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FIS 1074 BIOLOGI 1 Teaching-learning and assessment strategy Formative Written examination 25% 40% Quiz 5% Individual Assignment 5% Group Assignment 5% Summative Written examination 60% 60% TOTAL 100%
UNIT 1: THE SCIENCE OF BIOLOGY 1.1 Definition 1.2 Biology and its branches 1.3 Historical breakthroughs – Darwin and evolution 1.4 Scope of biology and career options Syed Mohd Fauzi Said Hussin FIS 1074 Biology I
1.1 Definition  Biology (bios, life; logos, knowledge) is a science devoted to the study of living organisms.  The study of life extends from the microscopic scale of the molecules and cells that make up organisms to the global scale of the entire living planet.  But what is life? We recognize life by what living things do – reproduction, growth and development, response to the environment (sensitivity), evolutionary adaptation, homeostasis, energy processing, feeding, movement, breathing or respiration, excretion.  The aim of biology must ultimately be to explain the living world in terms of scientific principles, although appreciating that organisms behave in ways which often seem beyond the capabilities of their component parts.  Posing questions about the living world and seeking science-based answers are the central activities of biology.
1.1 Definition (cont’d)  Biology is an ongoing scientific inquiry (how scientists raise and attempt to answer questions) about the nature of life.  Biology is a subject of enormous scope and biological knowledge is expanding at an ever-increasing rate – memorizing the factual details of this huge subject is not a reasonable option.  Science has progressed by breaking down complex subjects of study into their component parts so that today there are numerous branches of biology.  Reductionism – the reduction of complex systems to simpler components that are more manageable to study is a powerful strategy in biology.  This approach to study seeks fundamental understanding by looking at parts rather than the whole.
SCIENCE: A WAY OF KNOWING SScciieennccee iiss aabboouutt aa ddiiffffeerreenntt qquueessttiioonn:: “What are the facts?” It advances by research, producing evidence And nnoo--oonnee’s opinion matters! (only the evidence) SScciieennttiiffiicc iinnqquuiirriieess aallwwaayyss hhaavvee aa ccoorrrreecctt aanndd iinnccoorrrreecctt aannsswweerr,, eevveenn iiff wwee ddoonn’’tt kknnooww iitt yyeett
SCIENTIFIC METHOD COMPONENTS  Scientific method begins with observation.  Ability to observe is extended by using instruments, e.g. microscope enables microbiologists to see objects that could never be seen by the naked eye.  Understanding is expanded further by taking advantage of the knowledge and experiences of other scientists. E.g. look up past studies on the Internet, library (journals, books, etc.) or write and speak to other researchers.  Following observation is inductive reasoning – using creative/critical thinking to combine isolated facts into cohesive whole.  Testable statement is formulated. A possible explanation for a natural event is called hypothesis. Hypothesis is based on existing knowledge (much more informed than a mere guess).  Only hypotheses that can be tested by experiments or further observations should be considered. The results of an experiment are referred to as the data.  Data is analyzed by means of statistical analysis to detect relationships in the data that may not be obvious on the surface.  Data must be analyzed in order to reach a conclusion about whether a hypothesis is supported or not.  Conclusions from many different but related experiments may lead to the development of a scientific theory – which are accepted explanations for how the world works. Observation>inductive reasoning>hypothesis>experiments>statistical analysis>conclusion>scientific theory
SCIENTIFIC METHOD COMPONENTS What if the hypothesis is rejected? SSTTAARRTT AAGGAAIINN.. In this way, scientists are skeptics who always pressure one another to keep investigating.
SCIENTIFIC METHOD COMPONENTS The skeptic is the seeker of the truth The route of Galileo: (perspective of a true skeptic) Test theory objectively ↓↓ Find hard evidence ↓↓ Convince the scientific community Galileo Galilei made original contributions to the Scientific Revolution through innovative experiment – which cuts to the heart of what science is.
QUESTION TIME TASK: Use the components of scientific method (as explained in the previous slides) to create a “Flow Diagram” of a controlled study.
1.2 Biology and its branches Molecular Level of Organization  BIOCHEMISTRY  Study of chemical substances occurring in living organisms and their reactions  BIOENERGETICS  Biology of energy transformation and exchanges within and between living things and their environment  GENETICS  Study of hereditary factors from parents to offspring in living organisms  GENETIC ENGINEERING  The deliberate changing of the genetic makeup of living cells by transferring a fragment of DNA from one organism to another  MOLECULAR BIOLOGY  Deals with the ultimate physicochemical organization of living matter, especially with the molecular basis of inheritance and protein synthesis.
