Sunday 10 April 2011

Mr. Chips notes

Good Bye Mr.Chips For 2nd year
Prepared by Sohail Anjum
Q.1. what did Chips say to the young Colley, the son of the Colley whomChips punished first at Brookfield?
Ans: chips said to him, `` colley, your father was the first boy I ever punished when I
came here twenty-five years ago. He deserved it then and you deserve it
now.
Q.2. Describe the atmosphere in the Hall when Chips took his first class?
Ans
:There was a sudden silence when Mr. chips entered the class room. the wall clock was
ticking behind him. there was smells of ink and varnish. the red rays of the setting sun were
coming in through the glass windows. the sudden hush in the class room frightened Mr.Chips.He
felt a bit nervous.
Q.3. How did Mr.Wetherby advise Chips on the day of his interview at Brookfield?
Ans
:He asked chips to give his zeal of youth to Brookfield and it would give him something in
return. He asked him not to allow anyone to play tricks with him.he asked him to take up firm
attitude to keep discipline.
Q.4. What was the name of Chips’ doctor and how often did he visit Chips?
Ans
:The name of chips` doctor was merivale.he called upon chips every fortnight .
Q.5. For how much time did Chips work at Melbury School and why did he not like it?
Ans
:Chips worked at melbury school for a year. He did not like it because he had been a bit
tired and anxious there .
Q.6. How did Chips measure his time when he live at Mrs.Wickett’s house?
Ans
:Chips measured his time by the signals of the past.he live his life according to the bells of
Brookfield.
Q.7. What did Chips doctor say about Chips?
Ans : the doctor said that he was fitter than he . he would not get any horrible disease.he would
die a natural death. He called chips a matchless old boy.
Q.8. What did Chips do after the last bell of Brookfield when he lived at Mrs.Wickett’s
House?

Ans : after the last bell of Brookfield, chips wound up the clock,put the wire guard in front of the
fire, turned out the gas and carried a detective novel to bed.
Q.9. How did the boys look when Chips took his first class at Brookfield?
Ans : the big hall was full of five hundred wicked boys . they looked like lusty barbarians ready
to attack him .
Q.10. what kind of fellow was Mrs. Wetherby?
Ans :Wetherby was the headmaster of Brookfield in 1870.he was ill then when chips joined it. he
liked and respected chips . he was very gentle and cooperative. He had vivid(bright)  eyes.
Q.11. How did Chips enjoy sleep?Ans : Sleep came to him swiftly and peacefully . his days and nights were equally full of
dreaming .
Q.12. What mischief was made in the very first class of Chips at Brookfield and who made?
Ans : A boy dropped a desk lid. His name was colley.
Q.13. When was the structure of the building of Brookfield rebuilt and extended?
The main structure of the building of Brookfield was rebuilt and extended,in the reign of the
george 1.
Q.14. Was Chips an ambitious teacher?
Ans: In his early twenties, he wanted to get a headship or a senior mastership. It was after many
repeated failures that he realized the unfitness of his qualifications.
Q.15. When did Chips retire and what was presented to him on the day of his retirement?
Ans : chips  retired in 1913 at the age of sixty-five .at the time of retirement ,he was
presented with a cheque,a writing desk and a clock.
Q.16. what was the social and academic status of Chips?
Ans: Chips in social and academic sense was respectable; but he was no more brilliant.
Q.17. what was Chips’ status at Brookfield at sixty?
Ans: At sixty, he was Brookfield in his person. He was the guest of honour at Old Brookfieldian
dinners.
Q.18. How did Brookfield look?
Ans: Brookfield lay behind a line of ancient elms. It looked reddish brown. It consisted of a
group of eighteenth century building.
Q.19. what kind of people did Brookfield supply?
Ans : it supplied judges, members of parliament, peers and bishops, merchants ,etc .
Q.20. Did Brookfield enjoys a good repute?
Ans: There had been rise and fall in its luck. However, it remained a good school of the second
rank.
Q.21. what kinds of books did Chips have in his room?
Ans: The books were chiefly classical. There were a few books of history and detective novels.
Q.22. How was Chips’ room decorated at Mrs.Wickett’s house?
Ans: His room was furnished simply and with school masterly taste. There were a few
bookshelves, a mantelpiece, abug easy- chairs and the some pictures.
Q.23. what was the condition of Mrs.Wickett’s house?
Ans: The house itself was ugly and affected but comfortable . It was situated near Brookfield.
Q.24. with what did Chips serve the boys?
Ans: He served the boys with walnut-cake tea. And crumpets, soaked in butter.
Q.25. What did Chips tell Mrs.Wickett about Major Collingwood?
Ans: He told her that once he had punished Collinwood for climbing on to the gymnasium roof
to get a ball out of the gutter. He might have broken his neck.
Q.26.How did Chips feel in the company of women?
Ans: Chips did not care for women. He never felt at ease with them. He considered the new
woman of the nineties such a monstrous creature that filled him with horror.
Q.27. How did Katherine Bridges look?
Ans: She had blue flashing eyes and freckled cheeks and smooth straw- coloured hair.
Q.28. What did Katherine think about women’s right?
Ans: She believed that women ought to be admitted to the universities. She even thought that
they ought to have a vote.
Q.29. Why did Chips not like Bernard Shaw and Ibsen and cycling?
Ans: Chips was a conventional person. He did not like Bernard Shaw Ibsen for there disturbing
plays. He d id not like women taking up bicycling because he was against the freedom of
women.
Q.30. What did Chips see while climbing on Great Gable?
Ans: One day, climbing on Great Gable, he saw a girl waving excitedly from a dangerouslooking
ledge.
Q.31. Why did Katherine begin to like Chips?
Ans: She began to like Chips because he had gentle and quiet manners. She liked his honest
views though they were out-dated. She also liked his brown charming, eyes.
Q.32. What was the profession of Katherine?
Ans: She was a governess out of job but she had already saved a little money.
Q.33. What were the political views of Katherine?
Ans: In politics, she had a radical views. She was impressed by the people like Bernard Shaw
and William Morris.
Q.35. Where and with whom did Chips go during the summer vacation of 1896?
Ans: He with his colleague Rowden went up to the Lake District.
Q.36.What did Katherine say to Chips on the night before wedding?
Ans: She said that she felt like a new by beginning his first term with Chips. She asked if she
should call him ‘Sir’ or ‘Mr. Chips’ would be right. Then she said, “Good-Bye Mr. Chips”.
Q.37. What did Chips remember about the time he spent with Katherine in Lake District?
Ans: He remembered the evening strolls with her. He remembered her cool voice and gay
laughter. She had always been a happy person. They had been so eager, planning a future
together, but he had been a bit serious about it, even a little awed.

Punjab university

Results

B.Com English Essays

Cash Crops of Pakistan
(For B.Com By Sohail Anjum)
Outline
1. Introduction.
2.Cotton, rice, oil seeds and fruit, are the major cash crops of
Pakistan.
3. Cotton is the silver fiber of cash crops.
4. Rice of Pakistan is liked much in the foreign countries.
5.The world's famous Tobacco Virginia is cultivated in
Peshawar.
6. The fruit of Pakistan are famous all over the world. .
7.Government should supply agricultural machinery, seeds
and interest-free loans to the farmers,,
8. Conclusion

  Pakistan is an agricultural country. About 70% of its population depends upon agriculture. A huge number of its people are living in villages. These villagers are working in fields. They are producing two types of crops-food crops and non-food crops. The non-food crops are cash crops. Cash crops mean those crops which earn foreign exchange for our country. The major cash crops of Pakistan are cotton, rice, tobacco, fruits and oil seeds. These crops are exported to foreign countries. With the help of cash crops, the country has been earning huge foreign exchange. These cash crops have become flourishing business for the people of Pakistan. The cash crops of Pakistan are grown in almost all provinces of Pakistan. The farmers grow them willingly.

     Cotton is one of the major cash crops which is grown in the fertile lands of Sindh and Punjab. It is the flourishing crop which gives a huge foreign exchange to our country. The government helps the farmers by providing them pesticides and other chemicals to save the crop from the severe attack of dangerous insects and diseases. The government provides high quality seeds to the farmers and guides them about how to grow the crop of cotton scientifically. Cotton is expose in few  countries, it is called the silver fiber. Most of our textile industries depend upon the productions of cotton.
Rice is another productive crop of Pakistan. The rice of Pakistan is liked in the foreign countries. It earns a considerable foreign exchange for the country. This crop needs a huge amount of water for its harvest. It is grown in the provinces of Sindh and Punjab. It has many kinds. Normally, it needs a hard soil to grow. Our farmers grow this crop a Sot.
Tobacco is one of the major crops of Pakistan. Its leaves are called the golden leaves. This crop needs soft surface. It is cultivated throughout Pakistan. However, the NWFP is famous for this crop. The northern areas of NWFP like Mansehra, Abbottabad and Swabi districts are favourable places for its cultivation. The world's famous Tobacco called Virginia Tobacco is grown in Peshawar, Swabi and Mansehra. The Tobacco industry is earning a huge foreign exchange, It is exported to European countries as well.
farmers to upgrade the cash crops. Tube wells and canal system should be easily available to the farmers to water the plants well in time. The farmers should be guided and trained in the modern agricultural techniques. They should be provided all facilities in the villages, so that they may pay full attention to their fields and crops.
inflation
Outline
1. Introduction.
2. Inflation has gripped the entire world.
3.
High inflation has disturbed the life of poor people.
4.
Over population is one of the causes of inflation.
5.
Purchase of expensive armed weapons causes inflation.
6.The industrial system and poor agriculture should be
improved.
7.Storage of goods by the industrialists and businessmen
should be banned.
8.Conclusion.
The rise in the prices of the daily commodities is called inflation. Inflation means to gain a few items by big money. Inflation is one of the»biggest problems faced by the entire world. Even the well-developed nations are in the grip of inflation. However, Pakistan, which is an under developed
country is facing inflation problem very seriously. The prices of the daily use items are increasing
regularly. It is creating huge and hard problems to almost all the people.
Majority of our population is poor. They work in the fields, factories, industries or in the offices. All these people are living hand to mouth. They draw meagre salaries. They do not have extra resources to meet their needs. They are facing the hard situation of life. That is the reason that all members of the society are working hard to pull the cart of their life. Inflation has created adverse effects on the society. Ours is a joint family system. Each family, approximately consists of seven to ten members. To fulfill the desires and needs of all members of the family, the working hands are compelled to adopt any other means to earn livelihood. In this way, crimes, looting, killing and corruption are increasing day by day. The government employees are forced to accept bribes and misuse their powers. Injustice, cruelty and dishonour are prevailing in the society.
Our country lacks industries, mills and factories. We have to purchase many items from foreign countries. In some fields, we have established our own industries, but we are lack of raw materials, which we have to purchase from foreign countries. Pakistan is an agricultural country. Alas! This sector is not given proper attention. We have to purchase wheat, corn and sugar
from our neighbouring countries. It causes high inflation. The frequent elections and instability in the government policies are wasting a huge amount of national money. The projects are almost short termed, left incomplete and in this way the nation faces high inflation. To meet the deficit of the budget, the government prints new currency notes. When the money comes in abundance, the rich people waste it purchasing things for high prices. In this way the inflation rises. Sometimes the businessmen and the industrialists rise the prices of the things to earn a huge profit. In the same way, the government, sometimes imposes high taxes on some items, which causes for the high inflation and high prices. Our population is very huge. A large number of people needs abundance of things. This situation creates high inflation.
Pakistan is an under developed country. It cannot face high inflation. It is, therefore, necessary to develope the economy, multiply the industrial sector, and to pay full attention to the agriculture to improve the yield per acre. The government should spread a network of technical educational institutions to produce professionals and skilful graduates. Each and everybody should be given equal rights and the rich people should be stopped to cross the limits of wealth.

