Biota
and Environment
• Environment pollution
• Animal behaviour
Environment pollution: - The word pollution means make dirty.
Sources of pollution are industries, factory, nuclear energy power, pesticides,
petroleum, smoke and plastic.
Pollution is the undesirable change in
physical, chemical and biological features of air, water and land. Pollutants
are two types.
i. Non-degradable:
- the pollutants which do
not degrade or decay and remain in nature for long time are called non-degradable
pollutants. Examples are aluminum, mercurial salts, DDT, glasses, plastics etc.
ii. Degradable pollutants: - The pollutants which degrade or decay
easily by decomposer are called degradable pollutants. Examples are domestic
sewage, fertilizers etc. These pollutants increase fertility of soil.
Air pollution: - Air pollution is the undesirable change in
physical or biotic elements of air. The pollutants are harmful to human,
vegetation or animals.
Sources
i. Automobiles
— Cars, buses, truck,
bike etc
ii.
Electric power plants — Thermal stations and generators
iii. Industries
— papers mills, cotton mills, chemical plants, sugar mills, rubber
mills, bricks and lather factory
iv. Heating
plants — domestic coal,
fuels for cooking etc.
Causes (factors) and their effect
i. So2
— It is released on
combustion of petroleum products by automobiles and burning of coal. It is form
sulfuric acid reacting with air and water and caused acid-rain. Burning of
eyes, asthma and skin diseases are caused in human.
ii.
Carbon
monoxide (co)— It is
released on burning of coal, old vehicles, smoke of cigarettes, industrial
plants etc. In man it produces headache nausea, heart palpation and difficulty
in breathing.
iii. Lead
— It is heavy metal mix
in atmosphere from automobiles. In man, it damages liver, kidney and gastro
intestine and impair fertility and pregnancy. In excess lead, RBC does not
mature and cause anemia.
iv. Aerosols
— It contain fluorocarbon
(CFC) produce from air-plane, jet etc. these deplete ozone layer and UV rays
directly come to earth and causes skin diseases and eye problems.
v.
Co2 — More amount of co2 produces
from burning fossil fuels and deforestation. Effects are green house and global
warming.
vi. Smoke
— Smoke released from
houses and factories and mixes in atmosphere cement factory, brick factory are
major sources of smoke. Soil dust, pollen grains microbes causes several
allergic reactions to human. Smoke causes health hazard and ill-effect on city
–vegetation.
vii. Nitrogen
oxides (No and No2) — These oxides increases in atmosphere through chemical fertilizers.
Different oxides of nitrogen and
hydrocarbons react in presence of sun UV rays and from toxic substances proxy
acetyl nitrate (PAN) and photochemical oxidants. It causes stinging of eyes,
coughing headache, dry-throat, pulmonary congestion.
Preventive Measures or
Control
1. Electrostatic filter should be used in
industries.
2. Use of less sulphurized fuel.
3. Alternative sources of energy should be
used to avoid pollution. (solar energy, wind energy, electrical energy)
4. Old-vehicles should be removed.
5. Plantation should be done on roadside and around
factory and industries.
6. Population growth rate should be
controlled.
7. Public awareness
Water pollution:-
Water pollution is the undesirable change in physical and biotic
elements of water.
Sources
of water pollution
i.
Industrial sources — chemical wastes and poison.
ii.
Domestic sources — sewage, detergents etc.
iii. Agriculture
sources — pesticides,
chemical fertilizer.
iv. Oil
— automobiles and tankers
v.
Physical pollutions — radioactive, nuclear subs.
Causes and their effects
i.
Inorganic and organic substances — These are released from dairy tanners,
paper mills which reduce the oxygen content of water.
ii.
Domestic wastes and sewage — About 75% water pollution is caused by
domestic waste and sewage. It spread water borne diseases and toxic substances
to kill the useful living organisms and destroy the biological activity.
iii. Hot
water — Large amount of
hot water causes serious thermal pollution.
iv. Poison
— Acids, alkaline, lead,
copper, cyanides reduce oxygen transporting capacity of blood in human.
v.
Spilled oil — River, oceans get polluted from oil
tanker. It decreases oxygenation in water.
vi. Pesticides,
insecticides and fungicides — These are taken by aquatic
organisms through food chain.
vii. Nitrates
and phosphates — In water
those chemicals of fertilizers cause eutrophication which decrease oxygen level
in water.
Preventive measures
i. Recycling of waste product
ii.
