HUMAM EVOLUTION Grade-11 ZOOLOGY

 Human evolution:

Classification

Kingdom              : Animalia

Phylum                 : Chordata

Sub-phylum         : Vertebrata

Group                   : Craniata

Division                : Gnathostomata

Super class           : Tetrapoda

Class                     : Mammalia

Order                    : Primate

Sub Order            : Anthropodia

Family                  : Hominidae

Genus                    : Homo

Species                  : sapiens

Sub-species          : sapiens

1. Origin of mammals: About 210 million years ago, mammals were supposed to have evolved from therapsid reptiles. These mammals resemble today’s tree shrew. 

2. Origin of early Primates: The early primates or prosimians originated about 65 million years ago. These prosimians are lemurs, tarsiers and lorises. 

3. Origin of Anthropoids: Anthropoids originated about 36 million years ago. Anthropoids are simians (new world monkeys and old world monkeys) and hominids (human and apes). 

Differences between new world monkey and old world monkey

New world monkey (Platyrrhini)	Old World monkey(Catarrhini)
Flat nose, Widely separated and outwardly directed nostrils	Narrow nose, Closely placed and downwardly directed nostrils
Poorly developed unspecialized brain.	Well developed specialized brain
Limbs are not used for grasping	Limbs are used for grasping
Long and prehensile tail.	Short and non-prehensile tail.
Native to South America. Eg: spider monkey	Native to Asia and Africa. Eg: Baboon

Differences between ape and human

Ape	Human
Semi arboreal habitat	Terrestrial habitat
Herbivores	Omnivores
Forelimbs are longer	Hind limbs are longer
Bend body posture	Erect body posture
Tetra pedal locomotion	Bipedal locomotion
Small brain size (100cc-510cc)	Large brain size(1450cc-1550cc)
Flat skull	Dome-shaped skull
Not able to make and employ tools	Able to make and employ tools
The lumbar curve is not found in the vertebral column	The lumbar curve is present in the vertebral column
The eyebrow ridge is heavy and protruded	The eyebrow ridge is thin and  not much protruded
Eg. Gibbon, Orangutan, Chimpanzee, Gorilla, etc	Eg. Human beings

On the basis of the taxonomic characters, there is no doubt that man evolved from a monkey-like a creature. The common group is Anthropoidea. It is confirmed that man and chimpanzees, gorillas, and orangutans evolved from the common superfamily Hominoidea.

Human ancestors
1. Early human ancestors:

a) Parapithecus: 

i) Fossils was reported from Egypt which was about 40 million years old. 

ii) It was a common ancestor of humans, apes, and monkeys. 

b) Dryopithecus: 

i) Fossils were reported from Asia and Africa which were about 20- 25 million years old. 

ii) It was a common ancestor of apes and humans. 

c) Proconsul africanus: 

i) Fossils was reported from Africa which was about 20 million years old. 

ii) It was also a common ancestor of apes and humans. 

iii) Forehead was similar to a human. 

iv) Canine teeth were long and pointed. 

2. Ancient human ancestor: 

a) Ramapithecus: 

i) Fossils were reported from Asia and Africa which were about 10-13 million years old. Fossils were also found in the Dang valley and Tinau River of Butwal of Nepal. 

ii) Body posture was erect. 

iii) It was the ancestor of only humans, so it was the direct ancestor of humans. 

iv) It was arboreal in habitat. 

v) Small canine teeth similar to humans. 

b) Australopithecus: 

i) Fossils was reported from Africa which was about 5 million years old. 

ii) Bipedal locomotion with erect body posture. 

iii) Large-sized teeth. 

iv) They used weapons of stone to kill prey and defense. 

v) Cranial capacity was 600 cc. 

vi) There were two species of Australopithecus. One was Australopithecus africanus which evolved further and the next was Australopithecus robustus which went extinct. 

3. Modern human ancestors: 

a) Homo habilis (Handyman) 

i) Fossils was reported from Africa which was 3.5 million years old. 

ii) It evolved from Australopithecus africanus. 

iii) Cranial capacity was 700cc. 

iv) They used tools of stone for hunting and defense so they are called tool makers or handymen. 

v) They lived community life in caves. 

b) Homo erectus (Erect man): 

There were three species. 

i) Homo erectus erectus (Java man): 

- Fossils were reported from Java of Indonesia which was about 1.7 million years old. 

