Chapter 1: Homeostasis and Regulation

Question 1

4 Unifying Themes of Animal Physiology

Answer 1

1) it’s integrative. There are multiple levels of organization and it addresses both APPLIED and BASIC questions
2) it obeys design laws: the laws of physics and chemistry
3) Physiological processes are shaped by evolution
4) most physiological processes are regulated by positive and negative feedback

Question 2

_____ feedback maintains homeostasis, and ____ feedback generates an explosive response.

Answer 2

POSITIVE feedback maintains homeostasis, and NEGATIVE feedback generates an explosive response.

Question 3

2 Central questions and EXPLANATIONS about animal physiology

Answer 3

1) Mechanistic explanation: “How does this work”: emphasized composition, structure and function
2) Evolutionary explanation:” “How does this become like this?” : emphasizes and loots at the roles of NATURAL SELECTION and selective environmental pressures that contribute to specific functions or structures being studied.

Question 4

Homologous Traits

Answer 4

seen in 2 different evolutionarily related organisms (related by common ancestry), that have the same BASIC TRAIT but are FUNCTIONALLY different
(ex/ human arms vs wings)

Question 5

Analogous Traits

Answer 5

similar structures and functions of unrelated species that evolved independently. ex/ birds and insects have WINGS (same function) but they are not related.

Question 6

Hypothetico-deductive method

Answer 6

the process of creating a scientific theory. Using INduction and deduction

Question 7

outline the hypothetico-deductive method

Answer 7

1) ask a question about the phenomena of nature
2) propose a bunch of hypotheses to possibly explain the phenomena via INDUCTION
3) use DEDUCTION to design the experiment and observations that test the hypothesis.
4) conduct the experiment
5) refine the hypothesis and desgin the new test

Question 8

when does a new theory arise?

Answer 8

when a hypothesis is consistently supposed and all the alternative hypotheses have been falsified.

Question 9

The Krogh Principle and an example

Answer 9

there is an ideal research animal that can be used to study and explore every type of phenomena.

ex/ studying nerves: use an animal with large nerves rather than a mouse. a giant squid with large axons may be the ideal animal

Question 10

_____ is the father of MODERN physiology

_____ is the father of COMPARATIVE physiology

Answer 10

claude bernard: father of modern physiology

arther crowe; father of comparative physiology

Question 11

Teleological Approach

Answer 11

method of studying by assuming that organism traits are explained in terms of their purpose in fulfilling a need, without questioning how this outcome is accomplished or evolved.

• there is no “mechanism” or “ultimate/evolution” question

Question 12

refuting the teleological approach

Answer 12

some features are convoluted and not logical: why would an organism have a design that does not completely fulfill a need?

some features are vestigiaL: they no longer have purposes or fulfills a need, so why is it still in the organism?

Question 13

Cost Benefit Trade Offs in Terms of evolution

Answer 13

adaptations have consts that negatively impact other adaptations. the largest trade off is energy. the larger structures for protection are made at a cost of reduced speed and flexibility. Many structures an organism has is not FULLY OPTIMAL, but it does balance the energy costs.

Question 14

___ ___ compares systems of different species utilizing the horizontal approach.

Answer 14

comparative physiology

Question 15

Why are comparative studies so important?

Answer 15

1) you can learn about the diversity of life

2) comparative studies allows us to determine universal functions.

Question 16

comparative physiology research is motivated by the ____ principle.

Answer 16

Krogh principle: for any particular physiological process, some speices will have adapated in such a way that it proves an ideal model system for studying that process

Question 17

biomimicry

Answer 17

the emulation of organismal adaptations by humans to create useful products (ex/ velcro imitates seed-spreading mobility mechanism)

Question 18

Why are there no complex unicellular organisms?

