13808122
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Mapa Mental por Connor Joesbury, actualizado hace más de 1 año
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Creado por Connor Joesbury
hace casi 7 años
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Locomotion 1: Form and Locomotion
through Ontogeny
- Reynolds Number and Body size
- The ratio of the density of a
medium in relation to 1) inertia
2) Fluid Viscosity
- Low Reynolds Number is a dominance
in viscosity making the animal limited
by the presence of drag
- As the Reynolds Number increases the forces within
the water alter to more turbulent flow
- Importance in Streamlining of organisms
- Importance in Streamlining of organisms
- Organism experience
Laminar Flow at
Low RN
- As the Reynolds Number increases the forces within
the water alter to more turbulent flow
- Reynolds number also includes factors such
as the speed the organism is travelling and
the overall size of an organism
- As speed increases so does the RN
= Inertia Dominance
- As size increases so
does Reynolds Number
- As speed increases so does the RN
= Inertia Dominance
- Drag vs Inertia
- This switch occurs
around 2000-2500 RN
- This switch occurs
around 2000-2500 RN
- The ratio of the density of a
medium in relation to 1) inertia
2) Fluid Viscosity
- Swimming with Paddles
- Williams (1994) looked at the
ontogeny of Artemia as the animal
grows
- Artemia go through gradual but
dramatic changes throughout
their lifecycles
- As the animal grows it adds segments to
its body (extra swimming legs)
- In Late development the
Artemia have 11 Trunk limbs
to help glide
- In Late development the
Artemia have 11 Trunk limbs
to help glide
- As the animal grows it adds segments to
its body (extra swimming legs)
- As the Artemia grew they were within
a drag dominated lifestyle
- This then changed to a more inertia based lifestyle
- This then changed to a more inertia based lifestyle
- Developed Trunk limbs which allowed
it to glide through the water (using
inertia)
- Arms started to beat in a metachronal rhythm
- Arms started to beat in a metachronal rhythm
- Artemia go through gradual but
dramatic changes throughout
their lifecycles
- Williams (1994) looked at the
ontogeny of Artemia as the animal
grows
- Jet Propulsion (plasticity)
- Feitl et al (2009) looked at how
morphology of Aurelia aurita
changed throughout lifecycle
- Shows a very different shape to the
common bell shape early on (star
shaped)
- In early stages organism is
dominated by drag, Reynolds Number
change exponentially with as it
grows (inertia)
- this star shape has dead zones between
Lappets where no water flows, drag is filling
these areas
- Cleverly utilizing the forces of
drag before the structure
becomes ineffective
- Cleverly utilizing the forces of
drag before the structure
becomes ineffective
- In early stages organism is
dominated by drag, Reynolds Number
change exponentially with as it
grows (inertia)
- Shows a very different shape to the
common bell shape early on (star
shaped)
- Nawroth et al (2010) Looked at how
density of water at different
temperatures affected devlopment of
lappets
- 2 different temperatures were
experimented 13 degree and 21
- At high temperatures the bell shape was filled
out more - coped with high temp through
morphological plasticity
- When brought up in 13 degree water and placed in
higher temp water, They showed a lower efficiency
in swimming
- Negatively altered their plasticity
- Negatively altered their plasticity
- At high temperatures the bell shape was filled
out more - coped with high temp through
morphological plasticity
- 2 different temperatures were
experimented 13 degree and 21
- Feitl et al (2009) looked at how
morphology of Aurelia aurita
changed throughout lifecycle
- Cilial Vs. Muscular driven movement
- Stokes (1997) looked at
how the morphology of
the Lancelet changed
over time
- Small larvae were dominated by
drag, with these showing mainly cilial
based movements (Vicous flow)
- Later stages have higher
Reynolds numbers and swim
using an undulating motion
- See a change in the level of musculature = larger
dominance in musculature for muscular based
swimming
- See a change in the level of musculature = larger
dominance in musculature for muscular based
swimming
- pre-metamorphoses organisms
experienced intermediate RN and
intermediate viscosity levels
- in the transitional phase choose to hover
and not to swm
- Why??
- Possibly too costly to use muscles to swim
- So as to not highlight to predators where they are
- Better for filter feeding?
- Possibly too costly to use muscles to swim
- Why??
- in the transitional phase choose to hover
and not to swm
- Small larvae were dominated by
drag, with these showing mainly cilial
based movements (Vicous flow)
- Stokes (1997) looked at
how the morphology of
the Lancelet changed
over time
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