Chapter 9 Grade 12 Biology PDF

Summary

This document is a chapter on homeostasis in Grade 12 biology. It covers the importance of maintaining internal equilibrium, including feedback mechanisms and examples like thermoregulation and water balance. It also discusses the different types of organisms based on their temperature regulation.

Full Transcript

9.1 - 9.3 - HOMEOSTASIS
The maintenance of a constant internal environment despite changes in
external environment
Main homeostatic systems include blood pH, O2 / CO2, body temperature
control, electrolytes / blood sugar, and blood pressure
Homeostatic control systems have 3 main components that detect stress or
change and ACT to maintain equilibrium
1. Monitor system (receptors) -> sends signals thru sensory pathways
2. Coordinating center (brain) -> processes info and sends signals to motor
pathways to address balance
3. Regulator system (muscles, glands…) -> carries out the actions with
hormone levels, temperature adjustments, etc
This all works thru feedback pathways - organs that communicate w each
other to detect + respond to changes in the body and maintain stability

NEGATIVE FEEDBACK
The most common - reverses / counteracts change / opposes deviation
Ex; if temp in body rises above normal, negative feedback is triggered
Sweating to lower temp

POSITIVE FEEDBACK
Increases change and is less common
Used for definitive outcomes, like childbirth
Oxytocin is secreted to increase contractions until baby is delivered

THERMOREGULATION
A process where the body maintains stable internal temp
Hypothalamus; gland in the brain that acts as a thermostat. It monitors body
temp and triggered response if its too high / low
It will activate effectors and hormones to communicate with organs and
other systems
Humans have a normal range of temp ; 36.2 - 37.2 degrees celsius
 ABOVE; hyperthermia ~ due to infection (high fever) ~ can lead to heat
stroke and organ damage
BELOW; hypothermia ~ can lead to slow cellular processing, cell death, and
organ failure… FATAL.

HOW THE BODY REGULATES TEMP. IN HEAT STRESS
1. Detection of heat stress / MONITOR PHASE
- Thermoreceptors in peripheral nervous system detect inc. in body
temp
- peripheral nervous system is outside the brain and spinal cord
- Thermoreceptors send a signal to the brain via sensory neurons
- Sensory neurons communicate w central nervous system (the brain
and spinal cord)
2. Coordination of response / COORDINATION
- Hypothalamus processes the info as its responsible for maintaining
homeostasis
- It sends signals thru motor neurons to activate cooling mechanisms
3. REGULATION
- Sweating; hypothalamus signals for sweat glands to produce sweat
- As sweat evaporates, it creates a cooling effect - taking heat away
from the body
- Vasodilation; blood vessels in skin dilate, which allows blood to flow
near the skins surface and help release heat from blood
- This cools it down before it returns to the bodys core
- Cooling internal systems; as cooled blood returns to core, it helps
cool down internal organs and keep them at a safe temp

- Once the body is normal again, hypothalamus signals for the cooling
mechanisms to stop
- This process ensures that the body stays at a stable internal temp despite
external heat.

HOW THE BODY REGULATES TEMP. IN THE COLD
1. Detection of cold / MONITOR
 - Thermoreceptors in skin detect a temp drop and send signals to
hypothalamus using sensory neurons
2. Coordination of Response / coordination
- Hypothalamus processes the info and turns the bodys’ warming
systems on to send messages thru motor neurons and activate a
response
3. REGULATION
- Vasoconstriction; blood vessels constrict to reduce blood flow to skin
and minimize heat loss to environment
- shivering; muscle cells contract and cause heat to generate thru rapid
muscle movement
- goosebumps; smooth muscles around hair follicles cause the hair to
stand up and give an insulating layer of air close to skin, however this
is a vestigial feature

A homeotherm is an Organism that maintains a relatively stable internal
body temperature, regardless of external conditions
A poikilotherm is an organism with a body temperature that varies
significantly with environmental conditions.
An endotherm is an Organism that generates heat internally through
metabolic processes to maintain a constant body temperature.
An ectotherm is an Organism that relies on external heat sources to
regulate their body temperature

