Intro Materials

 

Calendar 2011-12 calendar with tutorial September-December.doc

Intro Letter Intro Letter 2011.doc

Biology 2 Syllabus Biology 2 Syllabus 2011-2012.doc

Biology 2 Syllabus revised to reflect Cambell/Reese Biology book Biology 2 Syllabus 2011-2012 revised CampbellReese.doc

Biology Big Ideas Big Ideas to pass out sp11.doc

PSSA Standards for Biology Academic Standards for Biological Sciences Jan 2010b.doc

Keystone Biology Proficiency Level Descriptors Keystone_Biology_PLD_060310.pdf

How to Behave in Class & Be Successful (or Unsuccessful) in Biology Class TheRuleQuizWithInspriationF11.ppt

Bar Charts High School Success FD000017 High School Success.pdf
 

Before we begin specific course material we will take a crash course in Latin & Greek prefixes, suffixes & word roots. Student will rotate through 6 learning stations. Activity will culminate in a matching quiz. Based on the website: factmonster latin & greek. See other resources in the Science Literacy Latin & Greek tab. 

 

How to Teach Biology 2

In Biology 2 we will begin with classification of life, then study viruses and the six kingdoms. Remaining time will be spent covering some of what you learned in Biology in greater depth.

I. Review of Evolution & Classification

(Miller/Levine Chapter 18 and Campbell/Reese 1.4-1.6 & 15.14-15.19)

http://www.wadsworthmedia.com/biology/0495119814_starr/big_picture/ch17_bp.html

(Evidence of Evolution, How Species Originate, Big Evolutionary Events, Organizing the Evidence)

Campbell/Reese:             1.4 The unity of life, all forms of life have common features

                                                1.5 The diversity of life can be arranged into three domains

                                                1.6 Evolution explains the unity & diversity of life

_01 Lecture Presentation slides 20-50 (DVD 1)

http://websites.pdesas.org/mgolenberke/2011/9/5/351214/file.aspx

Campbell/Reese Study Guide 1.4-1.6

http://websites.pdesas.org/mgolenberke/2011/9/6/351313/file.aspx

9/12 – MOSART Testing for STEM Academy & STEM Careers for Students video

 

Brightstorm: http://www.brightstorm.com/science/biology/evolution/darwins-theory-of-evolution/ (6:52)

Darwin's Theory of Evolution states that groups of organisms will undergo genetic changes over time due to the process of natural selection. Darwin's theory says that organisms which are most fit for their environment survive while unfit organisms die, changing the genetics of a species until that species is well adapted for its environment. Variations in a species' genetics that lead to evolution often come from mutations.

9/12 (Monday)

Biology Junction Taxonomy PowerPoint (38) & Questions (82)

9/13 (Tuesday)

Biology Corner Taxonomy Notes

Brightstorm Classification

Classification Overview (4:26)

In Biology, classification is the way to organize living things based on evolutionary relationships. Traditionally, we organize species into the standard hierarchy of kingdom, phylum, class, order, family and genus.

 

18.1 Finding Order in Diversity (18.1 PowerPoint)

à pairs read through lesson summary

à create a concept map of the nine bolded words plus the term “species”

Describe the goals of binomial nomenclature & systematic

Identify the taxa in the classification system devised by Linnaeus

Kim Brown Taxonomy PowerPoint to review (1-19) & introduce dichotomous keys (20-28)(28 slides)

Homework: 18.1 Study Workbook

8.1 only:

(all of chapter 18)

9/14 (Wednesday)

Lab 31: Classification

Prepare a classification scheme of some objects

Place these objects into kingdoms, phyla & classes

Give names to each kingdom, phyla & class

BioJunction Taxonomy Crossword

9/15 (Thursday)

Practice together using a dichotomous key – classification of aliens

Lab 32: Using And Making a Biological Key

Use a key to identify fourteen shark families

Study the method used in making statements of a key

Construct your own key which will identify organisms appearing on page 128

9/16 (Friday)

18.2 Modern Evolutionary Classification (18.2 PowerPoint)

à pairs read 18.2 lesson summary

à study 5 vocabulary – quick quiz

Explain the difference between evolutionary classification & Linnaean classification

Describe how to make & interpret a cladogram

Explain the use of DNA sequences in classification

Homework:18.2 Study Workbook

18.2 only:

(all of chapter 18)

 

Cladistics:

Brightstorm Classification

• Phylogenetic Tree (2:40)

A phylogenetic tree is a branching diagram that shows evolutionary relationships. These trees, often compared to family trees, are constructed using a variety of evidence generally using DNA. In phylogenetic trees, sometimes the lengths of the branches represent time since a group split from each other.

