Classification grouping of different types of organisms based upon similarities in structure and evolutionary relationships
WHY CLASSIFY? In order to more easily study the unity and diversity of living organisms in an organized manner, biologists classify organisms This means that they group organisms together based on their common characteristics Physical structure is often the primary basis for biological classification
Early classification Animals & Plants With the discovery of the MICROSCOPE in the 1600’s many new organisms were discovered This was the basis for the change in the classification system
BIONOMIAL NOMENCLATURE Carolus Linneaus devised binomial nomenclature (2 names in Latin) Genus- Species ex. scientific name of humans..... Homo sapiens Homo is the genus name.... sapiens is the species name Both have to be printed in italics or underlined -Genus is ALWAYS capitalized
MODERN CLASSIFICATION SYSTEM: KINGDOM PHYLLUM CLASS ORDER FAMILY GENUS SPECIES
HOW TO REMEMBER THAT: KING PHILIP CAME OVER FOR GOOD SOUP
KINGDOMS: The 6 Kingdom System is based on the following criteria: 1. Presence or absence of a nuclear membrane 2. Unicellularity versus multicellularity 3. Type of nutrition
Archaebacteria most primitive and often live in extreme environments LIVE IN UNUSUALLY HARSH ENVIRONMENTS unicellular and no nucleus This is the Proposed 6 th KINGDOM There are 3 types: salt loving, heat loving & methane loving
Kingdom Monera bacteria and blue green algae have a primitive cell structure no organized nucleus or nuclear membrane Three basic types of bacteria Coccus- Baccillus- Spirillum-
Kingdom Protista Predominately unicellular organisms with plant or animal- like characteristics examples include protozoa and all algae except the blue-green have a true nucleus and nuclear membrane Classification of Protists: Most protozoa are motile (CAN MOVE) and are divided into phyla based on their means of LOCOMOTION
Animal-like Protists Often animal like Protists are called PROTOZOA They can live in fresh or salt water, in the soil, or in the bodies of other organisms Plant-like Protists: Plant-like Protists are commonly called ALGAE They contain chloroplasts and are therefore AUTOTROPHIC
Spirogyra plant-like Protists that contains thread-like filaments of chloroplasts They may reproduce asexually by MITOSIS or sexually by CONJUGATION
Plant and Animal like Protists The Euglena : exhibits both animal-like and Plant- like characteristics contains chloroplasts, which are involved in PHOTOSYNTHESIS contains a flagellum, which is used for LOCOMOTION euglena may be autotrophic or heterotrophic depending on the environment In a light environment euglena would be AUTOTROPHIC In a dark environment the euglena would be HETEROTROPHIC
KINGDOM FUNGI examples include yeasts, molds, and mushrooms cells are usually organized into branched, multinucleate filaments which absorb digested food from the external environment Mushrooms are made up of a network of tubes called HYPHAE
Kingdom Plantae multicellular - possess chloroplasts and cell walls make their own food - PHOTOSYNTHESIS Reproduce sexually – can be asexual Vascular plants are more advanced - they have evolved specialized tissues, xylem, which is involved in structural support and water conduction, and phloem, which functions in food conduction Nonvascular plants are usually no more than an inch or two in height because they do not have adequate support, which is provided by vascular tissues to other plants, to grow bigger
ONION CELLS FROM LAB – NOTE THE BOXY SHAPE OF PLANT CELLS & THE DISTINCT CELL WALL
Kingdom Animalia multi-cellular organisms which ingest their food – HETEROTROPHS Reproduce sexually
Viruses not classified in a kingdom contain genetic material (DNA) but lack cell structures only carry on the life function of reproduction They must have a host (another living organism) to be able to reproduce This causes disease in the host (Ex: colds, rabies, AIDS, flu)
Papillomavirus is a DNA virus that causes warts Bacteriophages invade the host cell, take over the cell, and begin replicating viruses, eventually lysing or bursting the host cell, releasing the new viruses to infect additional cells POLIO VIRUS