Taxonomy - Palmer ISD
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Taxonomy
Grouping Organisms
What is Taxonomy?
Taxonomy is the branch of biology that groups and
names organisms based on studies of their different
characteristics.
A group of organisms is called a taxon (plural, taxa).
The tool biologists use to accomplish this is
classification.
Taxonomy can change
Biological Classification Systems
Aristotle (384-322 B.C.)
Classified all organisms into two groups:
plants and animals.
Using physical differences he further
classified them into smaller groups.
Why is standardization important?
Makes it easier to identify.
Makes it easier to understand biological
diversity.
Worldwide recognition.
Useful for scientists working in agriculture,
forestry, and medicine.
Beneficial for the economy.
Breaking It Down
Taxonomic ranking ranges from very broad
characteristics to very specific ones.
Taxa from largest to smallest:
Domain,AND THEN:
*Order
* Kingdom,
*Family
*Phylum (similar classes), *Genus
*Class (similar orders),
*Species
(Remember: King Phillip Came Over for Good Soup)
From Domain to Species
Domain – Eukarya (broadest category).
Kingdom – Animalia
Phylum – Chordata (spinal cord).
Class – Mammalia (mammal).
Order – Carnivora
Family – Felidae
Genus – Lynx
Species – Lynx rufus (Bobcat),
Lynx canadensis (Lynx).
Six Biological Kingdoms
Kingdoms
The six kingdoms are determined by similarities such
as: structure, behavior, DNA, location
.
From the most simplistic organisms to the most
complex, the six kingdoms are:
Eubacteria (prokaryotes),
Archaebacteria (prokaryotes),
Protists (eukaryote),
Fungi,
Plants,
Animals.
Phylogeny
Phylogenic classification uses evolutionary history to
classify organisms.
Species that share a common ancestor also share
an evolutionary history.
Reveals evolutionary relationships.
Cladistics is a biological classification system that is
based on phylogeny.
A cladogram is a model showing evolutionary
history.
Cladogram
Dichotomous Key
A tool that helps to classify organisms by
narrowing down choices eventually leading
to the correct answer.
Six Divisions of Life
Viruses
Non-living
Parasitic
Simple structure – Protein coat, capsid,
genetic material, & tails.
Replication Cycles: Lytic & Lysogenic Cycle
Viruses that affect humans – HIV (destroys
T- cell helpers), Herpes, Flu,Chicken Pox, &
Shingles.
Eubacteria & Archaebacteria
Prokaryotes
Biochemical differences
Structural differences
Arose from a common ancestor several billion
years ago.
Similarities & Differences
Archaebacteria
Anaerobic
Extremists
3 Types:
Live in marshes, lake
sediments, & digestive tract of
mammals – produce methane.
Live in extremely
salty water like the Great Salt
Lake in Utah.
Hot, acidic water of sulfur
springs & hydrothermal vents.
Only asexual reproduction.
Eubacteria
Heterotrophs
Live almost everywhere
Autotrophs – Chemosynthetic
& Photosynthetic
(Cyanobacteria).
Asexual reproduction – binary
fission.
Sexual reproduction –
conjugation.
Adaptations
Bacteria
Beneficial
Help to fertilize fields –
nitrogen fixation.
Recycle nutrients on Earth decomposers .
Produce foods – cheese &
yogurt.
Aids in digestion – providing
vitamins & enzymes.
Produce antibiotics that
destroy other types of bacteria.
Harmful
Bacteria cause disease in
plants & animals.
Can enter through openings in
the skin, mouth, or nose.
Can be carried in food, water,
or air.
Can interfere with normal
bodily functions.
Releases toxins that attack the
host.
Turn to page 498. Superbugs
Defy Drugs.
Protists
The most diverse organisms of all kingdoms.
Unicellular or multicellular.
Are all Eukaryotes
Heterotrophic or autotrophic
Reproduce sexually, asexually, or through spores
depending on the type.
Cause diseases – malaria & sleeping sickness.
Heterotrophic Protists
Animal-like (heterotrophic) protists are called protozoans.
Grouped according to the way they move or grouped together
because they are parasites.
Four main groups: Amoebas, Flagellates, Ciliates, &
Sporazoans.
Amoebas – live in water, some are an important part of marine
plankton.
Flagellates – Parasites that cause disease (sleeping sickness).
Beneficial to termites.
Ciliates – paramecium, reproduces by conjugation.
Sporazoans – Produce by spores, all are parasites, inernal
parasite, lives off of host in areas that has a nearby food
supply. Ex –malaria.
Autotrophic Protists
Plantlike (autotrophs) Ex. – algae. Diatoms –
phytoplankton. Lack roots, stems, or leaves.
Autotrophs produce much of the oxygen in Earth’s
atmosphere.
Some are similar to fungi (slime molds, water molds,
& downy mildews). Decompose a significant amount
of organic material.
Algae are classified into six phyla: euglenoids,
diatoms, & dinoflagellates are single cellular. Red,
brown, & green are multicellular.
Fungi
Grow best in moist, warm environments.
Most are multicellular.
Basic structural unit is hyphae.
Cell walls made of chitin.
Some cause diseases & are poisonous.
Are decomposers.
Heterotrophs – Extracellular digestion.
Reproduce asexually by fragmentation, budding, or
producing spores; sexually when haploid hyphae
from compatible mycelia grow together.
Plants
Multicellular eukaryote.
Thick cell walls made of cellulose.
Autotrophs
Photosynthesis - Needs water, sunlight, & carbon
dioxide.
Has stems, leaves, & roots.
Sexual reproduction through seeds or spores.
Vascular (most plants. Grasses, & trees) &
nonvascular hornworts & liverworts).
Animals
Eukaryotic, multicellular organisms.
Cells have cell membranes, instead of cell walls.
Heterotrophic
Sexual reproduction
Specialized cells that form tissues & organs.
Specialized cells that enable them to sense & seek
out food & mates, & allow them to identify & protect
themselves from predators.
Symmetry