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Energy Density of Pet Food and Energy Needs (view source)
Revision as of 10:53, 6 May 2017
, 10:53, 6 May 2017→Estimating Energy Needs
In addition to bodyweight, there are a number of other factors that influence the energy requirement of the pet. These include activity, life-stage, reproductive status, and environmental conditions. Activity level can contribute to more than 30% of the daily energy requirement in highly active working dogs, such as Border Collies <ref name="NRC" />. However, recent studies have shown that adult pet dogs are relatively ‘inactive’ receiving on average only 4 walks of 40 minutes duration per week <ref name=''Christian''>Christian, NE, et al. '''Dog ownership and physical activity: A review of the evidence.''' ''J. Phys Act Health 2013''; 10:750-759</ref>. The energy requirement of inactive dogs is lower than their active counterparts <ref name=Bermingham>Bermingham EN et al. '''Energy requirement of adult dogs.''' ''[http://www.ncbi.nlm.nih.gov/pubmed/27417154 PLOSone 2014; 9:e109681.]'' </ref> <ref name=Thes>Thes, M, et al. '''Metabolizable energy intake of client-owned adult dogs.''' ''[http://www.ncbi.nlm.nih.gov/pubmed/274171548 J. Anim. Phys. Anim. Nutr.]'' </ref> and this represents a more realistic starting point for most adult pet dogs and cats.
In addition to bodyweight, there are a number of other factors that influence the energy requirement of the pet. These include activity, life-stage, reproductive status, and environmental conditions. Activity level can contribute to more than 30% of the daily energy requirement in highly active working dogs, such as Border Collies <ref name="NRC" />. However, recent studies have shown that adult pet dogs are relatively ‘inactive’ receiving on average only 4 walks of 40 minutes duration per week <ref name=''Christian''>Christian, NE, et al. '''Dog ownership and physical activity: A review of the evidence.''' ''J. Phys Act Health 2013''; 10:750-759</ref>. The energy requirement of inactive dogs is lower than their active counterparts <ref name=Bermingham>Bermingham EN et al. '''Energy requirement of adult dogs.''' ''[http://www.ncbi.nlm.nih.gov/pubmed/27417154 PLOSone 2014; 9:e109681.]'' </ref> <ref name=Thes>Thes, M, et al. '''Metabolizable energy intake of client-owned adult dogs.''' ''[http://www.ncbi.nlm.nih.gov/pubmed/274171548 J. Anim. Phys. Anim. Nutr.]'' </ref> and this represents a more realistic starting point for most adult pet dogs and cats.
Equations to calculate energy requirements can be complex and cumbersome to use (table 3). Using these equations, energy requirements have been calculated for adult dogs, adult cats, puppies and kittens <font color="red">(link to excel file)</font>
Equations to calculate energy requirements can be complex and cumbersome to use (table 1). Using these equations, energy requirements have been calculated for adult dogs, adult cats, puppies and kittens <font color="red">(link to excel file)</font>
[[File:Table 3 Feeding Guides - Nutrition Page.png|thumb|left|700px|Table 3 – Equations to estimate energy requirements (ER) of dogs and cats]]
[[File:Table 3 Feeding Guides - Nutrition Page.png|thumb|left|700px|Table 3 – Equations to estimate energy requirements (ER) of dogs and cats]]
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!colspan="3" bgcolor="#97C7F7"|Table 1. Equations to estimate energy requirements (ER) of dogs and cats.
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!align="left" width="50%" bgcolor="#D9EAFA"|<i>Adult Dogs</i>
!align="left" width="50%" bgcolor="#D9EAFA"|<i>Adult Cats</i>
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!align="left" width="50%"|Based on inactive adult dogs<br>• '''ER''' = 95 x W<sup>0.75</sup> kcal d<sup>-1</sup><br>Where: <br>• W = actual body weight
!align="left" width="50%"|<br>• '''ER''' = 77.4 x W<sup>0.711</sup> kcal d<sup>-1</sup><br>Where: <br>• W = actual body weight
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!align="left" width="50%" bgcolor="#D9EAFA"|<i>Puppies After Weaning</i>
!align="left" width="50%" bgcolor="#D9EAFA"|<i>Kittens After Weaning</i>
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!align="left" width="50%"|ER = 130 x W<sup>0.75</sup> x 3.2 x [e (<sup>-0.87p</sup>) – 0.1] kcal d<sup>-1</sup><br> Where: <br>• W = actual body weight, <br>• W<sub>m</sub> = predicted mature adult weight <br>• p = W/W<sub>m</sub> <br>• e = base of natural log ~2.718
!align="left" width="50%"|Step 1: <br>• ME = 100W<sup>0.67</sup> X 6.7[e<sup>-0.189p</sup> – 0.66] kcal d<sup>-1</sup><br>Step 2: <br>• ER = ME X 6.7[e<sup>-0.189p</sup> – 0.66] kcal d<sup>-1</sup> <br>Where: <br>• W = actual body weight <br>• p = W/W<sub>m</sub> <br>• W<sub>m</sub> = expected mature body weight
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== Calculating Food Allowances ==
== Calculating Food Allowances ==