Chapter: Life Processes.
Life Earth happens to lie the only
known planet having a life. There are beings who live, die and become a part
again. The living organisms can lee differentiated from the inanimate entities
on various parameters of life processes.
Life Processes:
·
Maintenance
of living organisms is essential even if they are moving, resting or even
sleeping Since these maintenance processes are needed to prevent damage and
breakdown energy is needed for them. This energy comes outside the body of the
individual organism.
·
The
processes which together perform the function of maintenance of life are called
as life processes."
·
Nutrition,
respiration, circulation, excretion are examples of essential life processes.
·
In
unicellular organisms, all these processes are carried out by that single cell.
·
In
multicellular organisms, well-developed systems are present to carry out the
processes.
Nutrition:
The process of acquiring food that is
needed for nourishment and sustenance of the organism is called nutrition.
·
There
are two main modes of nutrition, autotrophic and heterotrophic.
·
Heterotrophic
nutrition has subtypes: holozoic, parasitic and saprophytic nutrition.
How do living things get their food?
·
Some
organisms use simple food material obtained from inorganic sources in the form
of carbon dioxide and water.
·
Autotrophs
include green plants and some bacteria.
·
Other
organisms utilize complex substances.
·
To
achieve this, organisms use bio-catalysts called enzymes.
·
The
heterotrophs survival depends directly or indirectly on autotrophs.
·
Heterotrophic
organisms include animals and fungi.
Autotrophic Nutrition:
If an organism can nourish itself by
making its own food using sunlight or chemicals, such mode of nutrition is
called as Autotrophic Nutrition.
i.
Plants
photosynthesis (use of light energy) and are called photoautotrophs.
ii.
Few
bacteria use chemicals to derive energy and are called chemoautotrophs.
Photosynthesis:
·
Photosynthesis
is an important process by which food is formed.
·
Carben
and energy requirements of autotrophs are fulfilled.
·
Autotrophs
take in substance from outside and convert into stored forms of energy.
·
Chlorophyll
is present in the green parts absorbs light energy.
·
This
light energy is used to split water into H2 and O2.
·
Carbohydrates
are utilized to provide energy to the plant.
·
Chlorophyll
is essential for photosynthesis and stomata to facilitate intake of carbon
dioxide.
6C02+12H2O Chlorophyll sunlight → C6H12O6
+ 602 + 6H20. (glucose).
Raw Materials for Photosynthesis: CO2 and H2O.
Site of Photosynthesis: Chloroplast, in the leaf. Chloroplast
contain chlorophyll.
Stomata:
·
Tiny
pores present on the surface of leaves.
·
It
helps in the exchange of gases O2 & CO2.
·
Losses large amount of water
during transpiration and helps in up flow of water.
Chloroplast.
It contains the green pigment
chlorophyll which has a pivotal role in photosynthesis.
Heterotrophic Nutrition: There is a range of strategies by which
the food is taken in and used by the organisms. Some organisms break down the
food materials outside the body and absorb it.
Holozoic Nutrition: Animals take in solid food and break-down
it inside the body. e.g. Amoeba, animals.
Saprophytic Nutrition: Organisms fed on dead and decaying organic
matter. e.g. Fungi and other saprophytes. The food is partially digested
outside the body and then it is absorbed.
Parasitic Nutrition: Parasites live inside or outside other
organisms (host) and derive nutrition from it. E.g. Leech, Ascaris and Cucuta.
Nutrition in Human Beings:
The digestive system comprises of
alimentary canal and associated digestive glands.
·
There
are five stages in human nutrition: Ingestion, Digestion, Absorption,
Assimilation and Egestion.
·
Four
stages i.e., ingestion, digestion, absorption and egestion take place in
alimentary canal, while assimilation of food takes place in the whole body.
Human Digestive System:
Mouth: It is the opening of the alimentary
canal and helps in ingestion of food. Buccal cavity is present behind the mouth
and has teeth and tongue.
Salivary Glands - secrete saliva
(Salivary Amylasa).
Teeth Chewing and Grinding of food.
Tongue Rolling and Tasting of food.
Esophagus: The swallowed food passes into the esophagus.
It is a muscular tube, about 25 cm long with a sphincter (valve /opening) at
each end. Takes food from mouth by peristatic movement. Function is:
contraction and expansion of alimentary canal.
Stomach: It is a thick-walled bag like
structure. It receives food from esophagus at one end and opens into the Small
intestine at other end.
Gastric Juices
Pepsin HCL Mucus
breaks down protein Makes medium acidic Protects inner lining of
stomach
Small Intestine: It is the longest part of the
alimentary Canal, about 20 feet long. It has three regions: duodenum, jejunum
and ileum. Internal surface of small intestine is folded into finger like
projections called villi.
Liver secretes: bile
Pancreases Secrete: pancreatic juice
Intestinal
Enzyme
Carbohydrates Fats Protien
Glucose Fatty acid + Glycerl Amino acid.
Pancreatic
Juice
Trypsin Lipase
Proteins - Peptones Emulsified
Fats Fatty acid
Glycerol
Large Fat globules > Bile Juice > Small fat globules.
Large Intestine: The region of large intestine after ilium
is called the large intestine, The large intestine is about 5 feet long in
humans. It absorbs excess of water.
Rectum: Temporary collection of waste. It opens
to outside the anus.
Anus: The anus has internal and external anal
Sphinchters. Helps in egestion.
Respiration: Respiration broadly means the exchange
of gases, typically the intake of oxygen and release of carbon dioxide from
oxidation of complex organic substance.
