Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou

We added antler growth and mineral metabolism modules to a previously developed energetics model for ruminants to simulate energy and mineral balance of male and female caribou throughout an annual cycle. Body watet, fat, protein, and ash are monitored on a daily time step, and energy costs associat...

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Published in:Rangifer
Main Authors: Moen, Ron, Pastor, John
Format: Article in Journal/Newspaper
Language:English
Published: Septentrio Academic Publishing 1998
Subjects:
caribou
mineral matabolism
Cervidae
energetics
mineral nutrition
model
nutrient requirements
seasonal rhythm
Rangifer
Online Access:https://septentrio.uit.no/index.php/rangifer/article/view/1544
https://doi.org/10.7557/2.18.5.1544
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spelling ftunitroemsoe:oai:ojs.henry.ub.uit.no:article/1544 2023-05-15T18:03:55+02:00 Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou Moen, Ron Pastor, John 1998-03-01 application/pdf https://septentrio.uit.no/index.php/rangifer/article/view/1544 https://doi.org/10.7557/2.18.5.1544 eng eng Septentrio Academic Publishing https://septentrio.uit.no/index.php/rangifer/article/view/1544/1450 https://septentrio.uit.no/index.php/rangifer/article/view/1544 doi:10.7557/2.18.5.1544 Copyright (c) 2015 Ron Moen, John Pastor http://creativecommons.org/licenses/by/3.0/ CC-BY Rangifer; Vol 18 (1998): Special Issue No. 10; 85-97 1890-6729 caribou mineral matabolism Cervidae energetics mineral nutrition model nutrient requirements seasonal rhythm info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 1998 ftunitroemsoe https://doi.org/10.7557/2.18.5.1544 2021-08-16T14:59:38Z We added antler growth and mineral metabolism modules to a previously developed energetics model for ruminants to simulate energy and mineral balance of male and female caribou throughout an annual cycle. Body watet, fat, protein, and ash are monitored on a daily time step, and energy costs associated with reproduction and body mass changes are simulated. In order to simulate antler growth, we had to predict calcium and phosphorus metabolism as it is affected by antler growth, gestation, and lactation. We used data on dietary digestibility, protein, calcium and phosphorus content, and seasonal patterns in body mass to predict the energy, nitrogen, calcium, and phosphorus balances of a "generic" male and female caribou. Antler growth in males increased energy requirements during antler growth by 8 to 16%, depending on the efficiency with which energy was used for antler growth. Female energy requirements for antler growth were proportionately much smaller because of the smaller size of female antlers. Protein requirements for antler growth in both males and females were met by forage intake. Calcium and phosphorus must be resorbed from bone during peak antler growth in males, when > 25 g/day of calcium and > 12 g/day of phosphorus are being deposited in antlers. Females are capable of meeting calcium needs during antler growth without bone resorption, but phosphorus was resorbed from bone during the final stages of antler mineralization. After energy, phosphorus was most likely to limit growth of antlers for both males and females in our simulations. Input parameters can be easily changed to represent caribou from specific geographic regions in which dietary nutrient content or body mass patterns differ from those in our "generic" caribou. The model can be used to quantitatively analyze the evolutionary basis for development of antlers in female caribou, and the relationship between body mass and antler size in the Cervidae. Article in Journal/Newspaper Rangifer University of Tromsø: Septentrio Academic Publishing Rangifer 18 5 85
institution Open Polar
collection University of Tromsø: Septentrio Academic Publishing
op_collection_id ftunitroemsoe
language English
topic caribou
mineral matabolism
Cervidae
energetics
mineral nutrition
model
nutrient requirements
seasonal rhythm
spellingShingle caribou
mineral matabolism
Cervidae
energetics
mineral nutrition
model
nutrient requirements
seasonal rhythm
Moen, Ron
Pastor, John
Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
topic_facet caribou
mineral matabolism
Cervidae
energetics
mineral nutrition
model
nutrient requirements
seasonal rhythm
description We added antler growth and mineral metabolism modules to a previously developed energetics model for ruminants to simulate energy and mineral balance of male and female caribou throughout an annual cycle. Body watet, fat, protein, and ash are monitored on a daily time step, and energy costs associated with reproduction and body mass changes are simulated. In order to simulate antler growth, we had to predict calcium and phosphorus metabolism as it is affected by antler growth, gestation, and lactation. We used data on dietary digestibility, protein, calcium and phosphorus content, and seasonal patterns in body mass to predict the energy, nitrogen, calcium, and phosphorus balances of a "generic" male and female caribou. Antler growth in males increased energy requirements during antler growth by 8 to 16%, depending on the efficiency with which energy was used for antler growth. Female energy requirements for antler growth were proportionately much smaller because of the smaller size of female antlers. Protein requirements for antler growth in both males and females were met by forage intake. Calcium and phosphorus must be resorbed from bone during peak antler growth in males, when > 25 g/day of calcium and > 12 g/day of phosphorus are being deposited in antlers. Females are capable of meeting calcium needs during antler growth without bone resorption, but phosphorus was resorbed from bone during the final stages of antler mineralization. After energy, phosphorus was most likely to limit growth of antlers for both males and females in our simulations. Input parameters can be easily changed to represent caribou from specific geographic regions in which dietary nutrient content or body mass patterns differ from those in our "generic" caribou. The model can be used to quantitatively analyze the evolutionary basis for development of antlers in female caribou, and the relationship between body mass and antler size in the Cervidae.
format Article in Journal/Newspaper
author Moen, Ron
Pastor, John
author_facet Moen, Ron
Pastor, John
author_sort Moen, Ron
title Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
title_short Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
title_full Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
title_fullStr Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
title_full_unstemmed Simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
title_sort simulating antler growth and energy, nitrogen, calcium and phosphorus metabolism in caribou
publisher Septentrio Academic Publishing
publishDate 1998
url https://septentrio.uit.no/index.php/rangifer/article/view/1544
https://doi.org/10.7557/2.18.5.1544
genre Rangifer
genre_facet Rangifer
op_source Rangifer; Vol 18 (1998): Special Issue No. 10; 85-97
1890-6729
op_relation https://septentrio.uit.no/index.php/rangifer/article/view/1544/1450
https://septentrio.uit.no/index.php/rangifer/article/view/1544
doi:10.7557/2.18.5.1544
op_rights Copyright (c) 2015 Ron Moen, John Pastor
http://creativecommons.org/licenses/by/3.0/
op_rightsnorm CC-BY
op_doi https://doi.org/10.7557/2.18.5.1544
container_title Rangifer
container_volume 18
container_issue 5
container_start_page 85
_version_ 1766175114898964480

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