1.2 Biology and its branches Cellular Level of Organization  BACTERIOLOGY  Study of bacteria and their effect on organisms.  MICROBIOLOGY  Concerned with microorganisms such as protists, bacteria, viruses and parasites.  CYTOLOGY  Study of cells and their processes
1.2 Biology and its branches Tissues, Organs and Systems  ANATOMY  Deals with the structure of living things and the interrelationship of parts.  EMBRYOLOGY  Concerned with the early stages in the development of an animal form.  HISTOLOGY  Microscopic study of tissue structure.  MORPHOLOGY  Investigation of external anatomical structures or form.  PHYSIOLOGY  Deals with functions and life processes in organisms.
1.2 Biology and its branches Organisms and Population  ETHOLOGY  Study of animal behavior.  MYCOLOGY  Study of fungi.  PARASITOLOGY  Study of organisms that live on or within other plants or animals.  BOTANY  The study of plants.  ZOOLOGY  Study of animals.  ENTOMOLOGY  Study of insects and their life cycles.  ORNITHOLOGY  Study of birds and their behaviour, economic importance.
1.2 Biology and its branches Communities and Ecosystems  ECOLOGY  Deals with organisms and their relationships with each other and the environment.  MARINE BIOLOGY  Study of the oceans and ecosystems within them.  SYNECOLOGY  Structure, distribution, development of ecological communities.  LIMNOLOGY  Study of the freshwater ecosystem.
1.2 Biology and its branches Applied Biology  AGRICULTURE  Utilizes principles of botany in growing food plants/crops.  FORESTRY  Establishment and conservation of trees and shrubs, the forest ecosystem.  TAXONOMY  Science of identifying and classifying organisms.  VETERINARY MEDICINE  Involved with animal care and feeding, prevention and cure of animal diseases.  WILDLIFE MANAGEMENT  Deals with the conservation and maintenance of wildlife resources.
1.2 Biology and its branches Interdisciplinary Studies  ANTHROPOLOGY  Study of man in relation to distribution, origin, classification and relationships of races, physical character, environment and social relations and culture.  BIOENGINEERING  Application of biology/medical science in engineering principles or equipment (i.e. artificial organ).  BIOPHYSICS  Applied physical principles and methods in biological problems.  BIOTECHNOLOGY  Application of biology in other fields such as engineering systems and processes.
QUESTION TIME TASK: Choose an area of Biology that interests you (please choose one field only) and device a career plan on how you will pursue your ambition in that field.
1.3 Historical breakthroughs – Darwin and evolution Pioneers of evolutionary theory: Charles Darwin, 1809 – 1882 (top) and Alfred Russel Walace, 1823 – 1913 (below) independently discovered the mechanism of natural selection.
1.3 Historical breakthroughs – Darwin and evolution (cont’d)  Charles Darwin deserves primary credit for the theory of evolution.  He developed existing ideas about descent with modification while providing much evidence in support of them.  He was also the first to perceive natural selection as the primary process that drives evolution.  Darwin’s insights were inspired by the research he carried out during a 5-year voyage he took around the world on the ship HMS Beagle, beginning in 1831.  English naturalist Alfred Russell Wallace is the co-discoverer of natural selection as the principal process underlying evolution.
1.3 Historical breakthroughs – Darwin and evolution (cont’d) Two principles lie at the core of the Theory of Evolution: 1. Common descent with modification • Particular groups or species of living things can undergo modification in successive generations • All living things on Earth ultimately are descended from a single, ancient ancestor 1. Natural selection • Traits that confer a reproductive advantage to individual organisms grow more common in populations of organisms over successive generations
1.4 Scope of biology and career options Interactions of Organisms Classification of Life Physiology Diversity and Evolution of Organisms of Organisms The Structure of Life SCOPE OF BIOLOGY Fig 1.2 Scope of biology
1.4 Scope of biology and career options (cont’d) The Structure of Life Molecular biology : the study of biology at a molecular level and concerns with understanding the interactions between systems of a cell, overlaps with other areas of biology i.e. genetics and biochemistry Cell biology: studies the physiological properties of cells i.e. behaviors, interactions, environment Genetics: the science of genes, heredity and variation of organisms, provides important tools in the investigation of the function of gene Developmental biology: studies the process by which organisms grow and develop Physiology of Organisms Studies the mechanical, physical and biochemical processes of living organisms by attempting to understand how all the structure function as a whole Anatomy is an important part of physiology and considers how organ systems function and interact Diversity and Evolution of Organisms Evolutionary biology: origin and descent of species, as well as their change over time Botany and zoology are the two major traditionally taxonomically-orientated disciplines included in evolutionary biology Also includes paleontologists who use fossils to answer questions about the mode and tempo of evolution as well as theoreticians in population genetics and evolutionary theory