9.4 - WATER BALANCE
Organisms must maintain constant volume, solute content, and temp
OSMOSIS; water moving from low solute concentration to high solute
concentration
HYPOOSMOTIC; A solution is hypoosmotic when it has a lower
concentration of solutes and a higher concentration of water
ISOSMOTIC; A solution is isosmotic when it has the same concentration of
solutes (and therefore the same osmotic pressure) as another solution.
 HYPEROSMOTIC; A solution is hyperosmotic when it has a higher
concentration of solutes and lower water concentration compared to another
solution
Osmolarity measures total solute in a concentration and applies to all
solutes. Its measured in osmoles / L
Tonicity measures the impact of a solution on cell volume. It only applies to
non penetrating solutions and aims to predict movement in and out of the
cell. Its descriptive (hypertonic / hypotonic)
Osmotic pressure; pressure needed to stop flow of water through a
membrane due to osmosis
It occurs when water moves from an area with less solute (more water) to an
area with more solute (less water). The more solute in a solution, the higher
the osmotic pressure.
Hydrostatic Pressure is the pressure exerted by a fluid (like water) due to its
weight. It increases with the depth of the fluid and acts in all directions
within the fluid. In plants; turgor pressure. In people; blood pressure

NITROGENOUS WASTE
- Fish and amphibians… -> waste is ammonia (NH3) and requires a LARGE
amount of water to eliminate
- Mammals -> waste is urea (NH2CONH2) and requires a moderate amt of
water
- Birds / insects / reptiles -> waste is uric acid (c5h4n4o3) and requires very
little water - its not toxic so it can be excreted as paste

9.5 I - Functions of The Excretory System
Excretion is a process where your body gets rid of waste products it doesnt
need
Your body must eliminate waste to remain healthy
The digestive , respiratory , skin, and urinary system work together as your
excretory system
It removes extra water, urea, carbon dioxide… from blood and helps regulate
water level in your body
KIDNEYS; filter out water and urea
 LUNGS; filter out CO2 from blood
SKIN; excretes sweat, which contains urea

The Liver
Breaks down toxins (alcohol) for kidneys to excrete
When proteins are metabolized, they produce ammonia, which is toxic!
The liver converts it to urea, which is less toxic and can be safely removed
Waste is processed in the liver, prior to kidneys, then it's sent to bloodstream
Detoxifies the blood - without it, harmful substances would accumulate
Nitrogenous waste
Proteins and amino acids are broken down and contain ammonia - HIGHLY
TOXIC
Liver converts it to urea
When dna / rna (nucleic acids) are broken down, it produces uric acid,
which is also broken in liver and excreted in the kidney
Urea is the main waste product tho
Urinary System
Removes urea and waste from blood
Waste was produced by cells in metabolism
Kidneys regulate blood volume by removing water and salt and keep the
fluid / salt balance in check
Without it, toxic substances would build up in blood and there would be a
salt / water imbalance
Kidneys
Filter waste from blood, clean blood, and produce urine
Ureters
Tubes that carry urine from kidney to the urinary bladder
There is one ureter for each kidney
Urinary bladder
Stores urine until its ready to be excreted
Stretchy sac that can hold a lot of urine
Urethra
Small tube that carries urine from bladder to outside body
Last part of urinary system
Regulation of Fluid levels
Hypothalamus constantly keeps track of how much water is in your blood
hormone called Antidiuretic hormone (adh) is released and signals kidneys
to retain / release water
Too little water in your body; Adh is released and signals kidneys to
RETAIN / send back water to blood stream (DARK YELLOW PEE)
Too much water in your body; less adh is released, kidneys excrete more
water as urine (LIGHT YELLOW PEE)