- Cranial capacity was 900 cc. 

- They had heavy eyebrows. 

- Legs were long and strong. 

- Lips were thick and extended forward. 

- They discovered fire which was used for hunting, cooking, and defense. 

- They were omnivorous but the meat was the main diet. 

ii) Homo erectus pekinensis (Peking man): 

- Fossils were reported from Peking of China which was about 230,000 years old. 

- Cranial capacity was 1075 cc. 

- They used fire for hunting, cooking, and defense. 

- They used sharp tools of stones for hunting, cutting, and defense. 

- They had the habit of cannibalism. 

iii) Homo erectus heidelbergensis (Heidelberg man):

- Fossils were discovered from Heidelberg in Germany which was about 200,000 years old.

- Cranial capacity was about 1200 cc.

- They were right-handed.

- This handedness was associated with the development of language.

- They used to hunt large animals.  

- They built simple shelters for dwellings.

c) Homo sapiens neanderthalensis (Neanderthal man): 

i) Fossils was reported from the Neanderthal valley of Germany. 

ii) They existed about 40,000 years ago and flourished in Europe, Asia, and Africa. 

iii) Broad nose with powerful neck muscles. 

iv) They used tools and weapons for hunting, defense, and cutting. 

v) Primitive type of social life, culture, and religion was developed. 

vi) They covered their body with the skin of animals. 

vii) They buried dead bodies with ceremonies as a tradition. 

viii) Cranial capacity was 1450 cc. 

d) Homo sapiens fossilis (Cromagnon man): 

i) Fossils was reported from Cromagnon rock of France. 

ii) They evolved about 34,000 years ago and existed about 10,000 years ago. 

iii) Cranial capacity was 1600 cc. 

iv) They had narrow skulls with broad faces. 

v) They lived with a family in caves. 

vi) They used to draw pictures and had skills in wall painting. 

vii) They prepared excellent and sophisticated weapons. 

viii) They used ornaments of elephant tusk, stones, bones etc. 

e) Homo sapiens sapiens (Modern man): 

i) Erect posture and bipedal locomotion. 

ii) Diet is changed to cooked food. 

iii) Development of languages and speech. 

iv) Ability to learn and share experiences. 

v) Expression is improved. 

vi) Developed ideas on agriculture and domesticating animals. 

vii) Cultural and social awareness. 

viii) Developed a sense of civilization. 

Modern man was migrated to three directions 

1. the First group migrated to the northeast which are called Mongoloid races found in China, Mongolia, Japan, Siberia, Bhutan, etc. 

2. the Second group migrated to the west called the white race or Caucasoid race found in Europe, America, southwest Asia, North Africa, etc. 

3. the Third group migrated to the south called Negroid race which are found in Malaysia, Indonesia, Srilanka, south India, Mid and South Africa.

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GRADE-11 BOTANY SOLANACEAE

 SOLANACEAE

 

SYSTEMATIC POSITION:

Kingdom-------Plantae              

Division--------Phanerogams

Class-----------Dicotyledonae

Sub-class-----Gamopetalae

Series----------Bicarpellatae

Order-----------Polemoniales

Family----------Solanaceae

Genera: 90 and Species 2200

DISTRUBUTION- tropical and temperate regions

HABITAT- Terrestrial, mostly mesophytes (average condition of water supply); xerophyte (dry place Solanum xanthocarpum )

HABIT- annual herbs (complete lifecycle in a season) or shrubs and rarely trees or climbers (Solanum

jasminoides, Solanum dulcamara)

VEGETATIVE CHARACTERS

ROOT- Tap root (primary root which develops from the elongation of the radicle and bear small radical roots)

STEM- Herbaceous (doesn’t contain wood), aerial (develops above ground), erect (grows vertically upright), cylindrical, branched, solid, glabrous (unhairy) or slightly hairy; modified into tubers (round and fleshy with reserved food materials where several buds develops on the nodes Solanum tuberosum)or may be provided with spines (Solanum xanthocarpum).