Treatment
and cleaning of polluted water before releasing in sources of water.
iii. Control of distribution of industries.
iv. Proper drainage
v.
Minimum
use of pesticides
vi. Education
vii. Legislative measures
Soil or land pollution — Soil
or land pollution deals with the pollution of soil and affects a biotic
community of soil.
Sources of soil pollution
i.
Industrial sources — These are inorganic and substance those
are inorganic and organic substance like poisons, heavy metals, plastic,
aluminum etc.
ii.
Domestic source — Domestic sewage, detergents
iii. Agriculture
sources — Pesticides,
insecticides, fertilizers etc.
iv. Radioactive
source — Nuclear dusts and radioactive substance
v.
Overgrazing and deforestation — Soil become loose and easily eroded by
water
All above substances cause
toxicity in the soil and decrease the quality of soil. These adversely affect
the soil-organisms and other useful organism.
Preventive measures
i.
Use
of chemical — fertilizers, insecticides and pesticides should be minimized.
ii.
Waste should be recycled
iii. Well
managed dumping sites.
iv. Organic
wastes and animals refuge can be used for production of bio-gas.
Types of pesticides and effects
i.
Organocholorides
— DDT, BHC,
aldrin etc,
ii.
Orgnophosphates
— parathion, malathion diazion etc
iii. Carbamates — baygon, temic, pyrethrins
etc.
iv. Pyrethroids — pesticides of plant
origin nicotine from tobacco leaf and other like neem plant, Artemisia leaf.
v. Insecticides
and rodenticides are zinc phosphate, arsenic, compounds. Herbicides are phenoxy
acids fungicides are HCN, methyl bromide etc.
Mode of action — Either nervous of respiratory poision.
Organocholrides are nervous poisions. They reach nerve fibers and inhibit Na+,
k+ and Mg++ ATPase activity in the synapsis of insects.
Respiratory poisions enter through spiracles and cause nausea, vomiting and
nervousness leading to death.
Effects of pesticides
i.
Environment
pollution — Organochlorides have longer lifetime so persist and accumulate
in environment and associate with food chain.
ii.
Kill
useful organisms — Natural enemies of pest (predators, paracites and
pathogens) are also killed by pesticides.
iii. Affect the biology of organisms — Decline
in reproduction of some animals ca-deficiency of birds, delay in ovulation are
caused by pesticide.
iv. Increase resistance — Pests develop
resistance or immunity against pesticides and high dose of pesticides should
use to protect crops hence increase environmental pollution.
Alternative of pesticides
I.Biological control — Predators, parasites and pathogens kill and
destroy the many type of pest. These are birds, fishes, bacteria etc.
II.Culture control — Rotation of crop, ploughing and expose on
sunlight etc.
Integrated pest management (IMP). It
is control and management of pest population integrating biological, chemical
and culture ways. It is very economical, ecological and environmental safe.
Animal behaviour — Reactions
or expressions of organisms in response to the stimuli is called animal behaviour.
Stimuli are:
Physical — Heat,
light, touch, sound etc
Chemicals —
acids, base, salts, air, water etc.
Study of behaviour is called ethology. Who study animal behaviour
is called ethologist. Father of ethology is knorad Lorenz.
Types of animal behaviour
are two:
1.
Innate
or stereolyped behaviour — It is inborn behaviour. These are reflexes,
taxes, migration, dominance social behaviour, courtship (activity to attract
opposite sex) mating, territorial behaviour etc. it is long lived.
2.
Learned
behaviour — The behaviour which develop in life after birth. These are
singing, swimming. It is short kived.
Reflex action — it is sudden involuntary action of organism. It is
stereotype behaviour first studied by Marshall
Hall in 1833. Examples are sneezing, cough reflex, hunger salivation,
eye-blanking etc. sensory nerves and motor nerves involve for it.
Mechanism of Reflex Action — It
compares four steps — reception, condition, modulation and effect. The path
which is formed by the step is called reflex action.
The flow of impulses in a reflex
arc is unidirectional which is as follows:
1. Reception (sensory organs)
2. Conduction (sensory nerve)
3. Modulation (brain/spinal cord)
4. Conduction (motor nerve)
5. Effect (muscle or glands)
Fig: various components of reflex arc
Types of reflexes
1)
Unconditioned
reflex — It is an inborn behaviour. E.g. eye blinking.
2)
Conditioned
reflex — It is induced or developed type. E.g. salivation by dog due to
bell-ring.
