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UNIT VI REPRODUCTION
Chapter 1 : Sexual Reproduction in Flowering Plants
Chapter 2 : Human Reproduction
Chapter 3: Reproductive Health
UNIT VII GENETICS AND EVOLUTION
Chapter 4 : Principles of Inheritance and Variation
Chapter 5: Molecular Basis of Inheritance
UNIT VIII BIOLOGY IN HUMAN WELFARE
Chapter 7 : Human Health and Disease
Chapter 8: Microbes in Human Welfare
UNIT IX BIOTECHNOLOGY
Chapter 9 : Biotechnology : Principles and Processes
Chapter 10 : Biotechnology and its Applications
UNIT X ECOLOGY
Origin of Life
Year
Scientist
Theory/Experiment
Conclusion
1927
Lemaitre
Big Bang theory
The universe expanded from explosion of a primordial, hot substance.
1924 − 1929
Oparin and Haldane
Chemical evolution preceded organic evolution
Simple organic molecules originated from inorganic precursors.
1952
Stanley Miller and Urey
Synthesis of biomolecules by creation of similar conditions as primitive atmosphere on laboratory scale
Amino acids were synthesised from ammonia, oxygen, and carbon dioxide inside specialised apparatus.
Urey and Miller experiment
Primitive atmosphere had high temperature, volcanic storms, and reducing atmosphere, containing CH4, NH3, H2, etc.
Urey and Miller took the same compounds in a closed flask along with water vapour at 800ºC and created an electric discharge.
Formation of biomolecules such as amino acids, simple sugars, fats, etc. was observed in the flask.
Theories of Evolution
The theory of special creation or divine intervention was challenged by Charles Darwin.
He made observations on his sea-trip around the world aboard H.M.S.
Beagle and concluded that all existing living forms share similarities among themselves and also with other life forms, which existed millions of years ago of which many are extinct.
The evolution of life forms has been gradual and those life forms better fit in environments that leave more progeny. This is called natural selection and is a mechanism of evolution.
Alfred Wallace working in the Malay Archepelago also came to the same conclusion.
Evidences of Evolution
Fossils − They represent plants and animals that lived millions of years ago and are now extinct. Different aged rock sediments contain fossils of different life-forms, which probably died during the formation of the particular sediment.
Comparative anatomy and morphology − It shows evidences of the similarities and differences between living forms of today and that of the prehistoric times. Some of the examples of comparative anatomy and morphology are:
Homologous organs − All mammals share the same pattern of forelimbs. Though they perform different functions, they are anatomically similar. This is called divergent evolution and the structures are called homologous structures (common ancestors).
Analogous organs − The pair of organs is not anatomically similar, but performs the same function (e.g., the wings of butterflies and birds). This is called convergent evolution.
Adaptive melanism − In England, it was noted that before industrial revolution, the number of white-winged moths was more than that of dark melanised moth. However, after industrialisation, there were more of dark melanised moths. The explanation was that after industrialization, the tree trunks became darker with deposits of soot and smoke and hence, the number of dark moths increased in order to protect themselves from predators while the white-winged ones were easily picked up by the predators.
Similarly, the herbicide and pesticide resistant plants and animals and antibiotic resistant bacteria are some of the evidences that point towards evolution.
Adaptive Radiation
During his exploration of the Galapagos Islands, Darwin noticed that there were many varieties of finches in the same island.
They varied from normal seed eating varieties to those that ate insects.
This process of evolution starting from a single point and radiating in different directions is called adaptive radiation.
The other example for this is the evolution of the Australian marsupials from a single ancestor. Placental mammals also exhibit similarities to their corresponding marsupial. Example: placental wolf and the Tasmanian wolf
When more than one adaptive radiation occurs in an isolated geographical area, the phenomenon is called convergent evolution.
Biological Evolution & Mechanism of Evolution
According to Darwin, evolution took place by natural selection.
The number of life forms depends upon their ability to multiply and their life span.
Another aspect of natural selection is the survival of the fittest, where nature selects the individuals, which are most fit, to adapt to their environment.
Branching descent and natural selection are the two important concepts of Darwin’s theory of evolution.
The French naturalist Lamarck observed that evolution occurs due to the use or disuse of particular organs or body parts. For example, giraffe have developed long necks as a result of attempts to eat leaves high up on trees.
Darwin also observed that variations are inheritable and the species fit to survive the most, leaves more offsprings. Hence, the population’s characteristics change, giving rise to the evolution of new life forms.
Mechanism of Evolution
Darwin did not quite explain how evolution gave rise to different species of the same organism.
Mendel mentioned about inheritable factors, which influenced the phenotype of an organism.
Hugo de Vries based on his work on evening primrose suggested that variations occurred due to mutations.
Mutations are random and directionless while the variations that Darwin talked about were small and directional. Hugo de Vries gave the name saltation (single step large mutation) to the mutations which brought about speciation.