1.4 Scope of biology and career options (cont’d) Classification of Life The dominant classification system is called Linnaean taxonomy – includes ranks and binomial nomenclature How organisms are named is governed by international agreements such as:  International Code of Botanical Nomenclature (ICBN)  International Code of Zoological Nomenclature (ICZN)  International Code of Nomenclature of Bacteria (ICNB)  International Code of Virus Classification and Nomenclature (ICVCN) Interactions of Organisms Standardized by BioCode Ecology: studies the distribution and abundance of living organisms and the interactions between organisms and their environment Ethology: studies animal behaviour and is particularly concerned with the evolution of behaviour and the understanding of behaviour in terms of the theory of natural selection
1.4 Scope of biology and career options (cont’d)  Biomedical Research, Cancer Research, Cell/Molecular Biology, Genetics, Developmental Biology  Neuroscience  Ecology, Evolutionary Biology  Applied Ecology, Environmental Management, Forestry  Clinical Medicine, Dentistry, Podiatry, Optometry, Veterinary Medicine  Pharmacy  Nursing  Physical Therapy, Occupational Therapy
Occupational titles related to Biology  Oceanographer  Bioethicist, Wildlife Biologist, Ecologist  Agronomist  Biostatistician  Information Resource Analyst  Food Bacteriological Technician  Fish and Wildlife Officer  Horticulturalist  Pollution Control Inspector  Medical Laboratory Supervisor  Intellectual Property Lawyer Studying Biology teaches you to ask questions, judge evidence and solve problems – skills that will be of use in whatever career you choose in the future.
Occupational titles related to Biology (cont’d)  Bacteriology Professor  Scientific Consultant  Health Policy Research Analyst  Medical Librarian  Journalist – Science Magazine/Newspaper  Botanical Garden Interpreter  Pharmaceutical Sales Representative  Research Scientist  Higher Education Lecturer Remember, that your scientific, communication and organizational skills are important – that’s what get you a job!
Thank you

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Unit 1 the science of biology

  • 1. FIS 1074 BIOLOGI 1 Teaching-learning and assessment strategy Formative Written examination 25% 40% Quiz 5% Individual Assignment 5% Group Assignment 5% Summative Written examination 60% 60% TOTAL 100%
  • 2. UNIT 1: THE SCIENCE OF BIOLOGY 1.1 Definition 1.2 Biology and its branches 1.3 Historical breakthroughs – Darwin and evolution 1.4 Scope of biology and career options Syed Mohd Fauzi Said Hussin FIS 1074 Biology I
  • 3. 1.1 Definition  Biology (bios, life; logos, knowledge) is a science devoted to the study of living organisms.  The study of life extends from the microscopic scale of the molecules and cells that make up organisms to the global scale of the entire living planet.  But what is life? We recognize life by what living things do – reproduction, growth and development, response to the environment (sensitivity), evolutionary adaptation, homeostasis, energy processing, feeding, movement, breathing or respiration, excretion.  The aim of biology must ultimately be to explain the living world in terms of scientific principles, although appreciating that organisms behave in ways which often seem beyond the capabilities of their component parts.  Posing questions about the living world and seeking science-based answers are the central activities of biology.
  • 4. 1.1 Definition (cont’d)  Biology is an ongoing scientific inquiry (how scientists raise and attempt to answer questions) about the nature of life.  Biology is a subject of enormous scope and biological knowledge is expanding at an ever-increasing rate – memorizing the factual details of this huge subject is not a reasonable option.  Science has progressed by breaking down complex subjects of study into their component parts so that today there are numerous branches of biology.  Reductionism – the reduction of complex systems to simpler components that are more manageable to study is a powerful strategy in biology.  This approach to study seeks fundamental understanding by looking at parts rather than the whole.