Taxes (Pl: taxes) —
A tax is defined as the movement or orientation of organisms in response or
orientation organisms in response to external stimulus (pl-stimuli). Stimuli
may be
Physical: light, heat, touch.
Chemical: Acid, base, sales, hormones, enzymes, etc.
When organism move
or orient toward stimuli is called positive taxis. When organism move away from
stimuli is called negative taxis.
Types of Taxes
1.
Phototaxis
— It is the movement or orientation of organisms is response to light. For example earthworm shows –VE photo taxis
to light. Euglena show the photo taxis to light.
2.
Chemotaxis
— It is the movement or chemicals. For examples, Earthworm move away from
dil. HCL. (-VE chemo taxis) and the chemo taxis with glucose.
3.
Geotaxis
— It is the movement or orientation of organisms in response to center of
gravity. For example: Earthworm show the geo taxis.
4.
Rheotaxis
— It is the movement or to water current. Some fishes show the rhea taxis
and some shows –VE rhea taxis.
5.
Klinotaxis
— When the sensory organs are distributed on dorsal side of anterior part of
an organism, organism move body up-down or side wise to receive the stimuli
called Kline taxis. Euglena shows photo-Kline taxis.
6.
Tropo
taxis — It is orientation of organism is straight path due to bilaterally
symmetric body. Lice, plan aria, show photo hop taxis.
7.
Talo axis
– It is orientation of organism towards any one of stimulus between two
stimuli. For example honey bees are oriented toward pollen of flower due to
light stimulation.
8.
Menotaxis
— It is change of orientation due to slight change in direction of stimuli.
For example ant and honey bee changes their direction in relation to position
of sun.
9.
Thermotaxis
— It is movement or orientation of organisms in response to heat. For
examples, earthworm shows negative thermotaxis to extreme heat.
Q.Write two
differences between taxis and tropism
Dominance:-
Dominance is a
process by which one dominates other members of its colony by aggression or
threat. It is both inborn and learned types of behaviour. Examples are:
i. Female
dog dominates over males during breeding season.
ii. The
dogs threats its counterparts by snoring, posing their teeth.
iii. Among
cattle there will be pawing the ground, butting and making so und of different
sorts.
Leadership — It is innate types of behaviour.
It is guidance to the member of its group. Examples are:
i.
Leadership of female red deer is noticeable. She also takes care
of the group.
ii.
In birds also, a leader bird takes care of
the herd.
iii. In
baboons socially dominant individual behave as leader
iv. In
monkey (Allouatta) some male produce an uttering sound for a suitable path,
other member hear them and then follow.
In rhesius money, leadership and
dominance go together. One adult matured elephant becomes a leader to find
water and food. Others follow him/her.
Migratory
behaviour of fish and bird
Migrate
means travel (Latin). Migration is defined as the regular, periodic
movement of animals from one place to other in response to environment changes.
1.
Fish
migration — Few fish are migratory. Resident
fishes do not migrate. American eel (Anguilla angilla), hilsa, salamon (salmo sp) etc are migratory fishes.
Typed of migration
1.
Diadromous
— Migration between sea to river and vice-versa. It is of three:
i.
Anadromous
— It is migration of fishes from sea to river for breeding example salmon,
hilsa etc.
ii.
Catadromous
— It is migration of fishes from river to sea for breeding Example American
eel.
iii. Amphidromous — It is migration of fishes from sea
water to river water and vice- versa not for breeding may be for feeding.
Example gobies fish.
2.
Patamodormous
— Migration in fresh water only (in river lakes etc) for travelling long
distances. Example gobies fish
3.
Ocenodromous
— Migration Sea water only for spawing. Example are Atlantic herrings, tuna
etc.
i.
Alimental
or feeding migration — Cold fish, ehinese, carp, grass carp migrate in sea
to search food and spawing.
ii.
Gametic
or spawning migration — It is migration of fish for better development and
protection of eggs and fries. Example — salmon. Parents die soon after spawing
(salmon)
iii. Climatic or wintering migration — It is
the migration of fish due to physical and metabolic changes if fishes in
changing climatic conditions. In warm water (above 21
) metabolic rate of fish
becomes high.
) metabolic rate of fish
becomes high.
Cause
of migration
1. Physical
factor — Heat,
light, water current, turbidity (clearness of water), depthness, pressure,
bottom material etc are physical factors due to which fishes migrate from one
place to another place.
