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Metabolism  

Nitrogen  metabolism:  Conversion  of  Nitrogen  

from  food  into  proteins  and  waste  products  (urea)  

Energy  metabolism:    How  energy  is  acquired,  used,  and  transformed  in  the  body  

 

Two  types  of  metabolic  reacEons:   Chapter  6    Metabolism  

1.  Energy  and  its  use  in  the  body  2.  Metabolic  rate  3.  Factors  that  affect  metabolic  rate  

Energy  metabolism  •  Chemical  energy  (food)  consumed  generates  energy  

•  Used  to  perform  physiological  work  – Synthesizing  proteins,  nutrients  

– TransporEng  solutes  – Muscle  movements  – CirculaEon,  digesEon,  etc.  

Energy  metabolism  4  forms  of  energy:  

1.  Chemical  energy:  released  when  molecular  structure  changes    •  Food  broken  down  (digested  )  

2.  Electrical  energy:  created  due  to  charge  difference  •  Across  cell  membranes  

3.  Mechanical  energy:  produced  when  molecules  move  •  Any  body  movement,  circulaEng  blood  

4.  Heat:  Random  molecular  movement  •  Movement  of  water  molecules  in  liquid  form  

Energy  metabolism  4  forms  of  energy:  

1.  Chemical  energy  2.  Electrical  energy  3.  Mechanical  energy  4.  Heat  

High-­‐grade  energy  

Low-­‐grade  energy  

Energy  metabolism  4  forms  of  energy:  

1.  Chemical  energy  2.  Electrical  energy  3.  Mechanical  energy  4.  Heat  

•  Heat  CANNOT  be  used  for  physiological  work!  –  Low-­‐grade  energy  

•  Energy  is  degraded  and  loses  heat  –  Inefficient  process  

High-­‐grade  energy  

Low-­‐grade  energy  

HEAT  

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Energy  metabolism  4  forms  of  energy:  

1.  Chemical  energy  2.  Electrical  energy  3.  Mechanical  energy  4.  Heat  

•  Heat  CANNOT  be  used  for  physiological  work!  –  Low-­‐grade  energy  

•  Energy  is  degraded  and  loses  heat  –  Inefficient  process  

100  units  Glucose  

70  units  ATP  

30  units  HEAT  

Energy  use  by  animals  •  Undigested  food  à  fecal  energy  

•  Digested  food  à  absorbed  1.  Biosynthesis  2.  Maintenance  3.  Create  external  

work  

•  All  three  uses  generate  HEAT  

INEFFICIENT!!  

Energy  use  by  animals:  Biosynthesis  

•  Chemical  energy  made  by  body  and  used  for:  1.  Growth  

(compounds  remain  in  body)  

2.  Exported  (gametes,  skin,  hair,  milk,  etc.)  

1.  2.  

Energy  use  by  animals:  Maintenance  

•  Processes  or  parts  that  sustain  life  –  All  energy  

becomes  heat  –  Internal  work    

Energy  use  by  animals:  External  work  

•  Use  of  energy  to  perform  mechanical  work  outside  body  –  Exercise  

Energy  use  by  animals  •  When  energy  is  lost  as  heat,  it  CANNOT  be  

re-­‐cycled  

 This  is  why  we  must  eat  

   constantly!  

INEFFICIENT!!  

ENERGY   HEAT  

HEAT   ENERGY  

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Chapter  6    Metabolism  

1.  Energy  and  its  use  in  the  body  2.   Metabolic  rate  3.  Factors  that  affect  metabolic  rate  

Recap:  Energy  metabolism  What  we  do  

   

EAT      

LIVE  

What  happens  in  our  bodies    Ingest  and  convert  chemical  energy  

•    DigesEon,  absorpEon  

Release  chemical  energy,  heat,  and  external  work  

•  Energy  is  consumed,  never  recycled!  