The Dignity Of Labour
By Labour we generally mean manual work that is work done with the hands as distinguished from mental work or work done with the head. In ancient times manual labor was looked down upon and the manual worker was treated as an inferior being. Most ancient states were based upon slave labor. Even the Greek citizens who devoted themselves to the higher slaves and yet it was ancient Greek that taught the world the lessons of political liberty and self government. In modern times slavery has been abolished by all civilized countries. Yet a hundred years ago slavery still existed as a recognized institution.
Manual labour is recognized today at least in theory as being worthy of free citizens and no stigma attaches to a man because he works with his hands rather than with his head. And yet the leisured classes still look down on the working classes. And many a young man of the middle class would rather wear a black coat and sit on an officer still at a paltry salary than soil his hands and earn double the money as an artisan.
This contempt of manual labour is absurd and wrong and the distinction between manual and mental work is misleading. All manual work even so called unskilled labour requires some thought and the skilled work of the engineer the carpenter and the builder and the potter is really as much mental as manual. It takes more intelligence to be an expert electrician or even a mason than to be an officer clerk copying letters all day.
But what we have still to learn is that honest work of all kinds is dignified and worthy of respect. In Pakistan even the humble sweeper who does unpleasant and absolutely necessary work ought to be respected instead of being regarded with contempt and thrust down into the lowest caste. The only things we should be ashamed of are idleness and trying to live by one's wits without labour. Work is worship and to work is to pray. We should take off our hats to honest toil and honour the honest workman.

The Importance of Commerce Education
(For B.Com By Sohail Anjum)

Outline
1. Introduction.
2. Material prosperity depends upon commerce education.
3.The modern business and trade are complex and
complicated.
4.Commerce education trains the students to understand the
modern business.
5.A commerce graduate keeps "his eyes on the market and
the customers.
6.
A commerce graduate administers the business well.
7.
it makes the individuals self-sufficient and independent.
8.
Commerce education strengthens the economy.
9. Conclusion.
The modern world is very fast and complicated. It is a world of commerce and business. Every country tries its level best to have frequent trade and commercial dealings with other countries to improve its economy. The prosperity and the growth of economy of a nation depends upon its business, trade and commerce and highly developed industries. In the past, the business and other commercial dealings were easy, but the high growth rate of population and development of all the nations have made the trade and business very complicated and hard. The modern business requires highly trained and skilful young men. This requirement has given due importance to commerce education.
The main objectives of the commerce education are to train and to educate our youth to manage the highly complicated modern business, and to get the desired results from the trade. Commerce education means to enable our youth to compete in the modern business and to pace with the modern world. The commerce education gives pragmatic approach of the modern economics and industry. The commerce education enables the youth to understand and judge the various trends of trade and business of the modern world.
A commerce graduate keeps his eyes on profit and loss, the rise and fall in the business and the demand of the modern time. He knows well how to deal with the customers. He can advertise the items and commodities of his company and the country well.
A well-organized company needs a well-educated manager. A commerce graduate manages his company well according to the needs of the hour. He judges well and makes a good forecast of the future. He attracts the foreign companies and customers easily. The commerce education trains the youth in the fields of costing, income tax practice and sales tax practice. The commerce education makes the individuals independent and self-sufficient. They earn their livelihood by themselves. Commerce education enables them well aware about the. challenges of the modern times. After completing the commerce education, it becomes easy for them to choose a right career, of their choice. They reach their destination easily and gain their goals.
The commerce education has become a pressing need of the modern times. The development of a nation is measured with its strong economy. If the economy of a nation is strong and well built, that nation is honoured and liked in the entire world. All the nations of the world desire to. have trade and business with, that nation. If the economy of a nation is weak and poor, that nation is left behind in the entire world. It means, that the progress of a nation depends upon economy and a well-set economy is possible only when it is managed by commerce graduates. Keeping in view the importance, of  commerce and commercial education, the government has established many commercial institutions. These institutions are training the boys and girls in commerce education.

The Role of Banks in Economic Development
Outline
1. Introduction and history of banking.
2.
The start of the money lending system.
3.
Meaning of the term "bank".
4.
Interest system in the banks.
5.
The banks conduct sale and purchase for the customers.
6.
Commercial banks give loan to the customers.
7.On-line banking and ATM system are the wonders of the banks.
8. Islamic view of interest-free banking system.
Bank is an institution which conducts transactions of money. The people deposit their money in the safe custody of banks. The transaction of money in the banks is conducted through account numbers. The origin of banking can be traced in the history. It is believed that the Babylonians used their temples as banks 2000 B.C. ago and the priests acted as bankers. With the passage of time the Greeks and the Romans organized private banks in such a way that the public had full confidence in them. They followed proper rules and regulations. As the time passed, trade and commerce started expanding and the money lenders organized themselves.
Originally, the money lenders used to lend their own money but then they started lending money of other people which had been entrusted to them. This was the start of depositing money into the banks and the banking system. The Goldsmith had built vaults and strong rooms to save their money and other possessions. The common public entrusted their money to the Goldsmith for the safe custody. The public seldom wanted to withdraw all their savingsat one time. In this way, the bankers and the Goldsmith used to lend that money to other people. They kept a percentage of the deposits to meet day to day withdrawals and lent out the rest on interest. Next, the bankers began to lend t h e i r own currency notes. Later on, these currency notes were replaced by cheques.
The word Bank, which is derived from the Latin word Banco, means a bench upon which the early bankers used to transact their business in the market place. The word Bank may mean the joint stock fund. The modern banking system is a huge organization. Usually six banking structures work in a country. These are the State Bank, Commercial Banks, Saving Banks, Co- Operative Banks, Exchange Banks and Specialized' Financial Institution.
The Banks play various functions. They accept deposits of the public. The people deposit their
money in banks for security purposes. This money is used by the government for various developmental projects. The government gives interest to the people for their deposited money. This is the oldest banking form and function. All Commercial Banks act as agents for payment. They allow their customers to have current accounts on which they can with draw money from the bank by cheque system. The State Bank, which is the sole authority, issues currency notes. The public uses these currency notes in various business and earns profit. Sometimes, these new currency notes cause inflation. The banks lend money to the customers. It is a profitable business for the bank. The banks receive due interest and mark up for the loan given to the customers. The people use the money of the banks and invest it in various types of business. They pay interest as well 3S tax for the money to the government.
The banks act as agents for the customers. They conduct
commercial transactions. For example, the banks purchase cars and other vehicles for the customers. The people return the money with full interest to the* bank in various instalments. Similarly, the banks allow credit cards to the customers. The customers purchase various items and the money is paid through the credit card, In this way, the banks earn money for the government through interest system. The banks issue bank drafts and traveller cheques. In this way the money of the people is saved. The banks also accept payments of insurance premiums, electricity, telephone and gas bills etc.
The commercial banks provide loans to farmers, industrialists, traders and businessmen. These people flourish their businesses with the money given by banks and as a result, they provide an increase in national output, employment and per capita income. The banks have provided on-line banking facility to the customers. There is ATM facility which has enabled us to withdraw money from the banks round the clock. The banks help the customers in doing export and import trade. The banks have facilitated the purchase and sale of foreign currencies.
Modern banking is based on interest. Interest is strictly forbidden in Islam. Those scholars, who are expert both in Islamic economic system and modern economic system, have given many practicable suggestions to launch interest-free banking. Islam is not against banking, but it is against the interest because interest is producing accumulation of wealth in few hands. For the sake of wide and real circulation of wealth, interest-free banking is essential. According to the Islamic concept of Economics, we have the-best interest-free Banking system, and the authorities must implement it.