2. Chemical
factor — salinity
of (salt) water, PH, smell, test etc are chemical factors.
3. Biological
factors — External
— food-shortage, presence of predators and competitors. Internal factor —
hormonal, sexual maturity blood pressure, food memory etc.
Advantages
of fish migration
1.
Find
better climate
2.
Better
availability of food
3.
Better
adaptability
4.
Promote
distribution of fishes
Disadvantages
1.
Loss
of life in travel by predators
2.
Loss
of life in travel by tsunami cyclone etc.
3.
Loss
of energy
2.
Bird migration — definition
is like fish
Special features of migratory birds
1.
Many
bird if northern hemispheres are migratory in nature than south.
2. Migration of bird I. Diurnal
II. Nocturnal III. Or both
3. Altitude and velocity of
migration varies from 900km — 1525 km and 50km/hr velocity.
4. Golden plover of America travel about 11,590 km from Alaska to South America.
5. Young ones follow adult.
6. Identification of route by
mountain line marks, waistline, course of river flow, sun, stars, air current,
smell etc.
Cause
of migration
1.
Physical factors — Temperature is the most
important factor of migration of bird being warm blooded. There are more
migratory birds in Canada
than in North America as Canada
is far north and cooler to USA.
2.
Biological factor (hormonal)
— Gonadotrophic
hermon produce by pituitary (FSH, LH) stimulate gonads which affect central
nervous system for migration.
3.
Shortage of food — Scarcity of food takes place
south hemisphere in winter and north hemisphere in cold seasons and season
cause the bird to migrate.
Types
of migration
1. Longitudinal
— Migrate
from east to west and vice-versa. Starling bird migrates from east Europe to Atlantic west.
2. Latitudinal
— Migrate
from northern hemisphere to south hemisphere and vice-versa. The golden plover
of North America to Argentina
to find warmer place.
3. Altitudinal
or vertical — Migrate
from higher altitude to lower altitude of mountains and vice-versa wool cock
migrate from plains to slope of Himalayas in Nepal (9500 ft).
4. Seasonal — Migrate at beginning of one season and return at the end of
that season is called seasonal migration. In British the birds like swallows
have seasonal migration.
5. Daily
or local —
Migrate in early morning to their feeding places in the evening. Examples are
house sparrow, crows etc.
6. Cyclic
— Migrate in
every three to five years but not at regular intervals. Example snowing owl of USA.
Modes
of migration — The
migratory birds are swallows, orient themselves by the position of the sun. The
nocturnal migratory birds migrate at night or in day. Nocturnal migratory birds
get direction by the position of the stars and moon.
Advantages
and disadvantages of migration same like fish.
Animal
adaptation — The
fitness or acclimatization or adjustment of animals with their habitat is
called adaptation. The term adaptation is first used by H.F. Os born
(1902).
Types
of adaptation — There
are three types of adaptations:
1.
Aquatic
adaptation
2.
Amphibious
adaptation
3.
Terrestrial
adaptation
1. Aquatic
adaptation — It
is defined as the change that occurred in animals to suit in aquatic habitat.
A.
Primary aquatic adaptation — only live in water, these are
fishes, whales, dolphins etc. Adaptational features are:
i.
Streamlined body— Body is spindle shaped and
laterally compressed to reduce friction caused by water.
ii. Presence of fins – locomotion take
space by different t types of fins. Pectoral fins, pelvic fins, dorsal fins
anal fins and caudal fins.
iii. Respiratory gills – These are
respiratory organs to exchange gases (o2 and co2) in
water.
iv. Scales – scales cover body scales
protect body from water current and external injury.
v. Cold-blooded—Due to the nature fishes
can tolerate changes in temperature of water.
vi. Air bladder—Air bladder is an outgrowth
of water. It helps in floating. In others it functions in breathing (dolphin,
whales).
vii. Lateral line— It detects pressure and
temperature changes. The line is stimulated by slow vibration of the body.
viii.
Osmoregulation
— It is a process of maintaining salt and water balance in animals. Fishes
have special chloride cells present in gills to balance salt in body.
ix. Nictitating membrane —
It is also
called third eye-lid. It protect eye from dirty water and ensure clear vision
in water.