 

• Cladistics (2:10)

Cladistics is the method of classifying organisms into groups called clades. Clades consist of an ancestor organism and all of it's decedents and one branch is the tree of life. Cladograms are diagrams that show relationships within a clade.

• 17.2 Classification Based on Evolutionary relationships – (Interactive Reader) read together
• Understanding Evolution: http://evolution.berkeley.edu/evolibrary/article/evo_03
• (Tutorial) Laptop Lab: How to Build a Cladogram – do together

http://ccl.northwestern.edu/simevolution/obonu/cladograms/Open-This-File.swf

Short  Cladogram Labs (worksheets)

à Chapter 17 Quick Lab

à biology corner cladogram analysis

à How to Make a Cladogram (a little harder)

Computer Lab: What Did TRex Taste Like?

(teacher lesson plan)

(student page)

TRex Lesson Document:

Monday September 26 – include Brightstorm videos below throughout PPT

18.3 Building the Tree of Life – 18.3 lesson overview 25 slides

à pairs read 18.3 lesson summary

Name the six kingdoms of life as they are currently identified

Explain what the tree of life represents    

18.3 & Chapter Review Study Workbook

18.3 only:

Vocab Review only: http://websites.pdesas.org/mgolenberke/2011/9/7/351670/file.aspx

(all of chapter 18)

 

Campbell/Reese              15.14 Phylogenies are based on homologies in fossils & living organisms

                                                15.15 Systemics connects classification with evolutionary history

                                                15.16 Shared Characteristics are used to construct phylogenetic trees

                                                15.17 An organism’s evolutionary history is documented in its genome

                                                15.18 Molecular clocks help track evolutionary time

                                                15.19 Constructing a tree of life is a work in progress

_15 Lecture Presentation slides 86-115 (DVD 1) – saved but need DVD to access embedded video

Campbell/Reese Study Guide 15.14-15.19

http://websites.pdesas.org/mgolenberke/2011/9/6/351314/file.aspx

15_5 Class Schemes.swf (on DVD 1 in prepared PowerPoint folder)

http://websites.pdesas.org/mgolenberke/2011/9/5/351216/file.aspx

Brightstorm Classification

• Plant Kingdom (5:52)

Like the Animal Kingdom, the Plant Kingdom is also a major part of the Linnaean system of classification that includes organisms like trees, bushes and grasses. The plants in this kingdom can be called autotrophs because they perform photosynthesis to provide food for themselves. These organisms also provide oxygen for humans and animals to survive.

• Animal Kingdom (3:44)

Unlike the organisms of the Archaea or Monera Kingdoms, the Animal Kingdom consists of multi-cellular, heterotrophic organisms that feed on other organisms to survive. Some of the characteristics of the animals in this kingdom are being able to develop throughout their lives, move independently and reproducing.

• Protist Kingdom (3:28)

The protist kingdom is a classification that includes a diverse group of eukaryotic organisms. Typically, protists reproduce asexually via mitosis and range from unicellular to multicellular organisms. In the protist kingdom, there are two main groups: protozoa (which are generally heterotrophic) and algae (which are generally autotrophic). Organisms in the protozoa group include things like amoebas, slime molds and paramecium while common organisms in the algae group include green algae, brown algae, diatoms and euglena.

• Fungi Kingdom (2:52)

The Fungi Kingdom consists of plant-like organisms with small nuclei such as yeast, bread mold and mushrooms. Many of the organisms in the Fungi Kingdom can cause disease, but some are helpful as they are used to make things like antibiotics and yeast. Most of the organisms in this kingdom are parasitic and receive nutrients from surfaces they live on.

