General Biology (BIO 10)

General Biology (BIO 10)

MWF 9:00 – 9:50

Exam 2

Study Guide

Exam Format:

50 (2 pts each) multiple choice questions + extra credit (1 pt each) multiple choice questions.

Study Hints:

Study your Top Hat questions – you just may see them again!

Read through each chapter carefully. Pay attention to the objectives at the start of the chapter, the review and the practice questions.

Review your notes and fill out any parts that you missed.

Make sure to get a copy of someone’s notes for any days you missed.

Study vocabulary so that you can recognize words used in context.

Make sure that you understand the concepts that we discussed.

Chapter 14 Evolution and Natural Selection

Natural selection – definition, role of heritable variation

Types of natural selection (disruptive, directional, stabilizing)

Genetic drift

Darwin’s work, finches

Evidence for evolution – different types

Homologous vs analogous

Hardy Weinberg – assumptions & what happens when we violate them?

Populations evolve

Examples of adaptation

How species form

Chapter 15 How we name living things

Taxonomy

Classification

Domain, Kingdom, Phylum …….Species

Binomial nomenclature – scientific name

What is a species?

Three domains & six kingdoms of life

Chapter 16 Prokaryotes:

What is a bacterium? Shapes?

Bacteria vsarchaea

Prokaryote vs Eukaryote

How do bacteria obtain energy? Different modes

Viruses

Structure, mode of infection

Chapter 17Protists

Origin of Eukaryotic cells (organelles)

Origin of nucleus & ER, and mitochondria & chloroplasts

Advantages of sexual vs asexual reproduction

Movement in protists (pseudopods, cilia & flagella)

What is a protest? Major groups (like Ciliates, flagellates)

Protists that led to plants & to animals

Chapter 18 Fungi

How are fungi classified (mode of sexual reproduction)

Reproduction in zygomycetes, basidiomycetes, and ascomycetes – characteristic structures

Imperfect fungi

Chytrid fungi – killing frogs

Ecological roles of fungi

What is a lichen?

Mycorrhizae?

Chapter 19 Evolution of animal phyla

Choanoflagellates ------ Animals

5 features that animals have in common

**6 key transitions in body plan - examples

tissues (none, diploblastic, triploblastic)

Symmetry (radial vs bilateral)

Protostome vsdeuterstome (developmental features)

Body cavity (NOT the gut) Acoelomate, pseudocoelomate, coelomate

Lophotrochozoavsecdysozoa

Major phyla – what are they & which of the above features do they have?

Porifera

Cnidaria

Platyhelminthes

Nematoda

Mollusca

Annelida

Arthropoda

Echinodermata

Chordata

Chapter 20 History of the vertebrates

What is a vertebrate?

Classes – major features:

Actinopterygii

Sarcopterygii

Chondrichthyes

Amphibia

Reptilia

Aves

Mammalia

Important fossils:

Jawless fishes

Placoderms

Relationship between birds & dinosaurs

Chapter 21 How humans evolved

Primates

Apes – contrast with monkeys

Hominids (Human, gorilla, chimp & fossil ancestors)

Humans & chimps sister species

Hominins (humans & ancestors)

Major human ancestors:

Homo habilis

Homo ergaster

Homo erectus

Homo sapiens

Australopithicus

Chapter 22 The animal body and how it moves

Innovations in body plan – radial vs bilateral symmetry, segmentation,, molting, protostome vsdeuterstome

Epithelial tissue (shapes & simple vs stratified)

Connective tissue – what do they have in common? Types

Muscle tissue – three types and characteristics

Nerve tissue – anatomy of a cell, CNS vs PNS

Skeletal system – axial vs appendicular

Joints

Types of skeletal systems

Muscles – structure, how do they work? Sliding filament model

Why can muscles only pull, not push?

Chpater 23 Circulation

Open vs closed circulatory systems

Compnents – blood vessels, arteries, veins, capillaries

Structure of the heart,

Path of blood flow through the heart

Double loop circulation

The lymphatic system

Components of blood

Circulation in fish, amphibians, reptiles, mammals

Sphincters & valves – what do they do?

Role of hemoglobin

How are oxygen and carbon dioxide transported in the blood?

Chapter 24 Respiration

Types of respiratory systems – flatworms, insects, fish, birds, mammals

define respiration

How do gills work? Structure & function

How do lungs work? Structure & function

Causes of lung cancer mutations in which genes? Smoking?

Chapter 25 Digestion

Types of food molecules and enzymes that break down each

Macromolecules & components

Types of digestive systems in different phyla

Gastrovascular cavity

Alimentary canal

Incomplete vs complete digestive systems

What happens in each part of the digestive system?

Mouth physical & chemical (amylase)

Esophagus

Stomach (acidic, protein digestion – pepsin)

Small intestine – digestion (enzymes from pancreas) & absorption

Large intestine storage and compaction of waste

Major steps in digestion: Eating food & mechanical breakdown, digestion, absorption, evacuation

Accessory digestive organs

Pancreas, gall bladder, liver

Chapter 26 Maintaining internal environment

Homeostasis

Negative feedback loop

Osmoregulation

Protoniphridia, nephridia, kidneys

Kidney structure & urinary system organs

Nephron structure

Mammals & birds can produce hyperosmotic urine

Kidney function: Pressure filtration, reabsorption of water, selective reabsorption, tubular secretion, more reapsorption of water.

Different types of nitrogenous waste – ammonia, urea, uric acid