B. Secondary
aquatic adaptation — Live
partically water and land. Fox examples adaptation of aquatic mammal,
amphibians, and aquatic reptiles etc.
i. Fish
like shape — It
is suited for active locomotion in water. Most of water-snake, turtle etc.
ii. Shorting
of neck — The
cervical nertebrae are fused helps in swimming in water.
iii. Locomatory
organs — Limbs
have webbed digits. In marine turtles and sea-cows forelimbs are modified into
paddles.
iv. Respiration
— Lungs are highly
elastic to store much air so animals can spend long time in water. (whale)
v. Lightness
of bones — Bones
are light and spongy to float easily.
vi. Absence of hair skin glands
like fish.
vii. Modification
of skull —
cranium is shortened and produce into pointed snout to reduce resistance of
water.
viii. Lateral line system like
fishes.
2. Arboreal
(scansorial) adaptation — It
is adaptation for climbing trees walls, rocks etc. monkey, wall-lizard chameleon,
tree-snake have these adaptation. Scansorial or arboreal animals may be of
three types
i. Wall
and rock climbers — They
are able to climb on walls of houses and rocky surfaces example wall-lizards,
flying squirrels.
ii. Terrestrio
—
Arboreal
forms — They are able climb on tree but rest beneath the trees. Rarely form
nests in the trees. Example squirrel, sloth.
iii. Arboreal
forms — They
are perfectly tree-dwelling animals and make home in the trees. Example
chameleon, gibbons.
Adaptational
features
1. Stout
body contour — Body
is strong due to sub circular ribs, numerous ribs to support viscera.
2. Dry
skin — skin
is dry and covered by epidermal scales to avoid loss of water by evaporation
process.
3.
Girdle
bones (pelvic Girdle and pectoral girdle) are strong to support weight of the
body.
4.
Limbs — limbs are strong can bear
eight of body.
Ø
Claws
are well developed (squirrel)
Ø
Porcupine
has spines on their soles.
Ø
Adhesive
pads are present on tip of digits.
Ø
Lamellae
are present on ventral side digits create vacuum and attach on wall
Ø
Chameleon
is syndactyle of first 3 fingers in both fore and hind limbs.
5. Presence
of neck —
Help to move head make to see different directions.
6. Tail
— Long tail
help to balance the body during locomotion.
7. Changing
colour — It
change body colour with respect to the surroundings in order to hide from
enemies. Example chameleon.
Volant (flying) adaptation — The adaptation is concerned
with the flight.
There
are two types of flights
i.
True flights — long and sustained flight.
ii.
Passive flights (gliding) — it is a leap or jumping type
remains in a air for a short period.
Adaptational
features for true flight
1. Streamlined
body — It
causes least resistance to air during flight and increase the speed in air.
2. Presence
of feathers —
Body is covered with feather to avoid loss of temperature.
3. Presence
of wings —
fore limbs is modified into wings to fly (birds). In bat wings are made up fold
of skin (patagium)
4. Pneumatic
bones —
bones having air filled cavities for buoyancy during flight.
5. Presence
of air sacs —
These are present in the lungs. Air sacs increase respiratory efficiency and
lighten the body.
6. Developed
flight muscle —
strong flight muscles connect wings with limb bones.
7. Short
tail — it serves
as rudder in steering and balance in perching.
8. 
Reduction in the body weight
— Absence of
teeth, lack of urinating bladder and fused vertebrate reduce body weight.
Reduction in the body weight
— Absence of
teeth, lack of urinating bladder and fused vertebrate reduce body weight.
Fig:
birds shoeing air sacs
For passive flight (glidding)
1. Development
of patagia (skin folds) — It
is attached between fore limbs and hind limbs, extends either of trunk example
Draco (flying spider).
2. Enlargement
of pectoral fins — pectoral
fins are large and highly developed of flying fish (exocoetus) to make great leap.
3. Webbed
feet — In flying
frog (rhacophorus) the feet are webbed to make long leaps. The digits terminate
in adhesive pads which secrete sticky substance for emergency attachment.
Conservation
of wild life resources
Conservation
is
management of nature and natural resources for the present and future
generation.
Wild
life — Life
in natural habitat which are very difficult to domesticate.
Importance
of wild life conservation
1. Ecological
balance — Balance
population and mountain food chain.
2. Medical
value — both
flora and fauna have medical value. Jatamasi, sugandhuwal, talispatra, panch
aunle, yarsa Gumba are medicinal plants. Navel gland of musk deer similarly
bone, skin, urine, stool, meat, horn, and tusk are used as medicine of
different animals.