• Bacteria Kingdom (2:56)

The Bacteria Kingdom, formerly called monera, are single celled prokaryotic organisms. Bacteria encompass two domains: eubacteria and archaea. Eubacteria and archaea have very different cell walls. They are also distinguished by their DNA - the DNA of archaea has histone proteins while that of eubacteria does not.

Six Kingdoms of Life Activity – quick shockwave activity

 

Monday October 3

go through 60 pages at end of text: diversity of life – fill out biodiversity chart

Coloring Pages: 6.5 The Classification Scheme, 6.6 The Five Kingdoms

 

Extra review of Dichotomous Keys & Cladograms Background & Activities: McGraw Hill Lab: Taxonomic Classification & Phylogenetic Trees http://www.mhhe.com/biosci/pae/zoology/cladogram/

Tuesday October 4

è  go over 18.3 SW

è  finish coloring pages

 

Wednesday October 5

Chapter 18 Test

 

 

Biology 2 – Chapter 20 (Viruses & Prokaryotes)

Video Introduction to Microbiology Series: http://www.free-ed.net/free-ed/science/biology/microbiol01/microBiol02_VOD.asp

 

Chapter 20 Study Workbook

 

Day 1 – begin Microbiology

1. Microbiology Quick Study (Bar Charts) or Spark Notes
2. MicroMatters Pamphlet
3. Homework: 20.1 Study Workbook – due Wednesday

 

**Extra Credit: Virus Crossword

 

Day 2 – 20.1 Viruses

Explain how viruses reproduce

Explain how viruses cause infection

1. Virus PowerPoint Kim Brown (notes: mine & KB combined)
2. BiologyJunction Virus Concept Map
3. Virus Coloring Book page (on back of map)

 

Day 3 – Viruses II

1. Mader Notes: 21.1 Viruses

(20.1 : Viruses Lesson Overview– 45 slides)

1. Understanding Viruses Video – Part 1 (23 minutes)

 

Day 4 – Viruses III

1. fill in Lytic & Lysogenic cycles diagram

key:

1. Understanding Viruses Video – Part 2 (22 minutes)
2. Homework: 20.1 Viruses Study Workbook

 

Day 5 – Viruses IV

1. Review Some good websites:
   1. Cells Alive Bacteriophage http://www.cellsalive.com/phage.htm
   2. The Big Picture Book of Viruses http://www.virology.net/Big_Virology/BVHomePage.html
2. Biology Junction Virus PowerPoint & Notes

 

Day 6 – Viruses V

1. Sumanasinc Animations:

http://www.sumanasinc.com/webcontent/animations/content/influenza.html

http://www.sumanasinc.com/webcontent/animations/content/hiv.html

http://www.sumanasinc.com/webcontent/animations/content/herpessimplex.html

1. BiologyJunction HIV Infection Coloring Page – finish for homework
2. Go over homework

 

Day 7 – Virus Review

• Viral Diseases Chart & Giant Microbes (www.giantmicrobes.com)

– may use “adopt a microbe” to illustrate

• Virus Crossword

 

Virus Test – two parts:

1. Viral Diseases
2. Fill in Mader Notes

 

**Extra Credit Prokaryotes Crossword

 

20.2 Prokaryotes

Explain how the two groups of prokaryotes differ

Describe how prokaryotes vary in structure & function

Explain the role of bacteria in the living world

Tuesday 11/1

1. Bacteria PowerPoint & Notes (Kim Brown)
2. Shapes of Bacteria – use dichotomous key to identify bacteria

 

Wednesday 11/2

1. BiologyJunction Concept Map
2. Bacteria Coloring Book page (on back of map)

 

Thursday 11/3

1. Understanding Bacteria Video Part 1 (22 minutes)
2. Understanding Bacteria Video Part 2 (22 minutes)
3. 20.2 Study Workbook – due Monday (11/7)

 

Friday 11/4

*finish Understanding Bacteria

1. BiologyJunction PowerPoint & Notes
2. 20.2 Study Workbook – due Monday (11/7)

 

Monday 11/7

1. finish biojunction ppt & notes
2. 20.2 – due today

 

