5.5 Classification Taxonomy Taxonomy is the scientific
discipline that attempts to identify, classify and name living
things. IB Assessment Statements Outline the binomial system of
nomenclature List seven levels in the hierarchy of taxa: Kingdom,
Phylum, Class, Order, Family, Genus, and Speciesusing an example
from two different kingdoms for each level Distinguish between the
following phyla of plants, using simple external recognition
features: Bryophyta, Filicinophyta, Coniferophyta, and
Angiospermophyta Distinguish between the following phyla of
animals, using simple external recognition features: Porifera,
Cnidaria, Platyhelminthes, Annelida, Mollusca, and Arthropoda Apply
and design a key for a group of up to eight organisms. Binomial
Nomenclature System (Two Names) Swedish naturalist (1735), Carolus
Linnaeus, was the first to consolidate and popularize the naming of
organisms in his book Systema Naturae by listing and explaining the
binomial nomenclature system. Why Classify Organisms? 1.Show
evolutionary links between organisms. 2.Predict characteristics
shared by members of a group. 3.Create a universal system whereby
each language, culture, or region has the same name for one
organism. The pill bug or woodlouse are common names. The
scientific name is Armadillidium vulgare. They are the exact same
organism. Rules for Writing Scientific Names Homo sapiens 1. Notice
that the scientific name is italicized. 2. Homo is the genus name.
3. sapiens is the epithet. 4. Both words indicate the species name.
5. If writing the scientific name for a species, the name must be
underlined. Scientific names/terms are often derived from Latin or
Greek words. The Hierarchy of Classification 3 Domains and 5
Kingdoms The 6 Kingdom System Kingdom Bacteria: The bacteria
Kingdom Archaea: The extremophiles Kingdom Plantae: The plants
Kingdom Animalia: The animals Kingdom Fungi: The fungi and molds
Kingdom Protista: The protists and algae An Evolutionary
Perspective The Seven Taxa (Nested) Hierarchy Species that are
similar are grouped into a genus Genera that are similar are group
into a family Families that are similar are grouped into an order
Orders that are similar are grouped into a class Classes that are
similar are grouped into a phylum Phyla that are similar are
grouped into a kingdom Kingdoms that are similar are grouped into
domains Two Examples Plant Phyla We can classify these phyla
according to vegetative characteristics and reproductive
characteristics. 1.Bryophyta: Includes plants of very short stature
such as mosses. 2.Filicinophyta: Includes ferns and horsetails.
3.Coniferophyta: Includes cedars, junipers, firs and pine trees.
4.Angiospermophyta: Includes all plants which make flowers and
which have their seeds surrounded by fruit. Key Features (Plant
Phyla) PhylumRoots, Leaves, StemsMax Height Reproductive Struct.
Bryophytes (Mosses & Liverworts) No roots rhizoids ( root-like
hairs). Mosses have simple leaves/stems. Liverworts consists of a
flattened thallus. 0.5 metersSpores produced in a capsule. The
capsule develops at the end of a stalk. Filicinophytes (Ferns)Have
roots, leaves and short non-woody stems. Leaves usually curled in
bud and often pinnate divided into pairs of leaflet. 15
metersSpores are produced in sporangia, usually on the underside of
the leaves. Coniferophytes (Conifers)Include shrubs or trees with
roots, leaves, woody stems. Leaves are often narrow with thick,
waxy cuticle. 100 metersSeeds produced. Seeds develop ovules on
surface of scales of female cones. Male cones produce pollen.
Angiospermophytes (Flowering Plants/Grasses) Flowering plants are
very variable but usually have roots, leaves, stems. The stems of
flowering plants that develop into shrubs and trees are woody. 100
metersSeeds are produced. The seeds develop from ovules inside
ovaries. The ovaries are part of flowers. Fruits develop from the
ovaries., to disperse the seed. Self-Assessment A. Roots, leaves
and short non-woody stems. Leaves are usually curled up in bud and
pinnate. Spores are produced in sporangia, usually on the underside
of the leaves. (15 meters) B. Have roots, leaves and stems. Usually
narrow leaves (needles). Male cones produce pollen while seeds will
develop on the surface of the scales of female cones. (100 meters)
C. Have roots, leaves, stems and flowers. Seeds develop inside
ovaries (part of the flower). Fruits develop from ovaries. (100
meters) D. No roots but root hairs called rhizoids. Simple
leaves/stems. Spores produced in capsules. (0.5 meters) Animal
Phyla None of the animals in these phyla have a backbone. They are
invertebrates. 1.Porifera: Consists of sponges. 2.Cnidaria:
Includes sea jellies (jellyfish) and coral polyps.
3.Platyhelminthes: Includes the flatworms. 4.Annelida: Made up of
segmented worms. 5.Mollusca: Includes snails, clams and octopuses.
6.Arthropoda: Includes insects, spiders and crustaceans. Key
Features Phylum and ExamplesBody SymmetryFeatures Porifera
(Sponges)No clear SymmetryAttached to a surface. Pores throughout
body for diffusion. No mouth or anus. Platyhelminthes-Flatworms
(Planaria, Tapeworms, Liverflukes) Bilaterally SymmetricalFlat
bodies. Unsegmented. Mouth but no anus. Mollusca (Slugs, Snails,
Clams, Squids) Bilaterally SymmetricalMuscular foot and mantle.
Shell usually present. Segmentation not visible. Mouth and anus.
Cnidaria (Jellyfish, Corals, Sea Anemones) Radially
SymmetricalTentacles. Stinging cells called nematocysts. Mouth but
no anus. Annelida (Earthworms, Leeches, Ragworms) Bilaterally
SymmetricalBristles often present. Segmented. Mouth and anus.
Arthropoda (Insects, Spiders, Crabs, Millipedes) Bilaterally
SymmetricalHard exoskeleton made of chitin. Segmented. Jointed
appendages. Radial vs. Bilateral Symmetry Nematocysts
Self-Assessment E. Bilaterally symmetrical, segmented, exoskeleton,
jointed appendages. F. Bilaterally symmetrical, Flat bodies,
Unsegmented, Mouth but no anus. G. Radially symmetrical, Tentacles,
Stinging cells called nematocysts, Mouth but no anus. H.
Bilaterally symmetrical, Bristles often present, Segmented, Mouth
and anus. I. Muscular foot and mantle, Shell usually present,
Segmentation not visible, Mouth and anus. J. No clear symmetry,
Attached to its surface, Pores throughout body, No mouth or anus.
Using and Making Dichotomous Key How to Use a Dichotomous Key:
1.Look at the first section of the key which has a pair of
sentences describing a characteristic. 2.Look at the organism to
see if the particular characteristic described in the first line is
present in the organism. 3.If the answer is yes, go to the end of
its line and find the number of the next pair of statements to look
at, follow the number given and continue until the end. 4.If the
answer was no, go to the second statement just below the first and
that one should be true. Go to the end of its line and find the
number of the next pair of statements to look at, follow the number
given and continue until the end. 5.Keep going until the end of the
line has a name instead of a numberif you have answered each
question correctly, that will be the name of your organism. A
Simple Dichotomous Key OR TRY THIS ONEONE Designing Your Own
Dichotomous Key LEARN HOW TO MAKE A DICHOTOMOUS KEY HEREHERE
