Biology Homework Police Hand out Pamishan creatures Dichotomous Key.

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Presentation transcript:

Biology Homework Police Hand out Pamishan creatures Dichotomous Key

Finishing 1.3

Main characteristics of Kingdoms Autotrouph: an organism that obtains energy by making its own food, usually using sunlight What is an example of an autotrouph? Heterotroph: an organism that consumes other oganisms to obtain energy. What is an example of a heterotrough?

Domains & Kingdoms – the must know table 3 Domains

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya 3 Domains

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya 3 Domains 6 Kingdoms

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaea 3 Domains 6 Kingdoms

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia 3 Domains 6 Kingdoms

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia 3 Domains 6 Kingdoms Cell Type

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote 3 Domains 6 Kingdoms Cell Type

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote 3 Domains 6 Kingdoms Cell Type

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote 3 Domains 6 Kingdoms Cell Type # of cells

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular 3 Domains 6 Kingdoms Cell Type # of cells

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular 3 Domains 6 Kingdoms Cell Type # of cells

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular 3 Domains 6 Kingdoms Cell Type # of cells

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular 3 Domains 6 Kingdoms Cell Type # of cells Example

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular Maple TreeMushroomRabbit 3 Domains 6 Kingdoms Cell Type # of cells Example

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit 3 Domains 6 Kingdoms Cell Type # of cells Example

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit Autotroughs & Hetertroughs 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit Autotroughs & Hetertroughs AutotroughsHetertroughs 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit Autotroughs & Hetertroughs AutotroughsHetertroughs 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition Reproducing method

Domains & Kingdoms – the must know table BacteriaArchaeaEukarya BacteriaArchaeaProtistaPlantaeFungiAnimalia Prokaryote Eukaryote Unicellular Unicellular & Multicellular MulticellularMostly Multicellular Multicellular StaphylococcusSulfolobus archaea AmoebaMaple TreeMushroomRabbit Autotroughs & Hetertroughs AutotroughsHetertroughs Asexual Asexual & sexualSexual 3 Domains 6 Kingdoms Cell Type # of cells Example Nutrition Reproducing method

Clarifying Domains & Kingdoms DomainBacteriaArchaeaEukarya KingdombacteriaArchaeaProtistaPlantaeFungiAnimalia How are the three domains different from each other? Bacteria and Archaebacteria are both prokaryotic but archaebacteria are often considered extremophiles (they can live in extremely harsh environments)

Section 1.4: Classifying Types of Biodiversity

Species diversity: the variety and abundance of species in an area Ecosystem diversity: the variety of ecosystems in the biosphere Genetic diversity: variety of heritable characteristics (genes) in a population of interbreeding individuals Gene Pool: genetic diversity within a population Population: a group of individuals of the same species in a particular area and time

Genetic Diversity Does genetic diversity provide resistance to disease? Does genetic diversity support conservation biology?

Section 2.1: Classifying Types of Biodiversity

Activity 1.3 Sustainability and Diversity – Find a Balance? Complete Activity 1.3, page 33 – Procedure 1, 3.

Prokaryotes & Eukaryotes The study of cells is an important step in understanding the diversity of life Eubacteria and archaea are prokaryotes Protists, plants, fungi and animals are eukaryotes

Interactive cell models 1. Examine the eukaryotic (animal and plant cell) and prokaryotic cell (bacteria cell) 2. What are some of the differences between the two types of cells?

Viruses – 4 facts about them Viruses differ from both prokaryotic and eukaryotic cells Viruses must invade cells and become functionally dependent on the workings of the host cell (what type of cells could the host be?) Viruses are not capable of living independently outside cells Viruses are not cellular – they have no cytoplasm, membrane-bound organelles, or cell membranes Question: do scientists consider viruses to be cells?

Viruses Virus a structure containing DNA or RNA strands surrounded by a protective protein coat; can’t live independently of cells Consequences: Viruses can cause disease in plants and _________, which can affect ____________, species and ecosystems. Well known viruses: ? Did you see viruses in the classification of life? If not, is it an organism?

In-class/Homework Read page 57 Complete Activity 2.1: Comparing Prion Diseases