Unemployment

By Sohail Anjum
Outline
1. Introduction.
2.Unemployment is destroying the youth.
3.Unemployment is a problem faced even by the

professionals.
4.Over population has increased unemployment.
5.Lack of industries, factories and mills.
.Long tenure of employment and entry of retired people into
other jobs.
7.Poor agricultural system.
8.Lack of technical and commercial education.
9. Conclusion.
When a person is not engaged in any kind of work to earn his livelihood, such a state of life is called unemployment. Unemployment is one of the serious and grave problems of the entire world. Unemployment has not only disturbed and confused the third world countries, but it has also gripped the West where the people are highly skilled, educated and progressive. A huge population of the world is unemployed. However, Pakistan is facing the critical state of unemployment.
Pakistan is an under developed country. It has been trying its level best to overcome this problem of unemployment, but unfortunately the problem of unemployment is increasing day by day. The youth are the future-builders of our nation and the fate of the country will come in their hands in the days to come. Alas! The youth, due to joblessness Ere becoming criminals and rascals. They are being wasted. These unemployed youths are looting, robbing and stealing the things to meet their needs. Most of the unemployed youths have associated with the gangsters, extremists and terrorists, who exploit them for their own benefits. Apart from these factors, there are countless educated people, holding Master degrees and most of them are
professionals like doctors, engineers and computer specialists, but they are jobless and
unemployed.
There are many factors responsible for the unemployment. The first and foremost is over population. Our population is very huge and gigantic, while the resources are meager. The population is increasing rapidly, but the resources are not multiplying at the same speed. On the other hand, the government cannot provide so many jobs to such a huge population. Education is the birth right of all of us. All parents desire to educate their children. As a result, the universities are producing innumerable graduates every year. On the other hand, the government cannot give so many jobs to all the people.
Unfortunately, the money of the national treasure is accumulated in the hands of a few people. They deposit this money either in banks or homes or waste it on unnecessary pomp ad show. They are not ready to invest this huge money in productive businesses like establishing factories, industries and mills. Similarly most of our politicians have stored the national money in the foreign banks and so the government does not have sources to employ the huge number of youths. The government cannot establish new projects to wash off the spot of unemployment.
The tenure for job and service is long. The people who are serving in government offices are not ready to retire from the job. They are old and weak and cannot serve well. They get extension of tenure for their jobs. If by any means, these old employees retire from one office, they enter other jobs. In this way the chances for the young people are snatched and they are left unemployed. Similarly, there is a quota system in all departments. The son, whether deserves or not, is supposed to succeed his father. In this way the right of intelligent people is snatched and they are deprived of justice and employment.
Pakistan is an agricultural country. About 70 % of its
population depends upon agriculture, but unfortunately, this sector is left untouched. If agriculture is given proper attention, the problem of unemployment would be solved considerably. The education system of our country is not pacing with the modern world. It is not challenging and productive. It is based on theoretical approach. The practical approach is absent in it. The youth have Master degrees in their hands, but they cannot utilize their knowledge practically. There should be professional, technical, industrial 'and commercial education. The youth should be trained in proper skills and arts so that they may depend on themselves in the future.
Unemployment has disturbed the entire world. However, it can be controlled. The government and the private sector should establish industries, factories and mills. The educated youth should be given interest-free loans to establish businesses of their own. The universities should produce professionals. People, retired from any job should be banned to work on any other post. The merit system -should be implemented and corruption should be avoided by all means.


Biology(9th) English medium notes

Balanced Diet



A diet containing essential dietary components in the correct proportion, which helps to maintain health and fulfills the body requirements of organisms, is known as balanced diet. The degree to which any particular meal is adequate in providing energy from food depends on the nature of the job of a person.
A common man’s diet is said to be suitable if it provides 50% calories from carbohydrates, 40% from fats, and 10% from proteins. Carbohydrates are abundantly used foods because they are readily available and cheaper as compared to fats and proteins. We can live without carbohydrates it our diet has all the components of food and is capable to provide total calories required by the body. Fats are taken in our diet to obtain energy. Our daily food requirement varies with sex, age and occupation e.g. children need more food because they are growing. Youth need more food than elderly people due to physical exertion. Men need more food than women. Pregnant women, lactating mother’s convalescents need more food as compared to others.

Carbohydrates



Carbohydrates
They are organic compounds. They are found in all organisms. They are commonly known as sugars. They contain three elements carbon, hydrogen and oxygen in which hydrogen and oxygen exists in 2:1 ratio that is why they are called hydrates of carbon or carbohydrates. One gram of carbohydrates provides 3800 calories of energy.
Forms of Carbohydrates
Carbohydrates occur in three forms.
1. Monosaccharide
2. Disaccharides
3. Polysaccharides
1. Monosaccharides
Monosaccharides are simple sugars. Their common example is glucose. Glucose is main source of energy in our body cells.
2. Disaccharides
Disaccharides are formed by condensation of two monosaccharide units e.g. sucrose is formed by the combination of glucose and fructose. Maltose is another disaccharide.
3. Polysaccharides
Why many monosaccharides link together, they form polysaccharides. A single polyusaccharide may have many hundred units of monosaccharides. The common examples of polysaccharides are glycogen and starch. Glycogen occurs in animals and starch in plants. Another polysaccharide is cellulose, present in the cell walls of plants. It is the most abundantly occurring carbohydrate.
Sources of Carbohydrates
Carbohydrates containing starch are obtained from cereals and their products like wheat, rice, maize, oats and barley. They are also obtained from carrots, radish, turnip, beet, beet root and potatoes. Simple sugar called glucose is obtained from grapes. The sugar derived from fruit is called fructose. Then from beet and sugar cane is called sucrose and that from milk is lactose.
Importance of Carbohydrates in Human Body
One gram carbohydrate food provides 3800 calories to our body. The Carbohydrates are the cheapest and easy source of energy. Surplus carbohydrates are stored as glycogen in the liver and muscles, or converted to fats and stored in the fat cells beneath the skin and causes obesity.
Children, laborers and people, involved in physical labor need more carbohydrates in their daily diet whereas other should avoid them because their excess in the body can cause blood pressure, diabetes, obesity and heart diseases, therefore, carbohydrate products should be taken with care.

