Lesson 10: Biological Rhythms

Question 1

biological rhythm

Answer 1

is comprised of one or more biological events that
1.) reoccur in time
2.) in a repeated order and
3.) with a repeated interval between occurances

Question 2

what do animals do on a daily basis

Answer 2

• biological rhythms are the ways that organims adapt and live with the ENVIRONMENT RHYTHMS around them - such as the spin of the earth, the movemnet of the earth around the sun, and the movement of the moon around the earth

Question 3

what generates biological rhythms

Answer 3

• biological clocks (the term for the internal physiological systems that track the enviornmental rhythms) that often tube the rhythm to the environment

Question 4

animals often show multiple rhythems at the same time

Answer 4

paper trace of kangeroo rat activity over several months - a black mark indicates that the rat has entered a feeder
- for the rats, the year seemed divided into 3 phases

November through march:
the rats were nocturnal ( a cicadian rhythm) and showed a lunar rhythm as well

APRIL AND MAY: lunar rhythm was lost
SUMMER: the circadian rhythm delcined
- becaudr the entire rhytnm repeats each year, there is a circannual rhythem as well

Question 5

circannual rhythm

Answer 5

repeats each year

Question 6

multiple rhythms in palolo worms allow coordination and spawnng behavior

Answer 6

• the marine worms of south pacific produce along string of reproductive segments loaded with eggs or sperm
• when time to spawn, the reproductive portion (called the epitoke) swims away

timing is important so that eggs and sperm are released into the water at the same time
- so -
- the epitokes all arrive at dawn (circadian rhythm) on the morning of the last quarter moon (lunar rhythm) during Oct, Nov, Dec (the breeding season - circannual rhythm)

Question 7

naked mole rats

Answer 7

live their entire lives undergroudn in a dry tropical climate
- because light and temperature don’t fluctuate, there is not rhythm of activity

Question 8

fiddler crab tidal rhythm

Answer 8

• fiddler crabs feed on prey found on mud flats
• during high tide when the mud is covered with water, they hid in burrows
• they need to be in the burrows before the high tide arrives – so they have a tidal rhythm

Question 9

costa rica fiddler crabs

Answer 9

• in costa rica, crabs of the same species are found on both caribbean and the pacific coasts
• in each place, the craps habe tidal rhythms that match the local tides
• if transplant crabs from caribbean coast to the pacific coast, let them hang out for 5 days and then measure rhythem in lab wihout tides, the transplants now match the pacific coast tidal pattern

Question 10

entrainment of rhythm in telogryllus crickets

Answer 10

• male crickets typically start singing a few hours before sunset and stop a few hours before sunrise
• if you bring such a cricket into the lab and keep constant light, then its activity pattern will be offset each day because the natural rhythm is about 25 hours long

upper graph: activity pattern in constant light - offest each day because the natural rhythm is about 25 hours long (unentrained or free-running rhythm)

lower graph: entrainment of activity pattern to 24 hours when given a regular 12 hours of light and 12 hours of dark (entrained rhythm)

Question 11

entrainment of circannual rhythm in golden mantled ground squirrel

Answer 11

newborn squirrels were captured in the spring and raised in different conditions
1.) normal light cycle - matching the outdoors environment both on a daily and seasonal basis
2.) constant din light - no light cues

In both cases, temperature was held at a constant cool temperature 24/7 and food was provided constantly so no cues from social interactions with caretakers or from meal times

RESULTS

• the results when entrainment cues are removed: each individual showed its own rhythm that was approximately one year long, but not in tube with the actual solar cycle
• controls were tuned to the solar year

Question 12

social cues in anole circannual rhythm

Answer 12

• in males, growth of testes begins in spring and depends on increasing temperature
• ovaries in females also grow back in spring - but seemingly not because of temperature

Females were kept in the following conditions:
alone - slow ovarian growth
normal males: rapid growth
castrated males: slow growth

Question 13

possible explainations for anoles

Answer 13

1.) normal males provide a chemical cue (a pheromone that is lost when testes removed)
2.) normal males provide a social cue based on courtship behavior (which is lost if there are no testes)

females were then kept in the following conditions
- alone: slow growth
- normal males: rapid growth
- castrated males - slow growth
- dewlapless males - slow growth

Question 14

time sense of bees

Answer 14

• bees have the ability to learn what time of day differemnt flowering plants are blooming and have highest nectar supplies
• experiments show that they can distinguish time intervals as short as 15 minutes
• accuracy of the arrival seems to depend on an internal bioloogical clock related to metabolic rate
  – if you slow it down by chilling or exposing the bee to CO2 then the bee’s sense of time is off
  – suggests existence of BIOLOGICAL CLOCK

Question 15

like other sorts of behavior, biological rhythms are affected by

Answer 15

genes and hormones and are generated by the nervous system

Question 16

also remember that the rhythm has 2 parts:

Answer 16

• the natural internal (endogenous) rhythm produced by the body
• the ability to tune the rhythm to local environmental cues

Question 17

drosophila circadian rhythm:

Answer 17

role of per gene
- fruit flies are most active at dawn and dusk p probably that’s the best temperature
- aslo, flies habe adjusted physiology to process food at the best time of day. If eat at wrong time, reproduction declines

Question 18

the genetics of biological clocks in fruit flies: an oscillator present in many cells

Answer 18

• Per and Tim genes are transcribed
• Per and Tim mRNA is translated - the 2 proteins form a dimer when concentrations are high enough
• the dimer is a transcruption factor that turns on/off specific genes - so when per/tim is present the cel ldoes different stuff than when absent

Question 19

present in many oscillator cells

Answer 19

• per/tim also turns off per and tim genes when it gets abundant — so negative feedback loop
• the cell stops making per/tim, old per/tim decays with time, and now have low levels of per/tim
• these low levels mean that inhibition of Per and Tim transcription now goes away and the cycle starts over again
• because the per/tim dimer controls transcription of mny genes, the per/tim cycle causes a cycle of cellular activity

Question 20

per/tim cycle can be entrained to light

Answer 20

• when the sun rises, light can shine directly on most cells of the fruit fly
• a chemical cascafe triggering by light causes the Tim protein to get broken down
• when tim breaks down, the per protein is “unprotected” from the cellular machinery that gets ride of the old proteins and it breaks down too
• now the cells are sudenly at the point in the cycle with no per/time dimer