Tuesday 11/8

1. Go to: http://www.ilovebacteria.com/ (meet the microbes)
2. Mader Notes: 21.2 Prokaryotes

(20.2 Prokaryotes Lesson Overview – 38 slides)

 

Wednesday 11/9

1. Mader Notes: 21.3 Bacteria

 

20.3 Viral & Bacterial Diseases

 

Thursday 11/10 & Monday 11/14 (no class Friday – Seniors on field trip) – Bacterial Diseases

1. Bacterial Diseases Sheet

– read through together & look at giant microbes (www.giantmicrobes.com)

(20.3 Diseases Caused by Bacteria & Viruses  Lesson Overview – 42 slides)

**”some bacterial diseases” worksheet**

1. 20.3 Study Workbook (& ch 20 vocab review) – go over at end of class Monday

Explain how bacteria cause disease

Explain how viruses cause disease

Define emerging disease & explain why emerging diseases are a threat to human health

 

Tuesday 11/15: Bacterial Disease Quiz

**Virtual Interactive Bacteriological Laboratory**http://learn.chm.msu.edu/vibl/index.html

Another Virtual Lab: http://dept.kent.edu/biosim/

 

Entire Bacteriology Lab

 

Wednesday 11/16

Bacteriology Labs part 1: Use of the Light microscope Oil Immersion

To gain experience working with the light microscope & the oil immersion lens

Observe prepared slides of various shaped bacteria

 

 

Thursday 11/17

Bacteriology Labs part 2: Handling & Examining Culture: Practicing Aseptic Technique & Smear Preparation

Purpose: to practice making pure cultures and using aseptic technique

 

Friday 11/18 – Bacteria Test

 

Monday 11/21

Bacteriology Labs part 3: Simple Staining

Purpose: To practice basic staining technique and to begin to observe bacterial shapes

 

Tuesday 11/22 & Wednesday 11/23

Bacteriology Labs part 4: Methods to Study & Identify Different Types of Bacteria

Part A - Making a Sterile Transfer

Demonstrate the correct procedure of making a sterile transfer of a bacterial culture from one test tube to another.

PART B – Streaking an Agar Petri Dish (Streak Plate Method of Isolating Bacteria):

Demonstrate the procedure for streaking an agar plate with a bacterial culture.

To use a technique to separate bacterial colonies from one another

                Sumanasinc Animation: Streak Plate Procedure

                http://www.sumanasinc.com/webcontent/animations/content/streakplate.html

Part C – Identifying Bacteria by Shape

Identify bacteria according to three basic shapes

Part D – Technique: making a Hanging-Drop Mount

Demonstrate the technique of making a hanging-drop mount.

Part E – Gram-Staining Bacteria

Demonstrate the process of making a Gram stain

Differentiate between gram-positive & Gram-negative bacteria

 

 

 

Biology 2 – Chapter 21 – Protists & Fungi

 

********************************************

Biology 2 – Chapter 21 – Protists & Fungi

 

 

Intro to Protists

 

21.1 Protist Classification lesson overview – The Saga Continues

 

1. Pond Water in a Jar
2. Microbiology Phylogeny Chart: Protist

 

w/ protist concept map (biology corner)on back (fill in together)

 

1. Protist Classification Key (Biology Junction)
2. Notes & PowerPoints:

 

Biology Junction PowerPoint: Protist Types

 

Kim Brown Protist (notes) PowerPoint (26 slides – lots of pics)

 

Kim Brown (& my)Protist notes – with “Popular Protists” diagrams

 

Biology Corner Protist Notes & Biology Corner Parasitic Protists & Biology Corner Plantlike Protists

 

1. 5.       21.1 Lesson Overview PowerPoint (18 slides)

 

Explain what a protist is

 

Describe how protists are related to other eukaryotes

 

1. Biology Coloring Workbook Coloring Pages: Protozoa, Slime Molds, Simple Algae, Kingdom Fungi

 

7. 21.1 Study Workbook & 21.2 Study Workbook

 

 

 

 

 

More Protists

 

21.2 Protist Structure & Function Lesson Overview (27 slides)

 

