24
Lesson content
• how biologists classify organisms• Scientific name • Binomial naming system
Classification
• 1.7 million of the world's species of animals, plants and algae, as of 2010.
• Why is there a need to group/classify organism in the world?
• Why is there a need to give a scientific name to each of the known species?
Dichotomous Keys
Dichotomous Keys
• Tools to help in the of organisms. Each object is named by using a flow chart that splits into choices at each cross road.
• Example: the shark species classification exercise
classfication
two
The bigger picture • Carolus Linnaeus came out a system that classifies all organisms.• Species are classified according to a taxonomic hierarchy, where one large
group is subdivided into subgroups, which in turn are divided into smaller groups.
KingdomPhylumClassOrderFamilyGenusSpecies
There are 5 large kingdoms; Monera (bacteria), Protoctists, Fungi, Plants and animals
Domain
Question: Would two species belonging to the same family in the same order as well?
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Cetacea
Family: Delphinidae
Genus: Orcinus
Species: orcaIs it troublesome ?
So the scientific name for a killer whale is :
Binomial nomenclature system (2 names)
• Generic name
• Specific name
My binomial scientific name is:
Amphiprion percula
Generic nameSpecific name
Binomial naming system for scientific names
• When talking about a species we don’t give the full classification, just the species and the genus, e.g. an earthworm is Lumbricus terrestrius. The genus is written first (starts with an upper case letter), followed by the species name (starts with a lower case letter). The entire name is written in Italics. If you are handwriting names, rather than attempting Italics, the name is underlined.
•
Binomial naming system for scientific names
• Using this binomial system (2 names) it is easy to tell the difference between similar species, e.g. the common domestic cat is Felix catus, whereas a wild cat is Felix sylvestris, a lion is Felix leonis and a lynx is Felix lynx.
Lesson objectives
• show an understanding of the functions of the different parts of a cell, including the nucleus which contains genetic material that determines heredity, cytoplasm, mitochondria, and cell membrane (pg 17 - 24).
• state how biologists classify organisms and able to use the binomial system of naming organisms. (pg 11)
Home work
• Read up the following 2 notes :
• Notes: summary of prokaryotes vs eukaryotes • Notes: viruses
Challenging questions
Lesson content
• Prokyotes vs Eukaryotes (bacteria cell) vs (animal or plant cell)
• Viruses • Why viruses are not considered a living
organism
Prokaryotic Cellprokaryote
Single circular DNA
Made of protein and sugar
Basis for comparison Prokaryotic Cells Eukaryotic Cells
Material for cell wall: made of protein and sugar made of cellulose (plants only
Eukaryotic Cell
Eg:animal cell
Viruses
Lesson objectives
• state the differences between prokaryotic and eukaryotic cells.
• compare the components of a cell wall in plant cells and bacterial cells.
• describe the characteristics of living organisms and explain why viruses are considered non-living things.
• know the general features of viruses and learn to recognize photomicrographs of viruses and bacteria.
Homework
• Read up the notes and textbook on relevant chapters
• Report to biolab next lesson (no goggles needed)