(i) Gaseous Exchange: Intake of oxygen from
atmosphere and release of carbon dioxide.
Respiration
Aerobic
Anaerobic.
In the presence of Oxygen. In
the absence of oxygen
Occurs is mitochondria occurs
in cytoplasm.
End products are Co2 and H2O end
products alcohol
More amount of energy released (38
ATP). less amount of
energy released (2 ATP)
Human
Respiratory system:
Passage of air through respiratory
system.
Nostril > Nasal Passage > Nasal
Cavity > Pharynx > Larynx > Trachea > Bronchi > Lungs > Bronchioles
> Alveolar sac > Blood Capillaries.
Mechanism of Breathing:
Breathing
Inhalation Exhalation
1. During inhalation thoracic cavity
expands. 1. Thoracic
cavity contracts
2. Ribs lift up 2. Ribs
move downwards.
3. Diaphragm becomes flat 3. Diaphragms
becomes dome shaped
4. Volume of lungs increases and air
enters the lungs. 4. Volume of lungs decrease and air exits from lungs.
Exchange of Gases between alveolus,
blood and tissues:
1. Air (rich in O2) (in alveolus) > Blood
(through blood vessels) (capillaries) > O2 Binds with Hemoglobin
in RBC > O2 is released is tissue
2. CO2 (From tissue) > CO2 (released
into blood) > CO2 (dissolved in blood) > Blood vessels
(capillaries) (in alveoli) > CO2 (released in alveolar sac) > CO2 sent
out through nostrils.
Terrestrial Organism: Use atmospheric oxygen for respiration.
Aquatic Organism: Use oxygen dissolved in water.
Respiration in Plants: Respiration in plants is similar thar
the respiration in animals. Gaseous exchange occurs through:
(1) Stomata in leaves
(2) Lenticles in stems
(3) General surface of roots.
Diffusion: Diffusion is the movement of molecules
from high concentration area to the low concentration area without any energy.
Cellular Respiration: Set of metabiotic reactions occurring
inside the cells to convert biochemical energy obtained from food into a
compound called Adenosine triphosphate (ATP).
Catabolism: process of breaking molecules into
energy.
Anabolism: process of synthesizing all compounds
required by the cells.
Transportation: Human beings like other multicellular
organism need regular supply of food, oxygen etc. This function is performed by
circulatory system or Transport System.
Circulatory system of human beings
consists of:
A pumping organ - Heart > Blood
Vessels - Arteries & Veins > Circulatory medium - Blood & Lymph.
Deoxygenated blood (from body) > Vena
Cava > Right Atrium > Right Ventricle > Lungs > Oxygenated blood
> Left Atrium > left ventricle > AORTA > Body Parts. ::Blood
Circulation in Human Heart.::
Heart: It is a muscular organ located near
chest slightly towards the left in thoracic cavity. Heart is main pumping Organ
of the body. It has two cupper chambers called atria and lover two chambers
called ventricles.
Double Circulation: Blood travels twice through the heart
in one complete cycle of body.
Pulmonary Circulation: Blood moves from heart to the lungs
and lack the heart.
Systemic Circulation: Blood moves from heart to rest of the
leady and back to the heart.
Sectional view of Human Heart.
Blood
Solid Components Liquid Component.
Blood Corpuscles Plasma.
RBCS Platelets
WBCS
RBCs: Carries respiratory gases (O2, CO2).
Contains Hemoglobin
Impart red color to the blood.
Platelets: Helps in blood Clotting.
WBCs: Provide Body defense by engulfing the germs and producing
antibodies.
Lymph: yellowish fluid that escapes from wood
capillaries into the intercellular spaces. Lymph flows from the tissue to the
heart assisting in transportation and destroying germs.
Blood Vessels
Arteries Viens
Arteries:
1. Carry Oxygenated blood from heart
2. Also called distributing vessels.
3. Thick and elastic
4. Valves absent.
5. Deep scaled.
Veins:
1. Carry deoxygenated blood from body
parts
2. Also called collecting vessels.
3. Thin and less elastic.
4. Values present to prevent back flow
of blood.
5. superficial
Transportation in Plants: Two type of conducting tissue:
Xylem: Carries water & minerals from the
roots to other part of the plant. No energy used.
Phloem: Carries product of photosynthesis from
leaves. Energy is used from ATP.
Transpiration is the process by which
plant lose water in the form of water vapors. Helps in temperature regulation
in plants.
Translocation: Transport of food from leaves to
different part of the plant is called Translocation.
Excretion in Humans: The process of removal of harmful wastes
from the body is called excretion.
Excretory system in Human beings.
·
A
pair of Kidney
·
A
urinary bladder
·
A
pair of Ureter
·
A
Urethra.
Process of Excretion: Renal artery brings in blood
containing waste substances to the Kidneys. Kidney filters blood. Urine
produced in kidney passes through the ureters into the urinary bladder until it
is released through the urethra.
Functions of kidney: It removes waste product from blood,
area which is produced in lever.
Nephron: Each Kidney has a large number of filtrate
units called nephrons. Nephron is a structural and functional unit of kidney.
Mechanism of Urine Formation:
·
Glomerular
Filtration
·
Tubular
re-absorption
·
Secretion
Hemodialysis: The process of purifying blood by an
artificial Kidney. Meant for kidney failure patients.
Excretion in Plants:
1. Oxygen released during
photosynthesis
2. H₂O by transpiration
3. Waste may be stored in leaves, bark etc.
4. Waste products stored as gums,
resins in old xylem.
5. Plants excrete some waste into the
soil around them.