Describe the various methods of protist locomotion

 

Describe how protists reproduce

 

1. Mader Protist Notes (long) & Mader Protist PowerPoint
2. Mader Protist Quiz (hardcopy – word document)
3. Protist Video (20 minutes) (pink shirt guy)
4. Hippocampus Protists: Protista, Algae, Protozoa, Fungi-like Protists
5. Real (BioCorner or BiologyJunction)

 

Coloring Pages: Amoeba, Euglena & Paramecium AND

 

Concept Maps: Sarcodines, Ciliates & Flagellates

 

1. WH Freeman Chapter 27 (Diversification of Eukaryotes) Interactive Summary – kind of complex
2. Check 21.1 & 21.2 homework

 

 

 

Videos of real Protists:

 

            Paramecium: http://micro.magnet.fsu.edu/moviegallery/pondscum/protozoa/paramecium/index.html

 

            Amoeba: http://micro.magnet.fsu.edu/moviegallery/pondscum/protozoa/amoeba/index.html

 

            Eugelna: http://micro.magnet.fsu.edu/moviegallery/pondscum/protozoa/euglena/rostrifera/index.html

 

 

 

Protist Lab

 

Comparing Animal-like Protists (Protozoa) & Plant-like Protists (Algae)

 

• rotate through 4 protozoa & 2 algae tables, reading info, looking at models/diagrams & scope sildes
• complete data sheet
• Live Protist Lab:

 

Examine live cultures of Amoeba, Euglena & Paramecium to compare sizes, methods of movement & feeding

 

 

 

 

 

21.3 The Ecology of Protists

 

Describe the ecological significance of photosynthetic protists

 

Describe how heterotrophic protists obtain food

 

Identify the symbiotic relationships that involve protists

 

1. 21.3 Lesson Overview (39 slides)
2. BioCorner: Protozoa Article, MC Review Sheet  & Kim Brown Protista Reading Assignment (underline)

 

 

 

Fungi

 

1. Fungus Videos: Discovery Clip from Campbell (2 minutes) & World of Fungus (14 minutes)
2. Fungi Coloring Book Page
3. Refer back to Microbiology Phylogeny Chart: Fungus
4. Kim Brown Fungus PowerPoint (49 slides – lots of pics) – & notes
5. Fill In Fungi Concept Map (w/ concept file on back)
6. Fungus Coloring (BiologyJunction)
7. 21.4 Study Workbook & Chapter 21 Vocab Review

 

 

 

 

 

More Fungus (21.4 Fungi)

 

Identify the defining characteristics of fungi

 

Describe how fungi affect homeostasis

 

1. Biology Junction Fungus Notes – two versions
2. Hippocampus: Introduction to the Fungi, Taxonomy & Phylogeny, Fungal Ecology, Fungus & People
3. WH Freeman Chapter 30 Interactive Summary (includes an animated tutorial)
4. Begin Fungus Lab: Examining Three Forms of Fungi

 

à look at mushrooms, bread molds & yeast

 

Compare similarities & differences in yeasts, mushrooms & molds

 

Locate and identify the principle parts of the typical mushroom

 

1. 21.4 Lesson Overview (32 slides)

 

 

 

Even More Fungi

 

1. Fungus WebQuest – finish tomorrow
2. Mader  Fungus Notes (4 pages) & Mader Fungus PowerPoint

 

 

 

Review Crossword

 

 

 

More Information on Protists: Biology Corner Protist Notes (with videos) http://www.biologycorner.com/lesson-plans/phyla/kingdom-protista/ Biology Corner Protista Notes – Animallike http://www.biologycorner.com/bio1/protista.html Biology Corner Parasitic Protists Notes (Animallike) http://www.biologycorner.com/bio1/parasitic-protists.html Biology Corner Plantlike Protists Notes http://www.biologycorner.com/bio1/notes_plantlikeprotists.html Biology Corner PowerPoint http://docs.google.com/present/view?id=dfh23k67_1349gtz3n9g7

 

other stuff:

 

Culturing Yeast Cells Lab?

 

**BioCorner: Concept Map

 

 

 

 

 

Chapter 21 Test