  • 5. SCIENCE: A WAY OF KNOWING SScciieennccee iiss aabboouutt aa ddiiffffeerreenntt qquueessttiioonn:: “What are the facts?” It advances by research, producing evidence And nnoo--oonnee’s opinion matters! (only the evidence) SScciieennttiiffiicc iinnqquuiirriieess aallwwaayyss hhaavvee aa ccoorrrreecctt aanndd iinnccoorrrreecctt aannsswweerr,, eevveenn iiff wwee ddoonn’’tt kknnooww iitt yyeett
  • 6. SCIENTIFIC METHOD COMPONENTS  Scientific method begins with observation.  Ability to observe is extended by using instruments, e.g. microscope enables microbiologists to see objects that could never be seen by the naked eye.  Understanding is expanded further by taking advantage of the knowledge and experiences of other scientists. E.g. look up past studies on the Internet, library (journals, books, etc.) or write and speak to other researchers.  Following observation is inductive reasoning – using creative/critical thinking to combine isolated facts into cohesive whole.  Testable statement is formulated. A possible explanation for a natural event is called hypothesis. Hypothesis is based on existing knowledge (much more informed than a mere guess).  Only hypotheses that can be tested by experiments or further observations should be considered. The results of an experiment are referred to as the data.  Data is analyzed by means of statistical analysis to detect relationships in the data that may not be obvious on the surface.  Data must be analyzed in order to reach a conclusion about whether a hypothesis is supported or not.  Conclusions from many different but related experiments may lead to the development of a scientific theory – which are accepted explanations for how the world works. Observation>inductive reasoning>hypothesis>experiments>statistical analysis>conclusion>scientific theory
  • 7. SCIENTIFIC METHOD COMPONENTS What if the hypothesis is rejected? SSTTAARRTT AAGGAAIINN.. In this way, scientists are skeptics who always pressure one another to keep investigating.
  • 8. SCIENTIFIC METHOD COMPONENTS The skeptic is the seeker of the truth The route of Galileo: (perspective of a true skeptic) Test theory objectively ↓↓ Find hard evidence ↓↓ Convince the scientific community Galileo Galilei made original contributions to the Scientific Revolution through innovative experiment – which cuts to the heart of what science is.
  • 9. QUESTION TIME TASK: Use the components of scientific method (as explained in the previous slides) to create a “Flow Diagram” of a controlled study.
  • 10. 1.2 Biology and its branches Molecular Level of Organization  BIOCHEMISTRY  Study of chemical substances occurring in living organisms and their reactions  BIOENERGETICS  Biology of energy transformation and exchanges within and between living things and their environment  GENETICS  Study of hereditary factors from parents to offspring in living organisms  GENETIC ENGINEERING  The deliberate changing of the genetic makeup of living cells by transferring a fragment of DNA from one organism to another  MOLECULAR BIOLOGY  Deals with the ultimate physicochemical organization of living matter, especially with the molecular basis of inheritance and protein synthesis.
  • 11. 1.2 Biology and its branches Cellular Level of Organization  BACTERIOLOGY  Study of bacteria and their effect on organisms.  MICROBIOLOGY  Concerned with microorganisms such as protists, bacteria, viruses and parasites.  CYTOLOGY  Study of cells and their processes
  • 12. 1.2 Biology and its branches Tissues, Organs and Systems  ANATOMY  Deals with the structure of living things and the interrelationship of parts.  EMBRYOLOGY  Concerned with the early stages in the development of an animal form.  HISTOLOGY  Microscopic study of tissue structure.  MORPHOLOGY  Investigation of external anatomical structures or form.  PHYSIOLOGY  Deals with functions and life processes in organisms.
  • 13. 1.2 Biology and its branches Organisms and Population  ETHOLOGY  Study of animal behavior.  MYCOLOGY  Study of fungi.  PARASITOLOGY  Study of organisms that live on or within other plants or animals.  BOTANY  The study of plants.  ZOOLOGY  Study of animals.  ENTOMOLOGY  Study of insects and their life cycles.  ORNITHOLOGY  Study of birds and their behaviour, economic importance.
  • 14. 1.2 Biology and its branches Communities and Ecosystems  ECOLOGY  Deals with organisms and their relationships with each other and the environment.  MARINE BIOLOGY  Study of the oceans and ecosystems within them.  SYNECOLOGY  Structure, distribution, development of ecological communities.  LIMNOLOGY  Study of the freshwater ecosystem.
  • 15. 1.2 Biology and its branches Applied Biology  AGRICULTURE  Utilizes principles of botany in growing food plants/crops.  FORESTRY  Establishment and conservation of trees and shrubs, the forest ecosystem.  TAXONOMY  Science of identifying and classifying organisms.  VETERINARY MEDICINE  Involved with animal care and feeding, prevention and cure of animal diseases.  WILDLIFE MANAGEMENT  Deals with the conservation and maintenance of wildlife resources.
  • 16. 1.2 Biology and its branches Interdisciplinary Studies  ANTHROPOLOGY  Study of man in relation to distribution, origin, classification and relationships of races, physical character, environment and social relations and culture.  BIOENGINEERING  Application of biology/medical science in engineering principles or equipment (i.e. artificial organ).  BIOPHYSICS  Applied physical principles and methods in biological problems.  BIOTECHNOLOGY  Application of biology in other fields such as engineering systems and processes.