Overview of the system…
1. Blood enters kidneys thru renal artery, carrying dirty blood
2. Blood enters the nephrons and start the cleaning process
3. Blood enters the bowman's capsule, water, sugar, salt are filtered thru
4. Capillaries reabsorb water, sugar, salt into blood stream
5. Renal vein carries purified blood back into the body to be recirculated
6. Urine is left over and drained into funnel area of kidney
7. Goes from ureters -> urinary bladder -> urethra -> done!
The nephron is in the kidney, it's around one million tiny filtering systems in the
kidney

9.5 II - Functions of The Excretory System
SIX PARTS OF THE NEPHRON
1. Bowman's capsule; surrounds glomerulus and collects filtered substances
from the blood
2. Glomerulus; dense network of capillaries inside bowman's capsule. It
filtered blood and allows water and waste to pass thru the nephron
3. Proximal Convoluted tubule; first twisty tube, reabsorbs filtrate water back
into blood
4. Loop of Henle; reabsorbs water and salt
5. Distal Convoluted tubule; second twisty tube, secretes ions and reabsorbs
salt / water
6. Cortical collecting duct; final site for water absorption and urine
concentration
FORMATION OF URINE
OVERVIEW
- Nephric filtrate (leftover of blood; water, salt urea) enters the bowman's
capsule, then
- PCT; glucose, amino acids and water are reabsorbed
- Loop of Henle; water and salt are reabsorbed
- DCT; more reabsorbing and secretion of waste (ions)
- Collecting Duct; ADH is released
- Renal Pelvis; -> ureters -> out!!

1. FILTRATION
- Blood pressure pushes water, urea, salt etc from the glomerulus into
the lumen of the bowman's capsule
- Plasma proteins, blood cells, and platelets do not enter as they are too
large for the capillary walls

2. REABSORPTION
- Essential materials from the filtrate are returned to blood
- Ex; glucose, amino acids, salt and water
- Mainly the PCT, loop of Henle, DCT
- Peritubular capillaries in nephron do the reabsorbing
- Very important bc it allows the body to conserve water and nutrients
and eliminate waste
- Without it, we’d have to consume a litre of water every 10 mins to
maintain homeostasis
- The filtrate is 4x more concentrated with urea and waste by the end bc
its NOT ABSORBED
- DESCENDING LOOP OF HENLE; passive transport - filtrate is more
concentrated with salt because water is removed. Also increase in
osmotic pressure
- ASCENDING LOOP OF HENLE; active transport, sodium and
chlorine is reabsorbed. The filtrate is less concentrated w salt because
it's pumped out.
3. SECRETION
- Nitrogenous waste , H+, K+ are moved from the blood to nephron
 - Helps balance out pH of blood
- Mainly the PCT and DCT
- A very selective process using active transport
4. EXCRETION
- Filtrate reaches collecting ducts and fill with urea
- Was not absorbed, but water and essential solutes were
- When urine reaches the bottom of ducts, it goes to renal pelvis
- Then to urinary bladder until it's ready to be excreted

HOW ARE KIDNEY STONES DIAGNOSED?
Urinalysis; a common test used to diagnose kidney stones
Test a urine sample for high protein, blood in urine, high glucose, and pH

Diabetes mellitus; chronic condition where body has issues regulating blood
sugar due to issues w insulin, a hormone that regulates blood sugar
Type 1 diabetes; body doesnt make insulin
Type 2 diabetes; body doesnt respond well to insulin
With time, high blood sugar can damage blood vessels, leading to diabetic
nephropathy (damage to nephrons)
Leads to kidneys not filtering waste properly = protein leakage and fluid
retention
Leads to kidney failure - requiring kidney transplant / dialysis

Kidney stones; hard deposits of minerals / salts that form in the kidney
Vary in size / shape = pain when blocking urinary passages
Block urine flow and swell the kidneys (HYDRONEPHROSIS)
Damage the renal tubules, infection and kidney failure
The kidneys filter minerals, waste and fluid
When calcium, oxalate, and uric acid are too concentrated, it can form stones