LEAF - Cauline (leaf born on main stem) and ramal (leaf arises from branches), alternate (successive leaves occur on opposite sides), often becoming opposite at or near the inflorescence; exstipulate, simple(has single lamina and the incision of margin doenot touch the mid-rib), rarely pinnately compound(mid rib are attached to the mid rib and leaflets are arranged laterally), petiolate(with petiole), ovate(shape of leaf blade is like an egg), margins entire, lobed(margin divided into many lobes) or dentate(margin protects teeth at right angle), apex acute(forms acute angle), surface sub-glabrous (unhairy) to sparsely pubescent(hairy), unicostate(strong mid-rib and lateral veins runs parallel towards apex), reticulate venation.

 

 

FLORAL CHARACTERS

INFLORESCENCE- Cymose(definite inflorescense where growing point of the peduncle is used up in the formation of flower); usually axillary cyme or combination of cymes;sometimes flowers may be solitary (Datura sp.)

FLOWER- Ebracteate (without bract), ebracteolate (without bracteolate), pedicellate (having pedicel), complete (have four whorls). Actinomorphic (radially symmetrical), rarely zygomorphic (laterally symmetrical Schizanthus sp., Brunfelsia Americana) with bilabiate(two lipped flowers) flowers), hermaphrodite(bisexual), pentamerous(the floral parts in multiple of five), hypogynous( flower having superior ovary) and cyclic ( floral parts arranged in whorls)

CALYX - Sepals 5, gamosepalous(sepals are united), five- lobed, Aestivation valvate(margins of adjacent sepals meet at the edge but donot overlap each other), sometimes imbricate(overlapping of sepals is irregular), persistent( sepals persisit till the fruit formation and are present in the mature fruit), often enlarging in fruits.

COROLLA - Petals 5, gamopetalous(petals are united), Aestivation usually imbricate(irregular overlapping of sepals and petals) or twisted( one petal overlaps the next with one margin and it is overlapped by the previous on the other margin), rarely valvate(margins of adjacent petals meet at the edge but do not overlap each other), corolla usually campanulate(shape like bell) or infundibuliform(funnel shaped corolla), sometimes rotate (Solanum sp.) or bilabiate (Brunfelsia sp.)

ANDROECIUM - Stamens 5, polyandrous (stamens are free from each other), epipetalous (stamens fused with petals), alternating with corolla lobes; anther dithecous (anther having two lobes), basifixed (base of anther and top of filament is joined) inserted (stamens remaining inside the corolla petals); introrse(anther facing inward)

GYNOECIUM – Bicarpellary (Carpels-2), syncarpous(carpels are fused laterally to form compound pistil); ovary superior ( gynoecium of hypogynous or perigynous flower) bilocular( two chambers sometimes tetralocular(three chambers) placentation axile (the placentae develop along the central axis in an ovary having two or more locules)

FRUIT - Usually many seeded berry and rarely capsule

SEED - Compressed flat, albuminous; embryo curved with two cotyledons.

DIAGNOSTIC CHARACTERISTIC

1. Inflorescence is usually axillary cyme, sometimes extra-axillary cyme.

2. Sepals 5, gamosepalous and persistent, Petals 5, gamopetalous with imbricate or twisted aestivation, Stamens 5, polyandrous and epipetalous.

3. Ovary superior, bilocular, sometimes tetralocular due to formation of false septum.

4. Ovary is obliquely placed with oblique septum.

 

 

ECONOMICALLY IMPORTANT PLANTS

Vegetables:

1. Potato- Solanum tuberosum

2. Tomato – Lycopersicum esculentum

3. Brinjal (eggplant) – Solanum melongena

4. Chili – Capsicum annuum

Medicine:

1. Atropa belladonna (Deadly nightshade – Yield atropine & belladonna).

2. Datura stramonium (Datura – yields stramonium).

3. Datura metel (Datura)

4. Withania somnifera (Winter cherry)

5. Solanum xanthocarpum  (Yellow-berried Nightshade)

6. Solanum nigrum (Black nightshade; local name – Kaligeri)

Narcotic:

1. Nicotiana tabacum (Tobacco)

 

Fruit:

 

1. Physalis peruviana (Cape gooseberry)

Ornamental:

1. Cestrum nocturnum (Night jasmine)

2. Cestrum diurnum (Day jasmine)

3. Brunfelsia americana (Yesterday-today and tomorrow plant/ Lady of the night)

 

Grade 11 Botany BRASSICACEA (Cruciferae) notes and answers

 Brassicaceae (Cruciferae)

Kingdom             : Plant

Division               : Phangerogams                                                             

Class                    : Dicotyledonae

Sub-class             : Polypetalae

Series                   : Thalamiflorae

Order                   : Parietales

Family                  : Cruciferae (Brassicaceae)

 

Genra: 375 and Species: 2500

Distribution: Cosmopolitan (common in temperate region)

Habitat: Terrestrial, cultivated, some aquatic ( Nastrum officinale- watercress, Subularia aquatic- water awlwort)

Habit: Annual (complete their lifecycle in one season), Biennial (complete their lifecycle in two seasons, growing vegetatively and storing food in one season and flowering and fruiting in another season) or Perennial (survive for several years) herbs. Sulphur containing pungent sap due to glucosides (sinigrin)

VEGETATIVE CHARACTERS

Root: Tap and branched (primary root which develops from the elongation of the radicle and bear small radical roots) modified to:  Fusiform (swollen like a spindle, being thickest in the middle and narrowing towards the apex and base Eg: Radish) or Napiform (almost spherical at the base tapering towards the apex Eg: Turnip)

Stem: Erect (vertical and sufficiently strong to stand erect), Herbaceous (doesn’t contain wood), unbranched or branched cylindrical, Pubescent (hairy). The stem becomes very much condensed but after vegetative growth it elongates in the form of floral shoot.

Leaf: Radical (leaves borne at the ground level from a reduced stem eg: Radish), Cauline (leaf born on main stem) and ramal (leaf arises from branches), alternate (successive leaves occur on opposite sides), exstipulate (without stipule), petiolate (with petiole) or sessile (without petiole), lyrate (large terminal lobe and small lateral lobes), unicoastate (strong mid-rib and lateral veins runs parallel towards apex), reticulate venation

FLORAL CHARACTERS

Inflorescence: Racemose (younger flowers are found on tip or center) raceme (main axis is long and bears laterally stalked flowers of equal length) or corymb (main axis is short)

Flower: Ebracteate (without bract), ebracteolate (without bracteolate), pedicellate (having pedicel), complete (have four whorls). Actinomorphic (radially symmetrical), bisexual, tetramerous ( number of floral parts in each whorl is four) , hypogynous ( superior ovary), cyclic ( floral parts arranged in whorls)
CALYX- Sepals 4 in two whorls of 2 each, the outer 2 median and inner 2 lateral, polysepalous(sepals are free from one another), imbricate aestivation (irregular overlapping of sepals and petals)

COROLLA- Petals 4, polypetalous (petals free from one another), aestivation valvate(petals meet by their edges but don’t overlap), imbricate (margins overlap irregularly) or sometimes twisted; cruciform (petals places diagonally in the form of a cross in whorls)

ANDROECIUM- Stamens 6 in two whorls, two outer and four inner, polyandrous (stamens are free from each other), tetradynamous (4 inner long and 2 outer short), anther dithecous (anther having two lobes), basifixed (base of anther and top of filament is joined) or dorsifixed (filament is firmly fixed to back of the anther), introrse(anther facing inward)

GYNOECIUM- Carpels 2 (bicarpellary); syncarpous(carpels are fused laterally to form compound pistil); ovary superior ( gynoecium of hypogynous or perigynous flower) ; unilocular ( single chamber) but becomes bilocular( two chambers) later on due to the development of a false septum called replum; placentation parietal ( parietal arrangement of placenta bearing ovules in ovary)

FRUIT- Silliqua (many seeded) or sillicula (few seeded)

SEED- Small, exalbuminous (seeds with an endosperm) with curved embryo and two cotyledons.