Hardy-Weinberg Principle
The frequency of occurrence of alleles of a gene in a population remains constant through generations unless disturbances such as mutations, non-random mating, etc. are introduced.
Genetic equilibrium (gene pool remains constant) is a state which provides a baseline to measure genetic change.
Sum total of all allelic frequencies is 1.
Individual frequencies are represented as p and q such as in a diploid, where p and q represent the frequency of allele A and a.
The frequency of AA is p2, that of aa is q2, and that of Aa is 2pq.
Hence, p2 + 2pq + q2 = 1, which is the expansion of (p + q)2.
When the frequency measured is different from that expected, it is indicative of evolutionary change.
Hardy-Weinberg equilibrium is affected by
gene flow or gene migration
genetic drift (changes occurring by chance)
mutation
genetic recombination
natural selection
Sometimes, the change in allele frequency is so prominent in the new sample of population that they become a different species and the original drifted population becomes the founder. This effect is called founder effect.
The advantageous mutations that help in natural selection over the generations give rise to new phenotypes and result in speciation.
Evolution of Plants and AnimalsEvolution of Plants
Cellular life forms occurred on earth about 2000 million years ago.
Some of these cells had the ability to produce oxygen through reactions similar to photosynthesis.
Slowly, single-celled organisms became multicellular.
Seaweeds and some plants probably existed around 320 million years ago.
Evolution of Animals
Animals evolved about 500 million years ago. The first of them to evolve were invertebrates.
Jawless fishes evolved around 350 million years ago.
Some of the fishes could go on land, and then come back to water. These were the first amphibians. In 1938, a fish Coelacanth, which was thought to be extinct, was caught in South Africa. This variety of fish, called lobefins, is believed to have evolved into the first amphibians.
Amphibians evolved into reptiles. In the next 200 million years, reptiles of different sizes dominated the earth. However, about 65 million years ago, some of them such as dinosaurs disappeared.
The first among the mammals were small shrew-like mammals.
During continental drift when North America joined South America, primitive mammals suffered, but pouched mammals of Australia survived the same drift because of lack of competition from other mammals.
Origin and Evolution of Man
Year
Evolution
Characteristics
15 million years ago
Dryopithecus (ape-like) and Ramapithecus (man-like)
Hairy and walked similar to chimpanzees
3 − 4 million years ago
Man-like primates
Not tall, but walked straight
2 million years ago
Australopithecines, also called Homo habilis,lived in East Africa
Used stone weapons and ate fruits;
human-like with brain capacity of 650 − 800 cc; not meat eaters
1.5 million years ago
Homo erectus
Brain capacity of about 900 cc; were meat eaters
1,000 − 40, 000 years ago
Neanderthal man
Brain capacity of 1400 cc; used hides
75, 000 − 10, 000 years ago
Homo sapiens
When we compare the skulls of an adult human being, baby chimpanzee, and adult chimpanzee, we observe that skull of baby chimpanzee resembles human being more as compared to adult chimpanzee.
NCERT Solutions
The study of the evolution of life forms on Earth is known as evolutionary biology. It delves into topics like the Origin of Life, Evolution of Life Forms - A Theory, and What Are the Proofs for Evolution? What exactly is Adaptive Radiation? Biological Evolution, Evolutionary Mechanism, Hardy-Weinberg Principle A Brief Account of Evolution, Origin and Evolution of Man is an important subject for students to study. The origin of life; biological evolution and evidence for biological evolution (palaeontology, comparative anatomy, embryology, and molecular evidence); Darwin's contribution, modern synthetic theory of evolution; mechanism of evolution - variation (mutation and recombination) and natural selection with examples, types of natural selection; gene flow and genetic drift; Hardy - Weinberg's principle; adaptive radiation; human evolution are topics covered in evolution.
1. Explain antibiotic resistance observed in bacteria in light of Darwinian selection theory.
Solution:
As per Darwin’s observation, the environment selects entities with favorable variations, these entities are capable of surviving. When a population of bacteria is attacked by a specific antibiotic, sensitive bacteria tend to perish, while other bacteria possessing favorable mutations turn resistant even in the presence of antibiotics and these survive, thriving, and rapidly multiplying as the other competing bacteria have died out. Thus, the number of bacteria is on the rise. In addition to this, they mass transfer these genes, resistant to bacteria, to other bacteria. Consequently, bacteria resistant to antibiotic widely spread across making the entire population to become antibiotic-resistant.
2. Find out from newspapers and popular science articles any new fossil discoveries or controversies about evolution.
Solution:
Fossil discover of dinosaurs had some interesting revelations. It conveys about the evolution of reptiles in the Jurrasic era. This revelation gave rise to the discovery of evolution of other animals such as mammals and birds. Two unfamiliar fossils recently unearthed in China exploded a controversy over the evolution of birds. One such genus of primitive birds were Confuciusornis. These were crow-sized and thrived during the Creataceous era in China.