Answer 18

there is a PHYSICAL SIZE CONSTRAINT that PREVENTS SPECIALIZATION. There are also diffusion limitations that effect the maximum size of a cell. If the size is too large, materials could not spread efficiently to all parts of the cell

Question 19

4 main cellular functions of life

Answer 19

1) self organiztion
2) self regulation
3) self support and movement
4) self replication

Question 20

how does a cell self-organize?

Answer 20

uses resources from the enviornmnet to reate the cell. It obtaines energy and raw materials and performs chemical reactions in specialized sequences (organized)

Question 21

how does a cell self-regulate

Answer 21

maintains self-integrity in the face of disturbances aka maintains homeostasis.
the cell regulates by controlling the exchange of materials between the cell and its surrounding environment. It repairs damage to the cell and corrects deviations in internal conditions

Question 22

how does a cell self-support and move

Answer 22

has sturctures that give form to specific cell types. Usually involves microfilaments and microtubules that allows or material and vesicle movemnet

Question 23

how does a cell self-replicate

Answer 23

via mitosis and meiosis, it reproduces to carry on species and to repair damage.

Question 24

4 main types of tissues

Answer 24

1) epithelial tissue
2) connective tissue
3) muscular tissue
4) nervous tissue

Question 25

what is a tissue?

Answer 25

groups of cells with similar structure and function

Question 26

function of epithelial tissues. give two types of epithelial tissues

Answer 26

epithelial tissues: cells that can exchange materials
includes
1) sheet tissues: covers and lines various organs. Serves as boundaries that separate the organism from external environment and from the contents of cavities

2) gland cells: cells that specialize in secretion.

Question 27

2 types of glands

Answer 27

1) exocrine gland: secrete through ducts to the outside or into a cavity that communicates with the outside (ex/ sweat gland)
2) endrocrine gland: secrete their products directly into the blood stream with no ducts. (ex/ parathyroid hormong)

both glan systems are made of epithelial tissues.

Question 28

function of connective tissues

Answer 28

connective tissue: a few cells dispersed within abundance of extracellular material to CONNECT, SUPPORT, and ANCHOR various body parts

Question 29

all connective tissues produce ____ into the extracellular space to facilitate stretching and reecoiling of body structures

Answer 29

elastin

Question 30

loose connective tissue

Answer 30

attaches epithelial tissues to underlying structures

Question 31

tendons

Answer 31

type of connective tisse that attaches skeletal muscles to bone

Question 32

bone

Answer 32

type of connective tissue that gives vertevrates shape, support and protection

Question 33

blood

Answer 33

considered a connective tissue that transports material around the body

Question 34

function of muscular tissue

Answer 34

cell groups that are specialized for contraction and force generation.

Question 35

3 main types of muscle tissue

Answer 35

1) skeletal muscle
2) cardiac muscle
3) smooth muscle

Question 36

specialization of nervous tissue

Answer 36

cells specialized for inititation and transmission of electrical impulses. typically found in the brain, spinal cord and epithelial linings that monitor the external environment to monitor HR BP and gut contents.

also found in junctions of muscles and glans and effector organs.

Question 37

a _____ is 2 or more primary tissue types organized to perform a particular function

Answer 37

organ

Question 38

Define homeostasis

Answer 38

the dynamic steady state in which changes that do occur are minimized by compensatory physiological responses. Animals keep their internal environment around an optimal level wihtin a narrow limit by carefully regulating mechanisms.

Question 39

_____ coined the term “homeostasis,” but the orginal thought of homeostasis was ____

Answer 39

Walter Cannon coined homeostasis, but the idea started with Claude Bernard (the father of modern physiology)

Question 40

homeostasis is a _____, ____ , ___-___ process that occurs at the level of the whole _____

Answer 40

homeostasis is a DYNAMIC, REGULATORY , STEADY-STATE process that occurs at the level of the whole ORGANISM

Question 41

how can cells exchange materials with the external environment if most aren’t even in contact with it?