Introduction to Biology



CHAPTER – 1
Science
Our universe operates under certain principles. For understanding of these principles, the experiments are done and observations are made; on the basis of which logical conclusions are drawn. Such a study is called “Science”. In brief science is the knowledge based on experiments and observations.
Biology
The Scientific study of living organisms is called Biology. The word biology is derived from two Greek words “bios” meaning life and “logos” meaning thought, discourse, reasoning or study. It means that all aspects of life and every type of living organism are discussed in biology.
Branches of Biology
Biology is divided into following branches:
Morphology
The study of form and structure of living organisms is called morphology. It can be further divided into following two parts:
1. The study of external parts of living organism is called external morphology.
2. The study of internal parts of living organism is called internal morphology or anatomy.
Histology
The study of cells and tissues with the aid of the microscope is called Histology.
Cell Biology
The study of structure and functions of cells and their organelles is called Cell Biology.
Physiology
The study of different functions performed by different parts of living organism is called Physiology.
Ecology
The study of organisms in relation to each other and their environment is called Ecology or Environmental Biology.
Taxanomy
Living organisms are classified into groups and subgroups on the basis of similarities and differences. This is called classification Taxanomy is that branch of biology in which organisms are classified and given scientific names.
Embryology
The study of development of an organism from fertilized egg (zygote) is called embryology. The stage between zygote and newly hatched or born baby is called embryo.
Genetics
The study of methods and principles of biological inheritance of characters from parents to their offspring is called genetics.
Paleontology
The body parts of ancient organisms or their impressions preserved in rocks are called fossils. The study of fossils is called paleontology. It also includes the study of origin and evolution of organisms.
It can be divided into two parts:
1. The study of fossils of plants is called Palaeobotany.
2. The study of fossils of animals is called Palaeozoology.
Biochemistry
The study of metabolic reactions taking place in living organisms is called biochemistry. These reactions may be constructive or destructive. The assimilation of food is a constructive process and respiration is a destructive process.
Biotechnology
It is the branch of biology which deals with the practical application of organisms and their components for the welfare of human beings e.g. disinfections and preservations of food, preservations of insulin and biogas from bacteria etc.
Relationship of Biology with other Sciences
In ancient times, there was no distinction of biology and other sciences. Different fields of sciences like biology, chemistry, physics and mathematics are met together in the writings of ancient scientists. In ancient times, these subjects were studied under one head “science”, but with the passage of time, the science developed very much and the huge scientific knowledge was then divided into different branches.
However even today the interrelationship of these branches cannot be denied.
Biophysics
The study of various biological phenomena according to principles of physics is called biophysics. For example, movement of muscles and bones based on principles of physics.
Biochemistry
The study of different biochemical like carbohydrates, proteins and nucleic acids etc found in cells of living organisms and hundreds of the underlying chemical reactions in cells of organisms is called biochemistry.
Biometry
The data obtained from observations and experiments on living organism is analyzed by various statistical methods. This is called Biometry.
Biogeography
The study of plants and animals and the basis of geographical distribution is called Biogeography.
Bio-Economics
The study of living organisms from economic point of view is called Bio-Economics. It includes the study of cost effectiveness and viability of biological projects from commercial point of view.
Biological Method of Study or Method Used to Solve the Problem of Malaria
Observation
Most of the biological investigations start with an observation. After selecting, specific biological problem, observations are made to collect relevant information. For example; take the case of Malaria. Malaria is the greatest killer disease of man for centuries. Malaria was one among many other diseases for which a cure was needed.
In 1878, A French physician, Laveran, studied the blood sample of Malaria patient under microscope and observed tiny creatures in it. These creatures were later called Plasmodium.
Hypothesis
To solve a scientific problem, one or more possible propositions are made on the basis of the observations. Such a proposition is called a Hypothesis. The hypothesis is tested by scientific method.
Merits
A good hypothesis has the following merits:
1. It is close to the observed fact.
2. One or more deductions can be made from this.
3. These deductions should be confirmed doing experiments.
4. Results whether positive or negative should be reproducible.
To know the cause of malaria, following hypothesis was made:
Plasmodium is the cause of Malaria.”
Note: One or more than one possible deductions can be made from the hypothesis.
Deduction
The logical conclusion drawn from a hypothesis is called deduction. Testing one deduction and finding it correct does not necessarily mean the hypothesis is correct and scientific problem is solved. Actually, if more deductions are found to be correct; the hypothesis will be close to solution of the problem.
Experiments
Following groups are designed to perform experiments:
Experimental Group
It is the group of those people who are affected in some way and we do not know the real cause e.g. a group of malarial patients.
Control Group
It is the group of unaffected people e.g. persons group of healthy persons.
By keeping both of these groups under similar conditions, the difference between them is determined. To know the real cause of malaria, the experts examined the blood of about 100 malarial patients (experimental group). On the other hand, the experts examined the blood of about 100 healthy persons (control group).
Results
During the experiments mentioned above; the plasmodium was found in blood of most of malarial patients. The plasmodim was absent in the blood of healthy persons. These results verified the deductions and thus the hypothesis i.e. the plasmodium is the cause of Malaria, was proved to a considerable extent.
Theory
If hypothesis is proved to be correct from repeated experiments and uniform results, then this hypothesis becomes a theory.
Scientific Principle
When a theory is again and again proved to be correct, then it is called a scientific principle.
Contributions of Muslims Scientists in the Field of Biology
Many Muslim scientists contributed a lot in the field of biology but the following names are more respectable:
Jabar-Bin-Hayan
Period: 722-817 A.D
Books: Alnabatat and Alhaywan
Contribution: He studied the life of plants and animals and wrote many books about them.
Abdul-Malik-Asmal
Period:741 A.D
Books: Al-Kheil, Al-Ibil, As-Sha, Al-Wahoosh, Khalaqul Insan.
Contributions: He described the body structure and functions of horses, camels, sheep, wild animals and human beings in detail.
Abu-Usman-Umer Al-Jahiz
Books: Al-Haywan
Contribution: He explained the characteristics of about 350 species of animals. He wrote on the life of aunts especially.
Al-Farabi and Abu-ul-Qusim Al-Zahravi
Period: 870-950 A.D
Books: Al-Nabatat, Al-Haywanat
Contribution: The above mentioned books were written by Al-Farabi. On the other hand, Al-Zahravi was famous for removal of stone from urinary bladder.
Ibn-ul-Haitham
Period: 965-1039 A.D
Books: Al-Manazir, Mizan-ul-Hikma
Contributions: Both of these books were famous and well known at that time. These books were translated into Latin, Hebrew, Greek and other western languages. He explained the structure and functions of eyes and suggested the cornea as a site of vision.
Bu-Ali Sina
Period: 980 A.D
Book: Al-Qanoon Fil Tib Al-Shifa
Contribution: He wrote about plants, animals and non-living things in one book. He was expert in mathematics, astronomy, physics and paleontology.
Ibn-ul-Nafees
Contribution: he described the blood circulation in the human body.
Ali Ibne Isa
Contribution: He worked on structure, functions of eye and about 130 diseases of eyes and their treatment.
Non-Muslim Scientists
There is long list of non-Muslim scientists who contributed a lot in the field of biology. But, the following scientists are very well known.
Aristotle
Period: 382-322 A.D
Book: Historia Animalia
Contribution: He classified the animals and called as founder of biological classifications. He classified animals into two units, genus and species which was called Oedos.
Theophrastus
Contribution: He accepted sex in plants and desired about 500 plants. He is known as father of botany.
Visalius
Period: 1514-1564 A.D
Contribution: He wrote a book on human body structure in which he described bones, muscles and orans in detail.
William Harvey
Period: 1578-1657 A.D
Contribution: He described the blood circulation in human body.
Carolous Linnaeus
Period: 1507-1778 A.D
Contribution: He described the blood circulation in human body.
Carolous Linnaeus
Period: 1578-1657 A.D.
Contribution: He gave a system of binomial nomenclature. He is known as father of taxonomy.
Schlelden and Schwann
Contribution: Scheiden (1838) studied the cells of plants and Schwann (1839) studied the cells of animals. They proposed the cell theory.
Louis Pasteur
Period: 1822-1895 A.D
Contribution: He proved that microbes are found in the air which spoils the food items.
Edward Jennar
Period: 1796 A.D
Contribution: He invented method of vaccination against Small Pox.
Robert Koch
Period: 1845-1910 A.D.
Contribution: He discovered bacteria as causes of main diseases like Tuberculosis.
Joseph Lister
Period: 1860 A.D
Contribution: He made antiseptic medicines like Iodine and Carbolic acid.
Charles Darwin
Period: 1859 A.D
Book: Origin of Species by Natural Selection
Contribution: He explained concept of evolution in his book.
Gregor Mendel
Period: 1822-1884 A.D
Contribution: He conducted experiments on Pea plants. He formulated the laws of inheritance. He is known as father of modern genetics.
William Lawrence and William Henry
Period: 1882 A.D
Contribution: They discovered X-ray crystallography to understand the structure of deoxyribonucleic acid (DN). They were father and son.
Francis Crick and James Watson
Period: 1953 A.D
Contribution: He discovered the double helix model of DNA and proved that DNA is found in cells of all living organisms.
Significance of Biology or Impact of Biological Study on Human Life
The present high level achievements of man are largely due to the advanced biological research. The study of biology is very important in routine matters of our life as described below.
Food Production
Food has basic importance in our life. Due to researches in biology, there are great achievements in agriculture. For the production of cereal crops; the best varieties of seeds were selected. The yield of wheat corn, rice, sugarcane and cotton has been enormously increased bringing healthy effect and prosperity. Today, the man has overcome the problems of balanced diet, food storage and famine.
Control on Diseases
Health is basic necessity of life. Due to researches in biology, the discovery of new antibiotics for many infectious diseases like plague, cholera, pneumonia, tuberculosis and typhoid has made the life easy. The infant mortality has reduced due to discovery of vaccines for fatal diseases like small pox, polio, tetanus and diphtheria. Today AIDS is problem for world. The germs of this disease destroy the natural resistance and immunities against diseases.
A medicine called AZT has been found effective for AIDS. Similarly many drugs have been discovered for treatment of cancer. Many organisms are used to produce drugs e.g. bacteria and fungi. We have controlled many infectious diseases by using drugs like penicillin and streptomycin. We have eliminated many harmful pests like locusts, flour beetle, termites, fungi, shipworm etc by using pesticides.
Genetic Engineering
Genetic engineering is a technology in which useful genes are inserted into the bacteria etc, to get required beneficial results. Using this technique, manipulation of heredity material is done and new species are produced e.g. Doli sheep. Today human insulin gene is inserted into DNA of bacteria to synthesize insulin on commercial bases. This insulin is found to be very useful in treatment of diabetic patients.
Pollution Control
Due to increasing urbanization, industrialization and automobiles, the man and other organisms have to face a great danger, “the environmental pollution”. due to pollution of air, land and water there is danger to humans aid wild life. Many plants and animals have been maintaining the balance in our environment for millions of years and now at the verge of extinction due to pollution. By biological research, scientists are busy to find out causes and ways to control the pollution. The biology thus, has greatly improved the quality of our life.
Space Biology
On Mars, some evidence of life has been found which is still under further investigation. During exploration of space the scientists have been conducted experiments on different plants, animals, fungi and bacteria in space and they have obtained very useful information.
Islamic concepts About Origin of Life
We have got much information about origin of life by studying the Holy Quran.
Ultimate Creator
The first thing learnt from teachings of Quran is that Allah is the ultimate creator of everything whether plants, animals or non-living things.
“Allah is the creator of all things and He is Guardian of overall things.” – (Surah Zamar-Ayat 62)
Not only plants, animals and non-living things and human beings but also the heavens and whole universe have been created by Allah.
Origin of Life from Water
The second important fact we get from Quran is that Allah has created all living thins from water.
“We made every thing from water.” – (Sura Ambia – Ayat 30)
Viruses, bacteria, algae, fungi, different plants, all animals and humans are all living things. According to Quranic verses, all diverse living things were created from water.
Common Origin
From above mentioned sayings of God there is an indication for common origin of living things or we can at least say that all living things have come out from water.
Creation of Man
Allah also sys in Quran:
“He created man from clay like the potter’s.” – (Sura Rehman – Ayat 14)
It seems that there were following two sages for creation of man:
1. Creation from water.
2. The first created thing, on admixing with clay was transformed into more advanced beings.
The same can also be applied to other animals because there are certain similarities between structure of man and other animals. In vertebrate animals, the structures of digestive system, respiratory system, blood circulatory system, excretory system and reproductive system etc are similar to great extent, although differ in other details. Reproduction in living things.
Once the life had been created, Allah implemented the process of reproduction for the continuity of races of animals and other organisms. The various stages of reproduction have been described in sura in following way:
“Then fashioned we drop a clot, then fashioned we clot a little lump, then fashioned we the lump bones, then clothed the bones with flesh.” – (Sura Almominoon Ayat 14)
Classification and Evolution
“Allah has created every animal from water some of them creep up on their bellies, other walk on two legs, and others on four, Allah creates what the pleases. He has power overall thins.” – (Sura Nur Ayat 45)
“Hath there come upon man (every) any period of time in which he was a thing unrememberd?” – (Sura Dahar Ayat 1)
The close study of above sayings of God reveals that all animals had a common origin but they gradually underwent changes after words and became different from each other i.e. some animals became crawler, some bipedal and some other tetra pods. The present animals are advanced forms of the past animals who achieved this form after passing through many changes.
Concept of Abiogenesis and Biogenesis for Origin of Life on Planet Earth
Scientific Views About Origin of Life
How did life originate on this earth? This may never be know for certain to science because neither it is possible today to make observation of primitive events when the life actually originated nor there is any fossil record of first formed soft bodied organisms. However, in 1950 some scientists created the primitive earth condition (approximately 4 billion years ago) in the laboratory and performed experiments. On the basis of results obtained from these experiments, scientists formulated some ideas. These ideas seem to be close to reality.
Abiogenesis and Biogenesis
In ancient times, there were two views about the origin of life:
1. According to one view, offspring are produced from their parents by process of reproduction, this is called concept of Biogenesis.
2. According to other view, living things are produced spontaneously from non-living things. This is called concept of Abiogenesis.
Because at that time, there was neither so much advancement in science nor scientific tools like microscope and other instruments were invented, which could help in detailed observations about reality. According to some people, insects are produced from dewdrops, rats from debris, frogs from mud, and maggots from putrefied meat. Some scientists like Copernieus, Bacon, Galileo, Harvey, and Descartes also believed this concept.
From 16th to 18th century many scientists performed experiments to test this concept. They found some animals to be developed from non living matter. Therefore this concept seemed to be correct.
Later on, scientists performed experiments with more care. First of all an Italian scientists, Francesco Redi, (1668) proved that this concept was wrong.
Redi’s Experiment
Redi took four bottles. He put a dead snake in one bottle, a few dead fish in second bottle, dead eel in third bottle and a piece of meat in the fourth bottle. All these bottles were left open. The flies could enter these bottles. Then he took four more such bottles. He put some dead animals in all four bottles but covered the mouth of bottles.
(Figure from book)
After few days, maggots were produced in four open bottles. Maggots were not produced in closed bottles. Moreover, no flies were seen. Therefore, it was proved that maggots were not produced spontaneously by produced due to flied which were visiting the open bottles. The maggots were the larvae produced from the eggs of the visiting flies.
Needham’s Experiment
In 1948, an English scientist Needham boiled the meat in the water and prepared gravy. He poured this gravy into the bottles and closes their mouth with corks. After some days, many microscopic organisms were produced. In this way, the believers of abiogenesis were once again gain courage.
(Figure from book)
Experiment of Spallanzani
In 1767, an Italian scientists Spallanzani criticized the experiment of Needham. He said that air entered the bottles through the pores of cork and hence living organisms were produced.
(Figure from Book)
Spallanzani put the boiled meat and vegetables in clean bottles and then sealed the mouth of bottles by heat. He placed these sealed bottles in boiled water to kill the possible germs. After some days, he found no organisms. He left the same boiled meat and vegetables in open bottles at the same time. Some living organisms were produced in these bottles. This supportd the concept of Biogenesis. But the believers of Abiogenesis said that air removed by Spallanzani was necessary for living things so no organisms were produced in sealed bottles. When oxygen was discovered the supporters of Abiogenesis said that Spallanzani had removed oxygen where by no life could be produced in his experiment.
Experiment of Louis Pasteur
The argument on Biogenesis and Abiogenesis continued up to the middle of, 19th century. A well-known French scientist, Louis Pasteur proved, after simple but very careful experiments, that abiogenesis could not occur in present environment of earth. He proved that living organisms could only be produced from their parents.
In 1864, Pasteur performed his experiment in front of the commission formed to solve the issue. He took flasks, which had long curved S-shaped necks. He placed fermentable infusion (Yeast + sugar + water) in flasks and left their mouth open.
(Figure from Book)
He boiled the yeast infusion in the flasks. After this, he allowed to cool them and kept them as such. He observed that no life ws produced even after the lapse of several days, because microscopic organisms entering along with air got stuck up in on the curved walls of the glass necks. Then he broke up the curved necks, so that air containing microscopic organisms could reach the infusion. Now he noted that microscopic organisms were produced within 48 hours. This proved that if care was taken and no microscopic organisms and reproductive structures (eggs or spores) approach the infusion, no life could be produced because thee is no spontaneous generation of life from non life. After Pasteur, no further experiments were performed on origin of life for the next 60 years. In 1920, a Russian biochemist Alexander Oparin and a British biologist J.B.S 1-Ialdane suggested that life on earth was originated after a long and gradual molecular evolution and there was no spontaneous and miraculous origin of life on earth.
Chemical and Organic Evolution of Life on Earth
The modern view of the origin of life stresses on the idea of chemical evolution. According to Oparin and Haldane, the origin of first life had been initiated from the time of the existence of the solar system (the sun with its nine planets). The earth, like the sun was made up of light and heavy elements. Heavy elements like iron, nickel etc were present in the nucleus of the earth, while the light elements and compounds like hydrogen, methane, nitrogen, carbon, ammonia, nitrogen oxide, etc in the form of vapours existed on the surface of the earth. These light elements and compounds were responsible for the first life on earth.
The earth had high temperature and radiation and had frequent and abundant discharges. In these conditions, the first life originated. Oparin and Haldane suggested that simple inorganic molecules slowly and gradually combined to produce complex organic molecules from which the simplest form of life (bacteria) came into existence. This process took a long time.
Haldane proposed that primitive earth’s atmosphere had only carbon dioxide, ammonia and water vapours. If a mixture of these gases is exposed to ultraviolet radiation, it leads to the formation of organic compounds like sugar and amino acids. As free oxygen was not available to check the radiation from reaching the earth so substances like sugar and amino acids went on accumulating under such conditions.
About 15 billion years ago, there was a huge explosion (Big Bag). The universe started expanding and the temperature dropped drastically. In time, about 4.6 billion years ago our earth and other planets appeared as part of the solar system. The primitive atmosphere of the earth was rich in hydrogen.
With the passage of time, the atmospheric temperature gradually dropped. This allowed condensation and heavy rains, which caused formation of oceans. Thunder and lightning sparks together with ultraviolet radiation caused reactions of the atmospheric gases resulting in the formation of simple organic molecules. These molecules came down with the rains and accumulated in the seas, oceans, lakes, rivers and the soil over a very long period of time. These molecules interacted and produced amino acids and proteins which are the body building substances.
The fossil evidence indicates that the earliest forms of organisms lived about 3.8 billion years ago. From this it is speculated that the origin of life started about 4 billion years ago.
The earliest organisms were heterotrophs. The depletion of the pre-existed food from the environment led to the evolution of organisms capable of making their own food. They became autotrophs, and added free oxygen into the atmosphere.
For at least the first 2 billion years of life on earth, all organisms were bacteria. About 1.5 billions years ago, the first eukaryotes appeared.
The idea of organic evolution was supported by scientists like Lamarck and Charles Darwin.
Differentiate between Biogenesis and Abiogenesis
Biogenesis
A theory which describes the origin of life on the earth from pre-existing living organisms is called Biogenesis.
It was based on practical experiments and material evidence.
It was supported by the experiments performed by Redi and Pasteur.
It was based on practical basis.
It describes the process of reproduction as an essential ability of living organisms.
Abiogenesis
A theory which describes the origin of life on the earth from non living things is called Abiogenesis.
It was based on observations and national thoughts.
It was supported by the fungus of bread: and production of frogs in the mud.
It was based on theoretical basis.
It gives no scientific reasoning about the production of life.
Differentiate between Hypothesis and Theory
Hypothesis
The process of making some possible answers for the related biological problem is called Hypothesis.
It is the step of biological methods which gives the way to carry on the research.
Hypothesis is an uncertain intelligent statement.
Hypothesis is formed from observations and collected facts.
Theory
The final explanation which is given on the basis of hypothesis and deduction if they are found correct is called theory.
It is the step of biological method which gives actual reason to biological method.
Theory is certain intelligent statement.
Theory is formed by experimentation, physical evidence to explain the laws of nature.

