equation using the NLMM framework represents a flexible and powerful tool for the analysis of avian growth. Other/Unknown Material Imperial Shag Phalacrocorax atriceps Data Archiving and Networked Services (DANS): EASY (KNAW - Koninklijke Nederlandse Akademie van Wetenschappen) |
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Open Polar |
| collection |
Data Archiving and Networked Services (DANS): EASY (KNAW - Koninklijke Nederlandse Akademie van Wetenschappen) |
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ftdans |
| language |
unknown |
| topic |
Life sciences medicine and health care |
| spellingShingle |
Life sciences medicine and health care Svagelj, Walter S. Laich, Agustina Gómez Quintana, Flavio Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| topic_facet |
Life sciences medicine and health care |
| description |
Postnatal growth is an important life-history trait that varies widely across avian species, and several equations with a sigmoidal shape have been used to model it. Classical three-parameter models have an inflection point fixed at a percentage of the upper asymptote which could be an unrealistic assumption generating biased fits. The Richards model emerged as an interesting alternative because it includes an extra parameter that determines the location of the inflection point which can move freely along the growth curve. Recently, nonlinear mixed models (NLMM) have been used in modeling avian growth because these models can deal with a lack of independence among data as typically occurs with multiple measurements on the same individual or on groups of related individuals. Here, we evaluated the usefulness of von Bertalanffy, Gompertz, logistic, U4 and Richards’s equations modeling chick growth in the Imperial Shag (Phalacrocorax atriceps). We modelled growth in commonly used morphological traits, including body mass, bill length, head length and tarsus length, and compared the performance of models by using NLMM. Estimated adult size, age at maximum growth and maximum growth rates markedly differed across models. Overall, the most consistent performance in estimated adult size was obtained by the Richards model that showed deviations from mean adult size within 5%. Based on AICc values, the Richards equation was the best model for all traits analyzed. For tarsus length, both Richards and U4 models provided indistinguishable fits because the relative inflection value estimated from the Richards model was very close to that assumed by the U4 model. Our results highlight the bias incurred by three-parameter models when the assumed inflection placement deviates from that derived from data. Thus, the application of the Richards equation using the NLMM framework represents a flexible and powerful tool for the analysis of avian growth. |
| author |
Svagelj, Walter S. Laich, Agustina Gómez Quintana, Flavio |
| author_facet |
Svagelj, Walter S. Laich, Agustina Gómez Quintana, Flavio |
| author_sort |
Svagelj, Walter S. |
| title |
Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| title_short |
Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| title_full |
Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| title_fullStr |
Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| title_full_unstemmed |
Data from: Richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| title_sort |
data from: richards’s equation and nonlinear mixed models applied to avian growth: why use them? |
| publishDate |
2018 |
| url |
http://nbn-resolving.org/urn:nbn:nl:ui:13-l2-54wn https://easy.dans.knaw.nl/ui/datasets/id/easy-dataset:119246 |
| genre |
Imperial Shag Phalacrocorax atriceps |
| genre_facet |
Imperial Shag Phalacrocorax atriceps |
| op_relation |
doi:10.5061/dryad.s448n5d/1 doi:10.1111/jav.01864 http://nbn-resolving.org/urn:nbn:nl:ui:13-l2-54wn doi:10.5061/dryad.s448n5d https://easy.dans.knaw.nl/ui/datasets/id/easy-dataset:119246 |
| op_rights |
OPEN_ACCESS: The data are archived in Easy, they are accessible elsewhere through the DOI https://dans.knaw.nl/en/about/organisation-and-policy/legal-information/DANSLicence.pdf |
| op_doi |
https://doi.org/10.5061/dryad.s448n5d/110.1111/jav.0186410.5061/dryad.s448n5d |
| _version_ |
1770272418102771712 |