Answer 41

via the extracellular fluid

Question 42

2 components of ECF

Answer 42

blood plasma and interstitial fluid

Question 43

usually, its the ____ layers of cells that accomplish exchanges between the external environment and internal environment

Answer 43

typically epithelial layers

Question 44

In most animals, macromolecule concentrations, O2 levels, waste products, pH and electrolytes are homeostatically controlled. However, what are superorganisms also able to do?

Answer 44

In adittion to regulating concentrations and levels of various chemicals, superorganisms are also able to regulate social parameters ( termites move in a group)

Question 45

Regulators:

Answer 45

use internal mechanisms to define a regularly constant internal state.

Question 46

what is a thermoregulator?

Answer 46

an organism that has internal mechanisms in place to maintain its body temperature.

Question 47

conformer

Answer 47

an organism whose internal state varies with that of the environment (cold blooded reptiles)

Question 48

Avoiders

Answer 48

minimize internal variation by completely avoiding environments that could disrupt their homeostasis (ex/ migratory organisms)

Question 49

enantiostasis

Answer 49

when an organism can maintain its normal function despite the outside environment changing. BUT the organism is NOT in homeostasis

Question 50

example of enantiostasis

Answer 50

the blue crab. it typically lives in the ocean (that has high salt concentration). But when the tide pulls in, the crab is left in an estuary with LESS SALT CONTENT in the water. the less salt PREVENTS O2 from binding to its hemocyanin (crab version of Hb).

the less salt= less O2 = the crab becomes more acidic.
in order to prevent O2 loss, the crab begins to INCREASE AMMONIA PRODUCTION to INCREASE the PH (DECREASE ACIDITY), allowing more O2 to bind.

thus, the crab gets the needed O2, but it changes its internal conditions. It undergoes the process of enantiostasis.

if the crab was to maintain homeostasis, it would have an internal mechanism in place to prevent any acidity and lack of O2 problems in the first place when it moved to the esturary.

Question 51

define negative feedback and the two types of negative feedback

Answer 51

negative feedback: a change in a controlled variable that triggers a response that opposes change, driving the variable in the opposite direction of the initial change.

1) unreferenced feedback: imprecise control
2) references negative feedback: negative feedback with a built in set point that gives an ideal state and then shuts off.

Question 52

3 main components of referenced negative feedback

Answer 52

1) a sensor: detects change and communicates the error signal to the integrator
2) integrator: compares levels of controlled variable to set point and initiates a response to CORRECT THE DEVIATION by sending a signal to the effector
3) effector: restores controlled variable to a SET POINT.

Question 53

3 Types of possible effectors than can exert an action to correct a deviation

Answer 53

1) antagonistic control: 2 effectors with opposite control (ex/ furnave vs AC)
2) behaviors as effects: specific movment plans to correct a deviation (ex/ avoiders migrate to prevent homeostatic deviation)
3) internal organs: can act as effectors by taking action to relieve deviated varialbe ( usually through hormones)

Question 54

problems with negative feedback systems

Answer 54

1) overall delayed response: it takes time to relay the message that there is a deviation, and it takes time for the effector to correct the deviation. It also takes time for the effector to be turned off later once the problem has been corrected, resulting in an overshoot.
- many homeostatic process fluctuate due to delay in reponses (ex/ temperature)

2) negative feedback systems are situation specific. They may not work if the animal changes its environment.

Question 55

How is the delayed reponse problem of negative feedback corrected?

Answer 55

there are anticipations and feed forward systems that can activate the effector before the disturbance ticks of the “sensory set point,” activating the appropriate response in advance of the change. Feed forward systems can also suppress the effector before it overshoots the ideal set point.

ex/ saliva production when you smell food before you even put food in your mouth.

Question 56

How is the situation specific drawback of negative feedback accounted for?

Answer 56

organisms have phenotypic plasticity that allows for mechanisms to change over prolonged exposure to a new environment. ex/ mammals begin to increase fat stores before the winter comes, so it can maintain homeostasis while the cold temperatures are here.