Classification of Living Organisms



CHAPTER – 3
Classification
The arrangement of organisms into groups and subgroups on the basis of similar characters is called classification.
Basis of Classification
The classification of organisms is based on such features or characters, which are similar in one kind of organisms and different in different kind of organisms. These characters may be about internal morphology, (anatomy), external morphology, physiology, cell structure, especially the number of chromosomes and chemical composition (especially of proteins) and embryology of the organisms. These characters help in study of intra specific (within the same species) and intra specific (between different) species differences.
The presence of similar characters in different organisms indicates their common ancestory. This similarity because of common ancestral origin is called Homology e.g. arm of a monkey, flipper of a whale and wing of a bat show homology. They are dissimilar apparently but their internal structure (arrangement of bones and muscles) is same. These organs are called homologous organs. Due to this homology, we can, say that monkey, whale and bad had common ancestors and are placed in same large group “vertebrate”. This homology is proved to be very helpful in classification.
Aims/Objectives of Classification
These are given below:
1. To determine similarities and differences between different organisms.
2. To arrange organisms on the basis of similarities and differences.
3. To identify the organisms on the basis of their structure and other prominent characters and study them systematically and logically.
4. To find out inter-relationships of organisms.
First of all, Aristotle classified the organisms on the basis of their resemblances. After this, Theophrastus classified the plants. Then, after a long time, Carolous Linnaeus (1707-1778), suggested a new system of classification. In this way, he started modem taxonomy.
Units of Classification
The basic unit of classification is specie (Plural specie). A species is a group of organisms that can breed with one another in nature and produce fertile offspring. All members of a species have same number of chromosomes and also have many other features in common. All the mustard plants belong to one species. All the human beings belong to another species. The members of one species differ from members of other species and do not breed naturally with each other. Such different species, which are closely related, they are grouped in large group called genus (plural; genera) e.g. Brassica is a genus. It includes several species like mustard, cabbage and turnip. Similarly, Felis is a genus. It includes several species like lion, tiger and cat. Similarly, many closely related genera are placed in a bigger group called Family, families are grouped into an order, orders are grouped into a class and classes are grouped into a phylum (plural, phyla) or division (plural; division) in case of plants. The phyla or divisions are grouped into kingdom. All these units are divided into subunits e.g. sub genus, sub phylum and sub kingdom etc. The smallest the group or unit, the organisms found in this group, would be more similar, they have more number of of similar character.
Difference between Homologous and Analogous Organisms
The fruit of all plants, whether sweet, or sour, small and dry or large and fleshy, all are the homologous structures because they develop from ovary of flower. Their origin is common. On the other hand, wings of an insect, and a bird, despite having same function, are not homologous because their origin is different. Similarly green leaf of moss plant and that of any vascular plant are not homologous. These organs are similar in function but different in basic structure and origins are called analogous organs.
Biological Classification of Mustard Plant
Common Name —————– Mustard
Phylum or Division ———- Anthophyta
Class ———————– Dictyledonae
Order ———————– Capparales
Family ———————- Brassicaceae
Genus ———————– Brassica
Species ——————— Brassica Campestris
Classification of Human Beings
Common Name —————- Human
Kingdom
——————– Animalia
Phylum ——————— Chordata
Class ———————- Mammalia
Order ———————- Primates
Family ——————— Hominidae
Genus ———————- Homo
Species ——————– Homo sapiens
Scientific Name ———— Homo sapiens
Kingdoms of Organisms
The classification is not static, nor has only one system of classification been followed rather it is dynamic. Whenever any new knowledge is available about organisms, it is used in classification. Therefore, many systems of classification have been used. Living organisms are classified into two to five kingdoms.
Two Kingdom Systems
All organisms were classified into two kingdoms before present time.
1. Plant Kingdom (Plantae) – It includes all the small and large plants.
2. Animal Kingdom (Animals) – It includes all the animals.
Important Characters of Plants and Animals
Presence of cell wall and ability to prepare their own food were considered the most important characters of plants.
Lack of cell wall and inability to prepare food and characteristic mode of nutrition and especially the ability to locomote were considered the most important characters of animals.
Plant kingdom and animal kingdom were divided into large groups.
Binomial Nomenclature
The method of giving scientific names to organisms is called nomenclature. Same animal or same plants may be known by different names. It must have one scientific name so that there may be no confusion. To give such names to living organisms, the method was formulated by carolous Linnaeous (1753). This method is called Binomial Nomenclature. Because tis system is simple and comprehensive, so it is accepted and used in whole world.
Rules of Binomial Nomenclature
1. According to this method, every species of living organisms is given a Latinized scientific name consisting of two parts.
2. The first part is the name of genus and is called generic name. It starts with a capital letter.
3. The second part is the name of species and is called specific name. It starts with a small letter.
4. Both parts of scientific name of a species are either underlined separately or italicized.
The scientific name of mustard plant is Brassica campestris. The scientific name of rose plant is Rose indica. Similarly the scientific name of frog is Rana tigrina and that of human is Homo sapiens.
Significance of Binomial Nomenclature
Before establishment of binomial nomenclature, the names of organisms consisted of many words. These words were based on the characters of these plants or animals. In different countries, even in different parts of same country; local names were used for plants and animals. The same organism may be given different names e.g. turnip, shaljam, gongloo, thipar, and gogroon are all names of same plant. In England, there are at least fifty names for pansy. Similarly a single common name may be used for different kind of organisms e.g. the word “raspberry” is used for about 100 kinds of plants. This confusion can be avoided by giving each organism a scientific name according to binomial nomenclature proposed by Carolous Linnaeus in 1753. It is adopted by all taxonomists.
Biological Classification of Man
Common Name —————– Man
Kingdom
——————— Animalia
Phylum ———————- Chordata
Class ———————– Mammalia
Order ———————– Primates
Family ———————- Hominidae
Genus ———————– Homo
Species ——————— Homo sapiens
Biological Classification of Frog
Common Name —————– Frog
Kingdom
——————— Animalia
Phylum ———————- Chordata
Class ———————– Amphibia
Order ———————– Salientia (Anura)
Family ———————- Ranidae
Species ——————— Rana tigrina