3. Attempt giving a clear definition of the term species.
Solution:
Species is a group or population of individuals having the potential to interbreed and produce sustainable and fertile offsprings.
4. Try to trace the various components of human evolution (hint: brain size and function, skeletal structure, dietary preference, etc.)
Solution:
Human evolution can be based on different components, namely:
Size of the brain
Body posture
Food habits/dietary preferences
Characteristics/features
The following table depicts the same:
Human evolution stages
Size of the brain
Body posture
Food preferences
Features
Dryopithecus africans
–
Knuckle-walking, ape-like walk
Leaves and tender fruits
Equal sized arms and legs, large canines
Ramapethicus
–
Semi-erect posture
Nuts and seeds
Large molars, small canines
Australopithecus africanus
450 cm3
Completely erect posture, around 1.05m tall
Fruits (herbivorous)
Inhabited trees, stone weapons for hunting, incisors &canines are smaller
Homo habilis
735cm3
Completely erect posture, around 1.5m tall
Carnivorous
Small canines, first to make tools
Homo erectus
800 cm3 to 1100 cm3
Completely erect posture, around 1.5m – 1.8m tall
Omnivorous
For hunting used bone and stone tools
Homo neanderthalnsis
1300 cm3 to 1600 cm3
Completely erect posture, around 1.5m – 1.66m tall
Omnivorous
Inhabited caves, buried their deads, hid their bodies for protection
Homo sapiens fossils
1650 cm3
Completely erect posture, 1.8m
Omnivorous
Possessed strong jaw with teeth closely placed, inhabited caves, made carvings and paintings in caves. Developed a culture and were referred to as the first modern men
Homo sapiens sapiens
1200 cm3to 1600 cm3
Completely erect posture, around 1.5m – 1.8m tall
Omnivorous
Possess high intelligence quotient, referred to as the living modern men, Developed language, speech, culture, art, language. Cultivation of crops and domestication of animals observed.
5. Find out through internet and popular science articles whether animals other than man has self-consciousness.
Solution:
Apart from humans, there are many other animals that possess self-consciousness. One such example is the Dolphin. They are believed to have a high level of intelligence. Also, they have a sense of self and can identify oneself amongst others. They whistle, tail-slap and exhibit body movements to communicate with each other. Some other animals that exhibit self-consciousness are parrot, crow, gorilla, orangutan, chimpanzee etc.
6. List 10 modern-day animals and using the internet resources link it to a corresponding ancient fossil. Name both.
Solution:
The list is as follows:
Name of the animal
Name of the fossil
Horse
Eohippus
Man
Ramapithecus
Elephant
Moerithers
Whale
Protocetus
Fish
Arandaspis
Giraffe
Palaeotragus
Dog
Leptocyon
Camel
Protylopus
Tetrapods
Icthyospega
Bat
Archaeonycteris
7. Practise drawing various animals and plants.
Solution:
Take cues from seniors, teachers for names of different plants and animals. Go through different science books, magazines, encyclopedia to get an idea of different plant and animal species. To get further more details, internet serves as the ultimate option. There is a huge range of plants and animals from which you can pick the easiest one to begin with and practice them. Try tracing the outline first and then fill up the details.
8. Describe one example of adaptive radiation.
Solution:
When members of a single assemblage or lineage, deviate evolutionarily into a range of different forms, it is adaptive radiation. These are the forms that are governed by natural selection and the usage of resources or habitats. The Darwin’s finches of the Galapagos islands had shared or common ancestors whereas now, we have different sorts of modified beaks based on their food preferences. In order to suit their feeding habits, these finches have adopted different eating preferences and varied beak types. From a single seed-eating finch ancestor, different finch-species with varied dietary habits have evolved such as the blood-sucking, insectivorous entities etc.
9. Can we call human evolution as adaptive radiation?
Solution:
No, human evolution can be referred to adaptive radiation as adaptive radiation is an evolutionary process which gives rise to new species from a single common ancestor but in the case of human evolution, although we share a common ancestor, we humans have undergone an eventual but progressive alteration in the eating preferences, structure of body etc. The evolution of human does not include diversification and radiating into different species which in fact is a distinguishing feature of adaptive radiation.
10. Using various resources such as your school Library or the internet and discussions with your teacher, trace the evolutionary stages of any one animal, say horse.
Solution:
During the Eocene era, the evolution of horse began with Eohippus and involved the following evolutionary phases:
Eohippus → Mesohippus →Merychippus → Pliohippus → Equus
Evolutionary traits observed were as follows:
Increase in the size of body
Elongated neck
Expansion of the third digit
Enhanced structural composition of the teeth to feed on grass
Broadening of the limbs
Eventual decrease in the lateral digits
Strengthened back
Sense organs and brain development
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