Nutrigonometry IV: Thales' theorem and the rules of dietary compromise in animals

Juliano Morimoto Borges

doi:10.1038/s41598-023-34722-7

Nutrigonometry IV: Thales' theorem and the rules of dietary compromise in animals

Juliano Morimoto Borges^* (Corresponding Author)

^*Corresponding author for this work

Aberdeen Centre For Environmental Sustainability

Research output: Contribution to journal › Article › peer-review

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Abstract

Diet specialists and generalists face a common challenge: they must regulate the intake and balance of nutrients to achieve a target diet for optimum nutrition. When optimum nutrition is unattainable, organisms must cope with dietary imbalances and trade-off surplus and deficits of nutrients that ensue. Animals achieve this through compensatory rules that dictate how to cope with nutrient imbalances, known as ‘rules of compromise’. Understanding the patterns of the rules of compromise can provide invaluable insights into animal physiology and behaviour, and shed light into the evolution of diet specialisation. However, we lack an analytical method for quantitative comparisons of the rules of compromise within and between species. Here, I present a new analytical method that uses Thales’ theorem as foundation, and that enables fast comparisons of the rules of compromise within and between species. I then apply the method on three landmark datasets to show how the method enables us to gain insights into how animals with different diet specialisation cope with nutrient imbalances. The method opens new avenues of research to understand how animals cope with nutrient imbalances in comparative nutrition.

Original language	English
Article number	7466
Number of pages	9
Journal	Scientific Reports
Volume	13
DOIs	https://doi.org/10.1038/s41598-023-34722-7
Publication status	Published - 8 May 2023

Bibliographical note

JM is supported by the BBSRC (BB/V015249/1).

Data Availability Statement

All data generated or analysed during this study are included in this published article and its supplementary information files. R script to reproduce the analysis is available in the electronic supplementary material.

Keywords

behavioural ecology
evolutionary ecology

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Cite this

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title = "Nutrigonometry IV: Thales' theorem and the rules of dietary compromise in animals",

abstract = "Diet specialists and generalists face a common challenge: they must regulate the intake and balance of nutrients to achieve a target diet for optimum nutrition. When optimum nutrition is unattainable, organisms must cope with dietary imbalances and trade-off surplus and deficits of nutrients that ensue. Animals achieve this through compensatory rules that dictate how to cope with nutrient imbalances, known as {\textquoteleft}rules of compromise{\textquoteright}. Understanding the patterns of the rules of compromise can provide invaluable insights into animal physiology and behaviour, and shed light into the evolution of diet specialisation. However, we lack an analytical method for quantitative comparisons of the rules of compromise within and between species. Here, I present a new analytical method that uses Thales{\textquoteright} theorem as foundation, and that enables fast comparisons of the rules of compromise within and between species. I then apply the method on three landmark datasets to show how the method enables us to gain insights into how animals with different diet specialisation cope with nutrient imbalances. The method opens new avenues of research to understand how animals cope with nutrient imbalances in comparative nutrition.",

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AB - Diet specialists and generalists face a common challenge: they must regulate the intake and balance of nutrients to achieve a target diet for optimum nutrition. When optimum nutrition is unattainable, organisms must cope with dietary imbalances and trade-off surplus and deficits of nutrients that ensue. Animals achieve this through compensatory rules that dictate how to cope with nutrient imbalances, known as ‘rules of compromise’. Understanding the patterns of the rules of compromise can provide invaluable insights into animal physiology and behaviour, and shed light into the evolution of diet specialisation. However, we lack an analytical method for quantitative comparisons of the rules of compromise within and between species. Here, I present a new analytical method that uses Thales’ theorem as foundation, and that enables fast comparisons of the rules of compromise within and between species. I then apply the method on three landmark datasets to show how the method enables us to gain insights into how animals with different diet specialisation cope with nutrient imbalances. The method opens new avenues of research to understand how animals cope with nutrient imbalances in comparative nutrition.

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Nutrigonometry IV: Thales' theorem and the rules of dietary compromise in animals

Abstract

Bibliographical note

Data Availability Statement

Keywords

Access to Document

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Cite this