Virus, Bacteria and Cyano Bacteria



CHAPTER – 4
Micro-Organisms
A large number of living things are present in this world. Some of them are large and some are small. Majority of the organisms are so small that they re not seen with naked eyes. For their observation, we need a light microscope or even an electron microscope. These microscopic organisms are called micro-organisms.
Micro-organisms As a Heterogeneous Group
Micro-organisms are a heterogeneous group. It includes different kinds of organism viruses, bacteria, cyanobacteria, protozoa, certain algae and some fungi. On the basis of structure they range from sub-cellular to cellular for example, viruses are sub-cellular and all other micro-organisms are cellular. Bacteria, and cyanobacteria are prokaryotes (without nucleus) where as algae, fungi and protozoa are eukaryotes (with nucleus). On the basis of mode of nutrition algae are autotrophic while fungi and protozoa are heterotrohic. Therefore, micro-organisms differ in their structure and mode of characteristics of viruses, they are studied in a separate group where as bacteria and cyanobacteria, being prokaryotes, are included in kingdom Monera.
Viruses
1. Virus is a Latin word which means “Poison”. Viruses are so small that they can only be seen with electron microscope.
2. Viruses have charcteristics of both living and non-living things.
3. Structurally they are not like, cell and are only made up of proteins and nucleic acids.
4. When they enter the body of any living organisms, they reproduce there like living organism.
5. They look like non-living crystals when they are out of the body of a living organism.
6. That is why they are placed between living and non-living things.
7. All viruses are parasites and cause different diseases in their hosts.
8. Viruses were discovered by Iwanowsky in 1892 from infected tobacco leaves. In 1935 W.M. Stanley isolated viruses in crystalline form from infected leaves of tobacco and observed them under electron microscope.
Size of Virus
Viruses are of different sizes. Their size varies from 0.01um to 0.03um(um is micrometer = 1/10,00,000 meter)
Shape of Virus
Viruses are of different shapes some are rounded, few are rod shaped, few polyhedral while some viruses look like tadpoles.
Structure of Virus
Viruses have same biochemical nature. In spite of their different shapes, they are made up of only two parts, an outer “coat”, and an inner “core”. The core is made up of DNA or RNA (never both) and the coat is made of protein. The outer protein coat determines the shape of viruses. e.g. in bacteriophage (virus that lives in bacteria) protein coat consists of two parts, head and tail. DNA is present in the head region but the tail has only protein. Most of the animal viruses contain DNA whereas plant viruses have RNA core bacteriophage is also called phage virus.
Viral Diseases in Plants
Ring spot in different plants, yellow in sugar beet and mosaic disease in tobacco, potato, tomato, bean and cabbage are the various diseases of plants, caused by viruses.
Viral Diseases in Animals
Mouth and foot disease in cattle and cowpox in horses, buffalo and cows are caused by viruses.
Viral Diseases in Humans
In human beings, viruses produce common cold, influenza, small pox, yellow fever, polio, infectious hepatitis, cancer and AIDS.
Ways of Viral Transmission
1. Through droplets produced during coughing and sneezing.
2. Through contact.
3. By air, contaminated water and food.
4. Through insects.
5. By reuse of already used syringes.
6. By un-sterilized surgery equipments.
Bacteria
Bacteria are found every where in air, water, living and dead bodies of organisms and even in glaciers and hot springs. These are unicellular micro-organisms.
Discovery of Bacteria
Leeuwenhoek discovered bacteria in 1697 for the first time. Later, Louis Pasteur and Robert Koch worked on them. They discovered that bacteria produce many diseases in men and animals.
Size of Bacteria
Bacteria (singular : bacterium) range from 1um to 10um in length and from 0.2um to 1um in width and can be observed under light microscope.
Types of Bacteria
On the basis of shape and form, bacteria are of four types. These are as follows:
1. Rounded – Cocci (singular; coccus)
2. Rod-like – Bacilli (singular; bacillus)
3. Spiral shaped – Spirilla (singular; spirillum)
4. Comma like – Vibrios (singular; vibrio)
Bacteria occur both singly and in colonies. Cocci bacteria are found in groups of two or four, or in irregular groups and even in the form of long beads. Baccilli are found singly or may join end to end to form long threads. But Spirilla and Vibrios occur singly.
(Diagram)
Structure of Bacteria
1. Bacteria are single celled prokaryotic organisms.
2. Bacterial cell is surrounded by a cell wall which is made of carbohydrates and amino acids.
3. Some bacteria have an additional slime capsule around their cell wall, which protects them and prevents them from drying.
4. Ribosomes help in synthesis of proteins. Nucleus is absent in bacterium. However, only a single large circular molecule of DNA is present which is surrounded by a clear zone of cytoplasm. It is known as nucleoid. This is not bounded by a nuclear membrane.
5. In addition to main bacterial DNA small, circular molecules of DNA called plasmids are also found. Plasmids play an important role in transmission of some heredity characteristics. Plasmids are also used a vectors in genetic engineering.
6. Motile (which can move) bacteria like bacilli are spirilla have one or more thread like flagella (singular; flagellum) which help them in their locomotion. Non motile bacteria like cocci lack flagella.
Economic Importance of Bacteria
It is generally thought that bacteria are fatal and harmful organisms and there is no beneficial aspect. But this is wrong impression. There are number of bacteria which are not only beneficial for mankind but are also essential for living system. Bacteria play very important role in the life of living organisms.
Beneficial Bacteria
Ecological Importance
These, along with fungi, help to decompose dead organisms and their refuse into simpler substances replenishing the raw materials in the soil and atmosphere and can thus purify the environment.
Bacteria and Nitrogenous Compounds in Soil
These bacteria are called nitrogen fixing bacteria. Another kind of bacteria live in the soil, called nitrifying bacteria which convert ammonia into nitrite and then to nitrate, enhancing the amount of nitrogen in the soil. In this way fertility of soil is increased.
Industrial and Commercial Purposes
1. These are used in manufacturing butter, cheese and yogurt.
2. These are used in processing of commercial fibers, leather, coffee, tobacco and vinegar.
Bacteria Synthesize Enzymes
Bacteria synthesize cellulose enzyme in the stomach of herbivore animals which helps in the digestion of food. Some bacteria also synthesize vitamin “B” and “K” in the large intestine of man and other mammals.
Bacteria as Bio-Insecticides
Recently the use of bacteria in bio-insecticides has become popular.
Harmful Bacteria
1. Bacterial decomposition on one hand is beneficial but on other hand causes damage to food, wood, clothes and other things.
2. Denitrifying bacteria in soil decrease the amount of nitrogen in soil and reduce the soil fertility. These are called identifying bacteria.
3. Many bacteria are harmful and cause many diseases in plants, such as canker disease in citrus fruits, rot and fire blight in peach, pear and apple, and potato scab in potato.
4. In animal like cattle bacteria cause T.B and anthrax. Bacteria also cause many diseases in man like T.B, Whooping Cough, Diphtheria, Typhoid, Pneumonia, Tetanus, Plague, Bacterial Dysentery, Cholera, Leprosy etc.
Ways of Bacteria Transmission
1. Whooping cough, Diphtheria, T.B and Pneumonia causing bacteria are transmitted from one person to other person through sneezes and cough droplets released in air.
2. Bacteria causing Typhoid and Cholera, are transmitted from one organism to another through contaminated water and food.
3. Plague and bacterial dysentery read through vectors like flies and animals.
Cyanobacteria
1. Cyanobacteria are also called blue green algae. They are simplest living organisms which have the ability to manufacture their own food by photosynthesis.
2. Structurally they resemble bacteria. Bacteria and Cyanobacteria are prokaryotes and they are placed in kingdom Monera.
3. Generally Cyanobacteria are found in moist places like of trees, rocks and soil, fresh water and oceans.
4. Some of them are symbionts and some are epiphytes.
5. Cyanobacteria are usually unicellular and solitary.
NOSTOC
A common example of cyanobacteria which has filamentous structure which is found in the form a ball is called Nostoc.
Characteristics of Nostoc
The important characteristics of Nostoc are:
1. It has a filamentous structure which form a ball like structure of Nostoc.
2. It floats on water.
3. Each filament of Nostoc is unbranched and has a single row of rounded or oval cells.
4. Each cell of Nostoc has double layered wall.
5. The protoplasm is differentiated into two parts.
6. Endoplasmic reticulum, mitochondria, golgi bodies and vacuoles are not present in the structure of Nostoc.
7. Heterocyst are found which help in nitrogen fixation.
8. Nostoc is an autotroph like other Blue-green-Algae.
Taxonomic Position of Nostoc
According to new classification, Nostoc belongs to kingdom prokaryota or Monera.
Structure of Nostoc
The structure of Nostoc is filamentous. The filaments are interring mixed in agelatinuous mass forming a ball like structure. It floats on water. A single filament looks like a chain of beads. Each filament is unbranched and has a row of rounded or oval cells.

