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Main Authors: Love, Allegra, Fox, Janay, Fussmann, Gregor, Hendry, Andrew
Format: Recurso digital
Language:English
Published: Zenodo 2026
Subjects:
Online Access:https://doi.org/10.5281/zenodo.19555496
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author Love, Allegra
Fox, Janay
Fussmann, Gregor
Hendry, Andrew
author_facet Love, Allegra
Fox, Janay
Fussmann, Gregor
Hendry, Andrew
contents <p>Data can be collected and analyzed on either continuous or categorical scales, depending on the experimental design and the research question. When investigating relationships between organismal traits and ecological attributes, quantitative trait values are almost always used, with a few key exceptions (e.g., dominance rank). However, it is not always clear that the quantitative trait value is more meaningful than the relative value or rank. Here, we explore how alternate scaling can affect analyses and inferences when evaluating common biological questions regarding sources of variation, survival, and consistency through time. To do this, we conducted three parallel analyses using quantitative and ranked data from a capture-mark-recapture study with Trinidadian guppies, <em>Poecilia reticulata</em>. In most analyses interpretations were similar, but quantitative scales showed clearer relationships with survival. Notably, ordinal scales provided more nuanced interpretation when considering change through time. Our analysis revealed that, for certain biological questions, transformation into ordinal scales can be informative. This work is a starting point for further exploration of the benefits of ranked analyses. We suggest further investigation into the impact of ordinal rank on fitness for both specific phenotypic traits and whole-organism fitness.</p>
format Recurso digital
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institution Zenodo
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publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Applications of rank analyses for answering ecological and evolutionary questions in natural systems
Love, Allegra
Fox, Janay
Fussmann, Gregor
Hendry, Andrew
Ecology
Fish
<p>Data can be collected and analyzed on either continuous or categorical scales, depending on the experimental design and the research question. When investigating relationships between organismal traits and ecological attributes, quantitative trait values are almost always used, with a few key exceptions (e.g., dominance rank). However, it is not always clear that the quantitative trait value is more meaningful than the relative value or rank. Here, we explore how alternate scaling can affect analyses and inferences when evaluating common biological questions regarding sources of variation, survival, and consistency through time. To do this, we conducted three parallel analyses using quantitative and ranked data from a capture-mark-recapture study with Trinidadian guppies, <em>Poecilia reticulata</em>. In most analyses interpretations were similar, but quantitative scales showed clearer relationships with survival. Notably, ordinal scales provided more nuanced interpretation when considering change through time. Our analysis revealed that, for certain biological questions, transformation into ordinal scales can be informative. This work is a starting point for further exploration of the benefits of ranked analyses. We suggest further investigation into the impact of ordinal rank on fitness for both specific phenotypic traits and whole-organism fitness.</p>
title Applications of rank analyses for answering ecological and evolutionary questions in natural systems
topic Ecology
Fish
url https://doi.org/10.5281/zenodo.19555496