Metabolic  rate  (MR):    Rate  that  we  consume  energy  

Metabolic  Rate:  What  and  why  •  Consuming  energy  generates    lots  of  heat  – MR  ≈  rate  of  heat  producEon  

•  ImplicaEons  1.  Determines  amount  of  

food  required  2.  Provides  quanEtaEve  

measure  of  work  done  3.  Measures  “drain”  on  

ecosystem  •  Because  ecosystem  is  

ulEmate  source  of  energy  (FOOD)  

Metabolic  Rate:  How  •  MR  ≈  rate  of  heat  producEon  – Measured  in  calories/unit  Eme  

•  Basal  metabolic  rate  (BMR):                  measurement  used  for  homeotherms  

•  Standard  metabolic  rate  (SMR):  measurement  used  for  poikilotherms  

1.  Direct  calorimetry  2.  Indirect  calorimetry  via  respirometer  3.  Indirect  calorimetry  via  material-­‐balance  

Direct  calorimetry  •  Measures  rate  of  heat  loss  

•  Lavoisier  measured  rate  by  collecEng  melted  ice  

•  Only  100%  accurate  when  animal  measured  at  rest  – No  external  work  

Indirect  calorimetry  via  respirometer  

•  Respiratory  gas  exchange  rate  based  on  glucose  oxidaEon  reacEon  

1.  Measure  either  O2consumed  or  H2O  produced  2.  Calculate  heat  produced  using  conversion  factor  

(2820  KJ  heat  produced  per  6  mol  of  O2  USED  or  for  every  6  mol  of  H2O  PRODUCED)  

C6H12O6      +    6O2    è    6CO2    +    6H2O    +    2820  KJ                                (HEAT)  

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Indirect  calorimetry  via  respirometer  •  Problems???  –  Not  all  food  created  equal  •  Energy  contained  within  different  food  types  varies  

–  Without  exact  diet  composiEon,  MR  sEll  just  esEmate  

–  Bokom  line:  O2consumpEon  is  proporEonal  to  heat  generated  

Indirect  calorimetry  via    material-­‐balance  

– FOOD  =  organic  material  in  – WASTE  =  organic  material  out  

•  Measurement  of  chemical  energy  of  organic  materials  in  and  out  of  body  

•  Problems??  •  Some  chemical  energy  used  to  fuel  growth  •  Material-­‐balance  only  

looks  at  maintenance  use  of  energy  

•  hkp://northlandphys.wordpress.com/2014/01/26/cool-­‐research-­‐on-­‐gut-­‐bacteria-­‐and-­‐diet/  

Chapter  6    Metabolism  

1.  Energy  and  its  use  in  the  body  2.  Metabolic  rate  3.   Factors  that  affect  metabolic  rate  

Factors  that  affect  metabolic  rate  •  EaEng  •  Age  •  Gender  •  Stress  •  Hormones  •  Salinity  •  Temperature  •  Physical  acEvity  

EaEng:  Specific  dynamic  acEon  •  Temporary  increase  in  metabolic  rate  following  eaEng  aner  a  fast  –  Increase  in  SDA  is  proporEonal  to  size  of  meal  

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Body  size  •  Bigger  bodies  require  more  food  •  But  it  isn’t  proporEonal  to  body  size!  – Calculate  weight-­‐specific  BMR  

Body  size:  Weight-­‐specific  BMR  •  Small  mammals  have  a  higher  weight-­‐specific  BMR  

WHY???  

Body  size:  Weight-­‐specific  BMR  •  Heart  size  is  proporEonal  to  body  size  (all  mammals)  

•  Small  mammals  have  a  higher  resEng  HR    –  require  more  O2/g  body  weight  

Ecological  implicaEons  •  Small  mammals  require  more  food  per  gram  of  body  Essue  – Accumulate  more  toxins  and  pesEcides  – Metabolic  rate  measures  “drain”  on  ecosystem  

1  SINGLE  deer  =  440  mice!!!