Fungi and Algae



CHAPTER – 5
Fungi
During rainy season, a large number of umbrella-shaped mushrooms emerge on dung-piles. Fluffy mass of tangled threads like structure with black-dots of molds is also often seen growing on orages and bread, these mushrooms and molds are fungi.
Characteristics of Fungi
1. Fungi are simple heterotrophic eukaryotes which cannot manufacture their food and have absorptive mode of nutrition (e.g. absorbed prepared food).
2. Cell wall is made up of Chitin instead of cellulose.
3. Some fungi are parasitic while others are saprotrophs.
4. Parasitic fungi obtain their food from other living organisms.
5. Saprotrophic fungi get their food from dead animals, plants, their wastes and decaying materials.
Economic Importance of Fungi
Fungi are useful as well as harmful to humans. e.g.
Useful Aspects of Fungi
Saprotrophic Fungi
Saprotrophic fungi chemically break down dead bodies of organisms and their wastes into simple components. They clean the environment and also cause the recycling of nutrients.
Mycorrhizal Fungi
Mycorrhizal fungi improve the growth production of crop plants.
Edible Fungi
Mushrooms and some other fungi are edible.
Antibiotics
Some antibiotics are also obtained from some fungi. For example, Penicillin, the first antibiotic discovered in 1928 by Alexander Flemming. Penicillin is obtained from the fungus penicillium.
Yeasts
Yeasts are used in making bread and alcohol.
Mushroom
1. During rainy season, a large number of umbrella like mushrooms emerge on dung piles.
2. Mycelium of mushroom is saprotrophic, spreading under group in the soil that contains, decaying and organic matter.
3. When spores are to be formed, many hyphae of mycelium come out of the soil to form umbrella shaped fruit bod, the familiar mushroom. It can be 3,4 inches in height.
4. Fruid body consists of two main parts; a lower stalk or stripe, and an upper umbrella shaped cap or pilens which bears annulus around it just below the cap.
5. On maturation, many radial plates or gills are seen on the underside of the cap on which enormous numbers of spores are produced.
6. Some mushrooms, like Agaricus, can be used as food before their fruit bodies become overripe. Agaricus is rich in protein. Some mushrooms, like Amanita, are deadly poisonous.
(Diagram)
Algae
Algae are a group of simple eukaryotes in which, like plants, chlorophyll is found. They are photosynthetic autotrophs and have cellulose in their cell wall. However unlike plants but ike fungi, their organs are unicellular and body is simple, thallus. Therefore they are placed in another kingdom, the Protista.
Algae, are mostly (found in water). A large number of algae are found in vast saltwater oceans. These are called marine algae, other are found in lakes, ponds, puddles, streams and rivers. These are called fresh water algae. Some marine algae, called the helps and grow as long as 60 meters or more in a season. Some of them are used as food.
Characteristics of Algae
1. All the algae have chlorophyll so they are autotrophic; they make their own food by photosynthesis.
2. Their cell walls are made up of cellulose.
3. Algae are mostly marine found in the sea. While others are found in fresh water lakes, ponds, puddles, streams and rivers and they are also found in damp soil.
4. Their plant body is called a thallus without a true root, stem or leaf.
5. Algae are sometimes classified on the basis of the pigments they contain. Their green colour can be masked by the presence of other pigments.
6. Their reserved food material is starch.
7. Algae have a wide variety from unicellular algae, e.g. chlamydomanas and spirogyra to multicellular large seaweeds like sargassum.
8. Previously algae were regarded as plants and were placed in thallophyta.
Chlamydomonas
It is fresh water green alga, commonly found in fresh pond and drains. It is single celled green algae which are seen only under a microscope.
Structure
1. Chlamydomonas is spherical, oval or pear-shaped.
2. The cell is enclosed by a cell wall which maintains its shape.
3. In the anterior part, the cell wall forms an outgrowth called apical papilla.
4. Two flagella (singular flagellum) arise from the cytomplasm below the apical papilla and come out through the cell wall. These help in swimming.
5. A thin cell membrane lies beneath the cell wall, it represents the ourter surface of cytoplasm.
6. In cytoplasm, there is, a cup shaped chloroplast, which is involved in production of food by process of photosynthesis.
7. The chloroplast contains, a spherical structure called pyrenoid in its posterior part, and a single red orange light-sensitive eye-spot on one side in its anterior regions.
8. The pyrenoid is supposed to store carbohydrates in the form of starch grains.
9. The eye spot helps chlamydomonas to determine its position nd direction according to changes in the intensity of light.
10. There are two contractile vacuoles near the base of flagella ‘which periodically expel excess water and waste from the cell.
11. A nucleus is present in the middle of chloroplast in the cytoplasm.
12. Although body, of chlamydomonas consists of a single cell, yet it performs all the basic functions of life. It reproduces both sex and asexual.
(Diagram)
Spirogyra
1. Spirogyra is a multicultural filamentous green alga. It is found in great abundance in fresh water ponds, lakes and streams. Its filamentous thallus consists of cylindrical cells.
2. These cells are joined end to end, to form un-branched filaments. Usually the filaments are found occurring in a large number.
3. The filaments are surrounded by a layer of mucilage that makes them slippery.
4. During day time, the oxygen produced during photosynthesis stores in the mucilage and the filaments start floating on the surface of water.
5. Each cell of Spirogyra is usually twice as long as broad.
6. The cell is surrounded by cellulosic cell wall. A peripheral layer of cytoplsm is present just inside the cell wall and around a large, central vacuole.
7. The vacuole is filled with cell sap.
8. A single nucleus is suspended near the vacuole by cytoplasmic strand.
9. The most prominent part of cell is its chloroplast. There may be one ore more than one chlrorplasts in each cell. The chloroplasts run along the; length of the cell in the form of spiral ribbon in the peripheral cytoplasm.
10. Numerous pyrenoids are located in a row in the chloroplast and are meant for storing starch. Spirogyra continually grows in length by cell division.
11. Each cell can be divide into two, so filament increases in length. The Spirogyra reproduces both sexually and asexually