DIAGNOSTIC CHARACTERS

1. Plants have pungent sulphur-smelling sap.
2. Leaves are lyrate.
3. Petals 4, with cruciform corolla.
4. Stamens tetradynamous.
5. Ovary unilocular but becomes bilosular due to development of falseseptum called reptum.
6. Placentation parietal.
7. Fruit silliqua or sillicula.

ECONOMICALLY IMPORTANT PLANTS

 

Scientific Name	Common Name
Brassica oleracea var. capitat	Cabbage ( vegetable )
Brassica oleracea var. botrytis	Cauliflower ( vegetable)
Brassica rapa	Turnip (Local name - salgam) (vegetable)
Brassica campetris	Mustard (Local name- tori) (oil)
Raphanus sativus	Radish (vegetable)
Iberis amara	Candytuft (ornamental plants)
Lepidium sativum	Garden cress (Local name- chamsoor) (medicinal)

 

 

Gymnosperm Botany Grade 11 ( Pinus )

 GYMNOSPERMS

General Characters:

Ø They are naked seeded plants i.e. they do not have fruits and seeds are open.

 

Ø They are found from tropical to temperate region.

 

Ø Plant body is sporophyte.

 

Ø The sporophyte plant body is differentiated into root, stem and leaves.

 

Ø Roots are tap roots.

 

Ø Stem is branched and usually two types of branches are present i.e. branch of unlimited growth called long shoots and branch of limited growth called dwarf shoot.

 

Ø Leaves may be of one kind i.e. monomorphic or two kinds i.e. dimorphic (one is green leaf and another is minute scale leaf).

 

Ø Plants has vascular tissues i.e. xylem and phloem.

 

Ø Xylem lacks vessels and phloem lacks companion cells (except Ephedra and Gnetum).

 

Ø Pollination is anemophily and direct.

 

Ø Endosperm is haploid.

 

Ø Double fertilization and triple fusion is absent.

 

Ø Polyembryony is common.

 

PINUS

   

 

Habit: Pinus is xerophytic monoecious plant.

 

Morphology: Plant body is sporophyte differentiated into root, stem and leaves.

 

Root: Root is tap root. Root has symbiotic relationship with fungi called mycorrhiza.

 

Stem: Stem is erect, branched and woody. Stem bears two types of branches i.e. long shoot (which arise from main stem and grows indefinitely) and dwarf shoot (which arise from long shoot and grows for a short time). Long shoot bears only scale leafs while dwarf shoot bears scale as well as foliage leaf.

 

Leaves: Pinus is dimorphic i.e. possess two types of leaves: scale leaves and foliage leaves. Scale leaves are thin, brown, flattened and minute structures which fall off with maturity of branches while foliage leaves are long, needle like and green. The dwarf shoot bearing foliage leaves is called spur.

 

Reproduction:

Pinus is monoecious and bears male and female cones on different branches of same plant. Male cone develops in cluster (15-140) on base of long shoot. They arise from axils of scale leaf and develops later than male cone. Female cones grow very slowly thus female cones of different ages may be seen in acropetal succession in the long shoot.

 

Male cone:

 

Each male cone is small and oval shaped. It arises in clusters from the axis of scale leaves on dwarf shoot. The male cone has a central axis on which 60-150 microsporophylls are spirally arranged around the axis. A single microsporophyll is a membranous stalked structure with a distal expanded roughly triangular sterile part called apophysis.

Each microsporophyll bears two sac-like microsporangia on the abaxial surface. A mature microsporangium consists of a multilayered wall, tapetum and microspore mother cells. Each microspore mother cell by meiotic division produces four microspores or pollen grains.

 

The pollen grains are boat-shaped with monosulcate apertures and are bounded by two concentric wall layers: the outer thick exine and the inner thin intine. The exine on the lateral sides of the pollen is expanded to form two wings (sacci). Pinus is wind-pollinated (anemophilous).

 

 

Female cones

 

They are produced in pairs or in clusters in the axil of the scale leaves. The female cones mature very slowly. The fully matured third year cone is much larger (15-60 cm in length), woody, loose and brown in colour. Here megasporophylls are separated from each other due to the elongation of the cone axis. The female cone is composed of a central axis on which 80-90 megasporophylls, axillary to bract scale/scale leaves, are arrange spirally.