  • 17. QUESTION TIME TASK: Choose an area of Biology that interests you (please choose one field only) and device a career plan on how you will pursue your ambition in that field.
  • 18. 1.3 Historical breakthroughs – Darwin and evolution Pioneers of evolutionary theory: Charles Darwin, 1809 – 1882 (top) and Alfred Russel Walace, 1823 – 1913 (below) independently discovered the mechanism of natural selection.
  • 19. 1.3 Historical breakthroughs – Darwin and evolution (cont’d)  Charles Darwin deserves primary credit for the theory of evolution.  He developed existing ideas about descent with modification while providing much evidence in support of them.  He was also the first to perceive natural selection as the primary process that drives evolution.  Darwin’s insights were inspired by the research he carried out during a 5-year voyage he took around the world on the ship HMS Beagle, beginning in 1831.  English naturalist Alfred Russell Wallace is the co-discoverer of natural selection as the principal process underlying evolution.
  • 20. 1.3 Historical breakthroughs – Darwin and evolution (cont’d) Two principles lie at the core of the Theory of Evolution: 1. Common descent with modification • Particular groups or species of living things can undergo modification in successive generations • All living things on Earth ultimately are descended from a single, ancient ancestor 1. Natural selection • Traits that confer a reproductive advantage to individual organisms grow more common in populations of organisms over successive generations
  • 21.
  • 22. 1.4 Scope of biology and career options Interactions of Organisms Classification of Life Physiology Diversity and Evolution of Organisms of Organisms The Structure of Life SCOPE OF BIOLOGY Fig 1.2 Scope of biology
  • 23. 1.4 Scope of biology and career options (cont’d) The Structure of Life Molecular biology : the study of biology at a molecular level and concerns with understanding the interactions between systems of a cell, overlaps with other areas of biology i.e. genetics and biochemistry Cell biology: studies the physiological properties of cells i.e. behaviors, interactions, environment Genetics: the science of genes, heredity and variation of organisms, provides important tools in the investigation of the function of gene Developmental biology: studies the process by which organisms grow and develop Physiology of Organisms Studies the mechanical, physical and biochemical processes of living organisms by attempting to understand how all the structure function as a whole Anatomy is an important part of physiology and considers how organ systems function and interact Diversity and Evolution of Organisms Evolutionary biology: origin and descent of species, as well as their change over time Botany and zoology are the two major traditionally taxonomically-orientated disciplines included in evolutionary biology Also includes paleontologists who use fossils to answer questions about the mode and tempo of evolution as well as theoreticians in population genetics and evolutionary theory
  • 24. 1.4 Scope of biology and career options (cont’d) Classification of Life The dominant classification system is called Linnaean taxonomy – includes ranks and binomial nomenclature How organisms are named is governed by international agreements such as:  International Code of Botanical Nomenclature (ICBN)  International Code of Zoological Nomenclature (ICZN)  International Code of Nomenclature of Bacteria (ICNB)  International Code of Virus Classification and Nomenclature (ICVCN) Interactions of Organisms Standardized by BioCode Ecology: studies the distribution and abundance of living organisms and the interactions between organisms and their environment Ethology: studies animal behaviour and is particularly concerned with the evolution of behaviour and the understanding of behaviour in terms of the theory of natural selection
  • 25. 1.4 Scope of biology and career options (cont’d)  Biomedical Research, Cancer Research, Cell/Molecular Biology, Genetics, Developmental Biology  Neuroscience  Ecology, Evolutionary Biology  Applied Ecology, Environmental Management, Forestry  Clinical Medicine, Dentistry, Podiatry, Optometry, Veterinary Medicine  Pharmacy  Nursing  Physical Therapy, Occupational Therapy
  • 26. Occupational titles related to Biology  Oceanographer  Bioethicist, Wildlife Biologist, Ecologist  Agronomist  Biostatistician  Information Resource Analyst  Food Bacteriological Technician  Fish and Wildlife Officer  Horticulturalist  Pollution Control Inspector  Medical Laboratory Supervisor  Intellectual Property Lawyer Studying Biology teaches you to ask questions, judge evidence and solve problems – skills that will be of use in whatever career you choose in the future.
  • 27. Occupational titles related to Biology (cont’d)  Bacteriology Professor  Scientific Consultant  Health Policy Research Analyst  Medical Librarian  Journalist – Science Magazine/Newspaper  Botanical Garden Interpreter  Pharmaceutical Sales Representative  Research Scientist  Higher Education Lecturer Remember, that your scientific, communication and organizational skills are important – that’s what get you a job!