Bryophytes and Tracheophytes



CHAPTER – 6
Bryophytes
Bryophytes are on of the two main groups of kingdom ‘Plantae’ the second being the ‘tracheophytes’. Bryophytes is a group of plants which are multicellular, photosynthetic eukaryotes; and their reproductive organs are multicellular; their zygote develops into small, protected embryo that develops into a complete new hence bryophytes have also been called embryophytes. The cell of these plants is made up to cellulose.
Characteristics of Bryophytes
The important characteristics of Bryophytes are as follows:
1. Bryophytes are plants without vascular tissue (xylem a phloem), whereas tracheophytes have vascular tissue. Therefore tracheophytes are vascular plants, whereas bryophytes are non-vascular plants.
2. Bryophytes are the simplest land plants. Bryophytes divided into three groups. Liverworts, hornworts, and mosses.
3. Marchantia is an example of liverworts; its plant body is a thick branched green thallus.
4. Anthoceros is a horn wort, and Funaria is a moss.
5. All bryophytes and generally found growing in moist habitants such as damp soil and rocks, moist brick walls, and along the banks of streams.
Life Cycle of Funaria Moss
It is a common moss found grwoing t moist places. Green leafy, moss plant of Furania, as like all Bryophytes, Funaria is haploid gametophyte, its height is about 0.5 – 1 inch.
(Diagram)
Gamatophyte Generation
It consists of 3 parts:
1. A vertical stem like structure.
2. Leaf like photosynthetic structures arranged on the stem, which are composed of a single layer of cells, and without stalk.
3. Numerous multicellular rhizoids, arising from the lower side of the stem and which absorb water and salts, and anchor the plant to the soil.
Male sex organs, called antheridia (singular antheridium) are located at the tip of male branch, and the female sex organs, called archegonia (singular archegonium) are located at the tip of female branch.
Fertilization takes place in the presence of water within the archegonium located at the tip of female branch. The zygote develops into the embryo (2n). The embryo forms the sporophyte (2n). The sporophyte remains attached to the tip of female branch. The sporophyte gets water, slts and also part of its food, from the parent gametophyte plant.
Sporophyte Generation
The sporophyte consists of three parts:
1. A foot
2. A long stalk like seta
3. Capsule
The foot is anchored to the female branch and absorbs nutrients from the gametophyte. The seta elevates the capsule in the air. Within the capsule, haploid spores are produced by meiosis. The spores are dispersed by wind. Each spore develops eventually into new haploid gametophyte plant, and the life cycle continues.
Like other bryophytes, Funaria also has well defined alteration of generations; haploid gametophyte generation is dominant, whereas diploid sporophyte is attached to and more or less dependent on the gametophyte.
Pteridophytes
1. Unlike bryophytes the plant body in Pteridophytes is differentiated into root, stem and leaves.
2. In contrast to other vscular plants Pteridophytes do not bear flowers, fruits and seeds.
3. Due to presence of vascular tissues, they are similar to gymnosperms and angiosperms.
4. Although the dominant generation in Pteridophytes is also the sporophyte but unlike gymnosperms and angiosperms both sporophyte and gametophyte generations are independent and free living. However, the gametophyte in much reduced and smaller in size.
Spermatophytes
Seed plants or Spermatophytes are that group of vascular plants which produce seeds. Seed is a ripened ovule. It contains a young plant with embryonic root, stem and one or more leaves, which has stored food material and is protected by a resistant seed coat or testa.
Spermatophytes like pteridophytes possess vascular tissues. They also have life cycles with alternation of generations. Unlike bryophytes and pteridophytes, spermatophytes do not have free living gametophyte; instead the gametophyte is attached to and nutritionally dependend upon the sporophyte generation.
Main Groups of Spermatophytes
Gymnosperms
They produce seeds which are totally exposed or borne on the scales of cones.
Angiosperms
They are flowering plants which produce their seeds within a fruit.
Pinus and Thuja – The Typical Gymnosperm
Pinus is normally grows at an altitude of 5000 ft to 8000 ft. It has many types e.g. chir, kail, chilghoza etc. However, some species are found in the plains. It is also grown as ornamental plants. Pinus tree is a sporophyte, which is evergreen and quite tall. It consists of an extensive root system and a strong, stout and woody stem and its branches. The upper branches progressively become shorter in length. In this way, the tree assumes a symmetrical conical shape.
(Diagram)
Thuja
Thuja (common known as Mor Pankh) is a short tree. It has profuse branches, which are covered with small, dark green scale leaves. It is conical in appearance. It is grown as ornamental plant in parks and homes.
Leaves of Thuja
Thuja has small scale like green leaves that cover the stem.
Female Cone of Thuja
In Thuja the female cones are spherical or oval in shape. These are about the size of a bair (berry). They consist of hard, brown colour scales with triangular apices.
Pinus
Pinus has two types of shoots.
Shoots of Pinus
Long Shoots or Shoots of Unlimited Growth
They are formed on the main stem and continue growth indefinitely by buds borne at their apices. They are covered by scale leaves.
Dwarf Shoots or Shoots of Limited Growth
These shoots originate in the axils of the scale leaves on the long shoots. They are very short (only a few millimeters in length). Each dwarf shoot bears 1 t 5 foliage leaves in addition to scales leaves.
Leaves of Pinus
Scale Leaves
These are small, membranous and brown in colour. They cover the stem.
Foliage Leaves or Needles
These are commonly long and narrow, tough, and leathery. In contrast to scale leaves they are green and photosynthetic. Depending upon the type of species, a cluster of 2 to 5 needles is produced on each dwarf shoot. Each dwarf shoot with its cluster of needles is called a spur.
Reproduction in Pinus
Pinus tree produces reproductive structures known as cones every year. Cones are of two types, male and female c9ones. Both male and female cones are produced on the same tree but on different branches.
Male Cone of Pinus
Male cones, usually 1 cm or less in length, are much smaller than the female cones. They are produced in clusters. These are generally born on the lower branches of the tree. Each male cone is composed of spirally arranged leaf-like structures called scales or microsporophylls. Each microsporophyll has two long sacs called pollen sacs of microsporangia on it are under surface. Asexual reproductive cells, microspores or pollen grains are produced by meiosis in the microsporangia. Pollen grains are haploid. After being transferred to the ovule, the pollen grain forms pollen tube. It is the male gametophyte in which male gametes or sperms are produced.
Female Cone of Pinus
The female cones are much larger than the male cones. These are usually found on the upper branches. Each female cone is also made of spirally arranged scales which are called megasporophylls. These scales become woody on maturity. Two ovules are present side by side at the base of each scale. Haploid megaspores are formed in the ovule by meiosis. Measpores give rise to female gametophytes which produce female gametes. Fertilization results in the formation of embryo after which the ovule is ripened to form seed. Female cones normally remain attached for three years on the plant. On maturity the cones open up and the seeds are set free and dispersed.
Angiosperms
Angiosperms are the flowering plants which are most successful plants. They are more important than the gymnosperms. They have adapted to almost every type of environment. There are about at least 235,000 species. They are dominant plants. Angiosperms are vascular plants which bear flowers. Their seeds are produced within fruits. The fruit protects the developing seeds and also helps in their dispersal. Seed and fruit producing habit have helped flowering plants in their evolutionary success.
Angiosperms are found in wide variety of sizes and forms. Ensize they range from over 300 ft in height (some species of Eucalyptus) to searcely 1mm in length (duckweed, Woiffia).
On the basis of size and woody texture, angiosperms are classified as herbs, shrubs (bushes) and trees. Herbs are the plants which are small in size. Their stems are Herbs which are then cut or pulled from the soil. In contrast shrubs and trees have hard woody stems, which retain their shape even after being cut. Shrubs are shorter than trees but have more branches. In addition to tracheids, angiosperms have efficient water conducting structures known as vessels in their xylem.
Classes of Angiosperms
On the basis of the number of cotyledons in the seed, angiosperms are divided, into two classes.
1. Monocotyledons or Monocots
2. Dicotyledons or Dicots
Monocots
1. Monocot seeds have only one cotyledon or embryonic leaf.
2. A nutritive tissue called “endosperm” is usually present in the mature seed.
3. Monocots are mostly herbs with long narrow leaves.
4. Leaves have parallel veins i.e. in the lamina of the leaf veins run parallel to one another.
5. The floral parts of most flow3ers usually occur in threes or multiples of three (i.e. 3, 6, 9 …)
6. Monocots include different grasses, cereals (wheat rice, maize etc) ,palms, onions and lilies.
Dicots
1. Dicot seeds have two cotyledons.
2. In mature seed, te endosperms is usually absent.
3. Their leaves vary in shape but usually are broader than monocot leaves.
4. Leaves have reticulate veins i.e. branched veins resembling a net. The flower parts are four or five in number or multiples of 4 or 5.
5. Dicots include rose, peas and pulses, sheesham, Kiikar (Acacia), sarsoon (mustard), cacti, mango, orange and sunflower etc.

Invertebrata



CHAPTER – 7
Protozoa
1. According to two-kingdom classification, protozoa are the first phylum of invertebrate animals but according to five kingdom classification it is placed in a separate kingdom, “protista” in which all other eukaryotic unicellular organisms are also placed.
2. Body of all protozoans consists of one cell and istherefore called unicellular.
3. They are so small in size that they cannot be seen with naked eye. They can be seen with the help of a microscope.
4. They are unicellular but they intake food, respire, reproduce.
5. Protozoans mostly live in damp, watery places. Their habitat is mostly moist soil, decaying matter of animals and plants. Most of them live singly but some form colonies. In a colony, unicellular organisms become partially interdependent and limit themselves to perform specific functions in a group. If separated from group they still can perform all life activities and can live independently.
6. Some protozoans are parasites and causes different diseases e.g. a type of Amoeba causes dysentery, plasmodium causes malaria.
7. Protozoans are also useful for man because they feed and destroy bacteria which are harmful for human health, for example Amoeba can feed on bacteria.
Paramecium
It is unicellular animal which is found in pools and ponds. It is slipper shaped its body is covered with cilia. Cilia are small hair like out structures arising from protoplasm. Their lashing movement in water acts as oars and help in swimming (locomotion) of the animal. Paramecium feed on algae. Bacteria and other small protozoans, through an oral groove provided with cilia. Cilia push food inside the protoplasm through a canal called gullet making a food vacuole in the protoplasm. There are two contractile vacuoles, one at each end of the body for discharging surplus water there are two nuclei one large, mega nucleus which controls almost all functions of cell other small, micro or reproductive nucleus which controls reproduction. Many protozoa like Amoeba and Paramecium are unicellular but they respond to the intensity of light like all other multicellular organisms. They can detect high intensity of light and move towards the area having low intensity of light.
Phylum Porifera
1. This phylum is called porifera because animals belonging to this phylum have numerous small pores on their bodies.
2. They are also called sponges.
3. They are multicellular but they have no organs or true tissues.
4. Every cell performs its all function.
5. Sponges are aquatic animals. Most of them are found in sea water but some live in fresh water.
6. Sponges have different colours.
7. Green colour of sponge is due to algae that live in their body. Algae produce oxygen during photosynthesis which is used by sponges and the sponges release carbondioxide, which is used by algae for photosynthesis. This association in which both the organisms benefit from each other is called mutualism.
Phylum Cnidaria
1. Animals belonging to this phylum have a special cavity in their body which is called coelenteron and due to this reason they are called coelenterates.
2. They are diploblastic animals as their bodies have two layers of cells. Outer layer is called ectoderm and inner layer is called endoderm. Between these layers a jelly like substance the mesoglea is present.
3. Coelentrates are aquatic animals. They are mostly marine but few live in fresh water.
4. Most of the animals of this phylum can move freely but a few remain attached to stones or rocks throughout their life.
5. Hydra, Jellyfish and Sea anemone are common examples of this phylum.
Phylum Platyhelminthes
They are triploblastic animals because their body is made of three layers, an outer ectoderm, a middle mesoderm and an inner endoderm layer. They are also called flat worms because their body is thin, flattened and tape like. Some animals are free living but most are parasite. Parasites live in liver, stomach and intestine of other animals. They attach themselves to the walls of intestine of their host by sucker and suck blood and food. Tape worm sucks food from intestine and sometimes grows up to 40 feet in length. Liver fluke, tape worm and planaria are common examples of this phylum.
Phylum Mollusca
1. This phylum is one of the largest phyla of animal kingdom. It has about fifty thousand species.
2. Mollusca are a latin word which means “soft”. Their body is soft so in most of the animals and external shell is present for support and protection.
3. Some animals have internal shell and some lack shell. They are also known as shell fish.
4. They are found in aquatic and moist habitat.
5. Most of Mollusca are used as human food.
6. Buttons are made from their shell.
7. The pearls are produced by these animals.
8. Their body is quite complicated.
9. They have a muscular foot for locomotion and gills for respiration.
10. Snails, Fresh water mussel, Cuttle fish, Octopus and Oyster are common examples of this phylum.
Phylum Arthropoda
1. The bodies of these animals are also segmented but these segments are external.
2. Their bodies are covered with the hard shell composed of chitin, forming an exoskeleton.
3. They have jointed legs on their body and therefore they are called arthropoda (arthro means jointed and poda means foot)
4. These animals are found in all habitats, in air, water and on land.
5. Common examples are Prawn, Crab, Spider, Scorpion, Centipede, Millipede and Insects.
Phylum Echinodermata
1. The animals of this phylum are exclusively marine.
2. They are called echinoderms because their bodies are covered with spines or spicules.
3. All animals have internal skeleton consisting of dermal caleareous ossicles.
4. They have a water vascular system and dermal gills.
5. These animals are considered to be closest to the chordates from evolutionary point of view, Sea star (known as star fish). Brittle star, Sea urchin and Sea cucumber are examples of this phylum.
Phylum Annelida
1. Animals in this group have elongated segmental body.
2. Annelids occur in water as well as on land.
3. They have well developed systems in their bodies.
4. They have close type circulatory system.
Phylum Nematode
1. Nematodes or round worms have long smooth cylindrical body which is pointed at both the ends.
2. The body is un-segmented.
3. Nematodes have a complete and one way digested tube.
4. They are free-living as well as parasites of animals, man and even plants.