Evolution and diversity of organisms

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Transcription:

Evolution and diversity of organisms

Competency Levels - 7 3.1.1 Uses the theories of origin of life and natural selection to analyze the process of evolution of life 3.2.1 Constructs hierarchy of taxa on scientific basis 3.2.2 Explores the diversity of organisms within Domain Bacteria 3.2.3 Explores the diversity of organisms within the Kingdom Protista. 3.2.4 Explores the diversity of organisms within the Kingdom Plantae 3.2.5 Explores the diversity of organisms within the Kingdom Fungi. 3.2.6 Explores the diversity of organisms within the Kingdom Animalia 3.2.7 Uses the characteristic features to study organisms belonging to Phylum Chordata

Contents: Competency Level 3.1.1 (Page 13) Origin of life on earth Conditions for life on earth Geological eons and eras of evolution Eons: Hadean, Archaean, Proterozoic, Phanerozoic Eras Archaeozoic Paleozoic Mesozoic Cenozoic Evolution of biological diversity Biochemical evolution Protocell Origin of photosynthetic organisms Origin of Eukaryotes Diversification of eukaryotes

Contents: Competency Level 1 Contd. Theories of evolution Theory of Lamarck Darwin Wallace theory Theory of natural selection Neo-Darwinism

Learning outcomes for competency level 3.1.1. (Page 13) Student should be able to: describe the conditions on earth before life Describe the evolution of biological diversity since the biochemical evolution State major events of four major geological eons and the evolution of biodiversity through different eons and eras explain theory of Lamarck and theory of natural selection relate theory of Neo-Darwinism to natural selection accept the importance of evolution for sustaining life in accordance with changing environment

Origin of life on earth Conditions on early Earth made the origin of life possible Experiments simulating possible early atmospheres have produced organic molecules from inorganic precursors. Amino acids, lipids, sugars, and nitrogenous bases have also been found in meteorites. Amino acids and RNA nucleotides polymerize when dripped onto hot sand, clay, or rock. Organic compounds can spontaneously assemble into protocells, membrane-bounded droplets that have some properties of cells. The first genetic material may have self-replicating, catalytic RNA. Early protocells containing such RNA would have increased through natural selection.

Protocell: An abiotic precursor of a living cell that had a membranelike structure and that maintained an internal chemistry different from that of its surroundings.

Eons Hadean eon: approximately 4,600-3850 million years ago Archaean eon: approximately 3850 2500 million years ago Proterozoic eon: 2500 542 million years ago Phanerozoic eon: From 542 million years to date First three eons lasted about 4 billion years. The Phanerozoic eon, roughly the lasted about half billion years. This eon encompasses most of the time that animals have existed on Earth. It is divided into three eras: Paleozoic: 542-251 million years ago. Mesozoic: 251 65.5 million years ago, Cenozoic : From 65.5 million years ago to date

What happened during these eons and eras Hadean eon Origin of Earth Archaean eon Concentration of atmospheric oxygen begins to increase Oldest fossils of cells (prokaryotes) appear Oldest known rocks on Earth s surface Proterozoic eon Diverse algae and soft-bodied invertebrate animals appear Oldest fossils of eukaryotic cells appear

Paleozoic era Marine algae abundant; colonization of land by diverse fungi, plants, and animals Diversification of bony fishes First tetrapods and insects appear Amphibians dominant Origin and radiation of reptiles; Origin of most present-day groups of insects Sudden increase in diversity of many animal phyla (Cambrian explosion) Extinction of many marine and terrestrial organisms Extensive forests of vascular plants First seed plants appear Diversification of early vascular plants

Mesozoic era Flowering plants (angiosperms) appeared and diversified; Dinosaurs evolved, radiated and became abundant. But during the latter part, many groups of organisms, including dinosaurs, became extinct Cone-bearing plants (gymnosperms) dominated Origin of mammals

Cenozoic era Major radiation of mammals, birds, and pollinating insects Dominance of angiosperm increased and their radiation continued Origins of many primate groups Appearance of bipedal human ancestors Origin of genus Homo

Some Guidelines: Use the recommended text. Prepare a new set of notes paying attention to the contents as well as intended learning outcomes. Some are high level ILOs. Give local examples to show the characters Specimens, pictures can be used. Do not give a table with characters. Improve the enthusiasm of children to learn Biology; Learn diversity of living organisms. Make learning interesting using practical work

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