 

The bract scale and ovuliferous scale thus form a seed-scale complex. A single megasporaphyll consists of two types

of scales:

 

(a) a large woody ovuliferous scale or seminiferous scale bearing two ovules on the adaxial surface, and

(b) a bract scale or cone scale on the abaxial surface.

 

Initially, the ovuliferous scale is much smaller than that of bract scale, but after pollination it becomes larger than the bract scale. The ovuliferous scale is a thick, large, woody, roughly triangular and brownish structure. Its upper thick exposed part is known as apophysis.

 

The ovules of Pinus are anatropous, unitegmic and crassinucellate. The single integument is free from the nucellus except at the chalazal end. There is a fairly broad micropylar tube which becomes inwardly curved during prepollination stages and becomes outwardly curved at the time of pollination.

 

Fertilization

The fertilization takes place after one year of pollination. One of the male nuclei fuses with the egg cell and thus a zygote is formed.

Grade-11 Classification of elements and periodicity in properties

 Classification of elements and periodicity in properties

 

Why do we need to classify elements?

Before the 19^th century only a few elements were known so they could be easily studied but with time many more elements were discovered and their compounds were prepared hands it was felt that these elements should be classified into a few groups to make their studies systematic and easier it is expected that a systematic classification will help us in organizing the knowledge and predicting new elements for undertaking further studies

Dobereiner’s triad

Dobereiner’s triad:  In 1829, a German scientist John Dobereiner classified certain elements in a Group of three called triad which had similar chemical properties. Dobereiner’s triad states that “when the elements in a triad were arranged in the order of increasing atomic mass is the atomic mass of the middle element was found to be approximately equal to the arithmetic mean of the other two elements.”

Limitations of Dobereiner’s Triad classification: Dobereiner’s method of classification could arrange only a limited number of elements the idea of trades could not be applied to all elements

Newlands law of octaves

In 1864 John Newlands an English chemist and a musician arranged the elements known at that time in order of increasing atomic mass which state that the properties of each element resembled those of the 8^th element before it and off the 8^th element following it in other words he found that the properties of the elements were repeated at every 8^th element like the death note of an octave in music Newlands called this as the law of octaves

The drawbacks of Newland's classification are he failed badly with dealing with heavier elements beyond calcium. The idea of octaves could not be held for noble gases.

Lothar Meyer's atomic volume curve

In 1869 a German chemist Julius Lothar Meyer plotted a graph of atomic volume versus the atomic mass of various elements he noticed that the elements with similar properties occupied similar positions on the curve for example lithium, sodium, potassium, rubidium, and cesium occupied the big position. It is the first classification of elements which had a definite pattern and periodicity in properties of elements

 

Mendeleev’s classification

The Russian chemist Dimitri Mendeleev arrange the elements in the increasing order of atomic mass. He observed that the elements with similar properties appeared at regular intervals the Mendeleev spirit law states that, “the properties of the elements are a periodic function of their atomic mass.”

In other words, according to this law when the elements are arranged in increasing order of their atomic masses the elements with similar properties are repeated at regular intervals

Mendeleev periodic table:

The elements were known at that time and are arranged in increasing order after atomic mass in a table known as the periodic table. Elements having similar properties were placed in vertical columns called groups and horizontal rows were called periods. When the order of increasing atomic mass was not rigidly followed then he left gaps in his periodic table and even predicted the properties of such elements.

For example, Mendeleev had predicted the properties of elements with an atomic mass of 72 which he named eka-silicon.

Modern Periodic Table

Modern Period Table was designed by Henry Moseley in 1913 A.D. Modern Periodic Table states that “the properties of the elements are the periodic function of their atomic number.”

In Modern Period table: The regular repetition in elements occurs due to periodicity in the outer electronic configuration of elements. Isotope does not need a separate position to the classification of an element based on the classification of elements. The left portion of the periodic table includes highly reactive metals, the right includes highly reactive non-metals and the middle-portion includes transition metals. Elements were divided into s, p, d, and f blocks.