3. Scientific
value — Scientific
information about habit, habitat, ecology and behaviour of flora and fauna.
4. Survival
value — The
species give information since 3.5 billion years ago. A loss of any species is
loss of forever.
5. Economic
value —
different parts of plant and animal are source of income for the country.
6. Genetic
value —
Wildlife is gene bank by which different resistance type are developed in
agriculture and animal husbandry.
Status
of wildlife
IUCN
has listed
following threatened categories
Ø Extinct
(Ex) — The
species which is not reported from last 5o years in wild form is considered as
extinct. Example pink head duck (rhodonessa
caryophyll) in Nepal.
Ø Endangered
species(E) —
These are in danger of extinct due to continue destruction of habitat, shortage
of food, heavy poaching. Example wild buffalo, wild yak, snow leopard tiger
etc.
Ø Vulnerable
species (V) —
These are going to in endangered example black buck, red panda, gangetic
dolphin etc.
Ø Rare
species (R) — These
already are few in number. Going to be vulnerable.
Ø Threatened
species (T) — The
species need to be protected.
Ø Intermediate
(I) — These
are the species, which sufficient are not taken.
List
of endangered wildlife of Nepal
are
Mammals
— 27 species
Birds
— 9 species
Reptiles
— 3 species
These are in legal protection
under 1073 national parks and wildlife act.
Causes
of extinction of wildlife — It is estimated that about 25000 plant species and over 1000
vertebrate are threatened with extinction.
Causes
are:
1.
Habitat destruction — Deforestation,
cultivation, residents, developing works, industries, mine etc destroy the
habitat.
2.
Poaching — Illegal hunting of elephant,
musk deer, spotted deer, tiger, rhino etc are mostly prevalent in terai.
3.
Environment pollution — Deforestation,
industrialization and urbanization are major factors of pollution.
4.
International trade — Animal’s hide, fur, bones,
tasks, musk similarly so many medicinal plant are trade items internationally.
This has increased the loss of wild life in many countries.
5.
Over exploitation — Over grazing by domestic
animals, deforestation etc has resulted into extinction of wildlife.
Conservation
and management of wildlife — It include protection and right use of wild life for greatest behefit for present generation and
future generation. UN conference on biodiversity in 1992 of scientists of 100
countries has been developed following strategies.
1. Study
of habitat — Critical
habitat like feeding, breeding, nusery and resting areas should be studied.
2. Protection
of habitat — This
above habitat should be protected to protect the animals.
3. Improvement
of habitant — Habitat
should be improved as much as naturally.
4. Statistical
data — Number
of protected species should be recorded (yearly as possible)
5.
International multilateral
agreements — Wild-ranging
animals and migratory birds cover large area of two or more countries. The
strategy of save the habitat of wild life of different countries.
6. Protection by law — Laws should be enforced to
protect the animals.
7. Wildlife
research — The
wild varieties which are important for biotechnology should be preserved.
8. Construction
of national parks and reseves
9. Educating
people — Formally
and informally
National
parks of Nepal
Chitawan
national park
Area:
932 km2
Established:
1973
Location: Inner terai of south
central Nepal
Features:
world
heritage, oldest national park
of Nepal
70% sal forests, 20% grass land,
7% riverine forest, 3% sal with chirpire 43 species of mammals, endangered
are-horned rhinocerous, tiger and gharial crocodile. 450 species of birds,
endangered are Bengel flocrican, giant horn-bill, storks’ etc. 45 amphibians
which are marsh crocodile, cobra, green pit viper etc.
Bardia
national park
Area:
965 km2
Established:
197-1988
Location: mid far western terai, east
Karnali River
Features:
it is
largest one. 70% of park is covered by sal forest.
Mammals
– rhinoceros,
elephant, tiger, swamp deer, black-buck
Reptiles
– gharial
crocodile, dolphin
Birds
– Bengal florican, sarus crane,
danphe, junjle crow patridge etc.
Khaptad
national park
Area:
255 km2
Established:
1984
Location: mid-mountain region of far
western Nepal
(bajura, doti and achham of seti-zone)
Features:
It is
situated about 300 melevation. Subtropical to temperate are found on the
khaptad plateau. Tree species are chirpine, fir , maple, birch and
rhododendron. Wide varieties of medicinal herbs occur in the park. Animals are
leopard, black bear, musk deer, gheral, thar etc. colorful butter flies and
moth are important feature of khaptad ecosystem.