Question 57

If an animal cannot exhibit enough phenotypic plasticity so its feedback mechanisms work correctly during an environmental change, what may happen to the organism?

Answer 57

the animal may go into dormancy: a state of GREATLY REDUCED metabolism which occurs when negative feedback systems cannot be modified.

Question 58

5 frames of physiological changes

Answer 58

1) acute changes: changes that individuals exhibit soon after their environment changes; they are REVERSIBLE (ex/ goosebumps)
2) chronic change: changes that are displayed when an individual has been in the new environment for a longer period of time (ex/ higher BPG levels after being exposed to higher altitudes with less oxygen. Is SLOWLY REVERSIBLE)
3) Evolutionary change: changes that occur by alteraction of gene frequencies over the course of multiple generations and are IRREVERSIBLE
4) Developmental change: programmed physiological change (puberty), and are MODERATELY REVERSIBLE with intervention
5) changes controlled by BIOLOGICAL CLOCKS: repeated change. ex/ fertility, circadian rythym.

Question 59

what are the frames of physiological change that occurs due to environmental change? What about frames of physiological change that are internally programmed?

Answer 59

environmental change results in:

1) evolutionary change
2) acute change
3) chronic change

internally programmed change involves physiological frames:

1) biological clock
2) developmental change

Question 60

rheostasis

Answer 60

non homeostatic regulation (variable state)

Question 61

acclimation?

Answer 61

acclimatization processes that take place in a controlled setting.

Question 62

2 methods for regulating non-homeostatic change

Answer 62

1) reset systems

2) positive feedback system

Question 63

what is a reset system?

Answer 63

a method for regulating non-homeostatic change (maintaining rheostasis)

changes the SET POINT of a negative feedback system in a temporary, permanent, or cyclic fashion.

ex/ temporary reset of set point: fever resets the temperature set point so everything now functions at a higher temp while bacteria are being killed off

permanent set point reset; sex hormones during puberty are permanently reset to higher levels in adult hood

cyclic fashion set point reset: hiber nation

Question 64

how does a positive feedback system regulate non-homeostatic change?

Answer 64

creates rapid change when a condition demands a rapid change from set point. Output is continually enhanced so that the controlled variable continues to move in the SAME DIRECTION of the initial change.

Question 65

what are intrinsic controls?

Answer 65

controls that are regulated independently by a single tissue for a self serving process.

ex/ increased CO2 in muscles is detected by smooth muscle of blood vessel, and vessel relaxes and dilates to increase blood flow TO THE MUSCLE.

(this process is self serving, and it is regulated by the muslce itself, not the brain)

Question 66

extrinsic controls. How do they contrast to intrinsic controls?

Answer 66

regulatory mechanisms initiated OUTSIDE an organ to alter its activity. Usually invovles two or more organs, and is governed by the nervous or endocrine system or immune system. There is often a COMMON GOAL, rather than a self serving function that intrinsic controls do.

they also have the ability to OVERRIDE the intrinsic controls (nervous system can cause the muscle to serve a non-self serving function)

Question 67

Whole body control systems vs support movement systems

Answer 67

whole body control systems regulates and coordinates homeostasis, but support and movement systems are not necessary to homeostasis.

Question 68

main whole body control systems and main suppot and movement systems

Answer 68

whole body systems:

1) nervous system
2) endocrine system

support and movement systems

1) skeletal systems
2) muscular systems

(also, reproductive systems are also not essential for homeostasis)

Question 69

When do muscular systemas play a role in homeostatsis even though its a main support and movement system ?

Answer 69

in birds and mammals, muscular system is also involved in thermoregulation.

Question 70

6 maintenance systems

Answer 70

1) circulatory system for material transport
2) immune system
3) respiratory system for gaseous waste removal
4) excretory systems
5) digestive systems
6) integumentary systems (skin and protection)