RaRa
national park
Area:
106 km2
Established:
1976
Location: north West
Nepal (mugu,
jumla of karnali zone)
Features:
It is
smallest park containing biggest lake 10.8 km2 at an elevation of
2990m
Name Rara. Elevation range is
1800-4048 m. the park contain coniferous forest. Animals are musk deer,
Himalayan black beer leopard, ghoral etc. birds are snoe cock. Imeyan pheasant
kalij pheasant etc.
Makalu-barun
national park and conservation area
Area: 2330 km2 (1500+830)
Established:
1992
Location: situated in sankhuwa sabha
and solukhumbu district.
Features:
it is
strick-nature reserve. Trees are sal birch rhodendron etc. other economically
valuable medicinal and aromatic plants are found. Over 400 species of bird have
been rewrded here. Animals are red panda, musk deer, Himalayan black bear,
clouded leopard, barking deer etc
Shivapuri
national park
Area:
144 km2
Established:
1985-2002
Location: north side of Kathmandu velley
Features:
it lies
altitude of 1366m to 2732m. These are main sources of water for Kathmandu. Trees are chilaune-katus, pine etc. animals
are leopard, Oran-billied Himalayan squirrel etc.
Wildlife
reserves of Nepal
—Rare and
endangered or particular animals are conserved here. Tourists are also not
allowed here.
Parsa
wild life reserve
Area:
499 sqkm
Established:
1985—2002
Location:
north side
of Kathmandu valley
Features:
: churiya hills (750M-950). It has a sub-tropical monsoon climate. Trees are
char pine, khair; sisal and silk cotton tree are dominated. Animal are, wild
elephant, tiger, leopard, sloth bear gaur, wild dog etc. 300spenies of birds.
Koshi tappu wold life reserve
Area: 499sq. Km.
Established: 1984
location: flood plain of sapta koshi in saptari and sunsari destricts.
location: flood plain of sapta koshi in saptari and sunsari destricts.
Features: Hog deer, wild boar spotted
deer are animals. Birds are ducks, storks etc. Forest
are deciduous and mixed reverie wild buffalo.
Suklaphanta wild life
reserve
Area: 155sq. km.
Established: 1976
Location: in
kanchanpur district
Features: trees are
sal, sisoo etc. Animals are (about 2500 numbers) elephant. Tiger, Leopard hog
deer etc.zoo spies of birds. Python, menial lizard cobra, kraits are
reptiles.
Dhorpatan hunting reserve
Area: 1325 sq. km.
Established: 1987
Location: districts of rukum, myagdi and baglung.
Features: this is only hunting reserve in the country. Blue sheep
and other game animals can be hunted. Vegetation – fir, pine, birch, rhodo
Dendron etc. animals are blue sheep, leopard goral, Himalayan black bear,
monkeys, musk deer, red panda etc.
Conservation area It is an integrated management plari. The total
area covered by the conservation area is 11327 sq. km.
Annapurna conservation area
The
park and conservation area are situated in the sankhuwasabha and solukhumbu
districts.
It
occupies 7629 sq. km. of area.
It
established in 1992.
Endangered
red panda, musk deer Himalayan black deer, clruded leopard, wild boar, barking
deer, 84 varieties of fishes and 32000 people in habit the area.
Kanchenjunga lonsorvation area
This
conservation area is situated in the northen part of taple jung district.
Area: 2035 sq. km.
Established: 1997
oak forest pine forest
clilanne- katush forest are found here. Show leopard, redpanda, wolf, etc are
animal found here.
Manasula conservation area
Area: 1663 sq. km.
Established: 1998
Location: gorkha and manage districts.
Different
medicinal plants snow leopard, musk deer, red panda etc are found.
What
is IUCN?
Full
form is international union for the conservation of nature and nature resources.
It was founded on act 5, 1948. Headquter is merges, Switzerland. It is world
conservation union. It includes two member organization, both government and
non government. It works along with and World Bank, Asian development bank
UNESCO etc. IUCN maintain red list or red data book.
Purposes of the red list are:-
1.
To create awareness on threat of biodiversity.
2.
To identify risk-species.
3.
Strategies of conservation.
4.
Specific in formations for its importance.
Human responsibility for the protection of
earth.
1. Natural resources must be
reused, recycled and conserved.
2. Wild life should be protected
and preserved.
3. Environment must make free
from pollution.
4. The ecological imbalances
should be minimized.
5. People must be aware about
family planning and their hygienic.
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