各式各樣的生物

病毒

A Borrowed Life  

26.1 A virus consists of a nucleic acid

surrounded by a protein coat

The Discovery of Viruses: Scientific Inquiry 

Structure of Viruses 

• Viral Genomes  
• Capsids and Envelopes  
•  

26.2 Viruses replicate only in host

cells

General Features of Viral Replicative Cycles 

Replicative Cycles of Phages  

• The Lytic Cycle  
• The Lysogenic Cycle  
• Bacterial Defenses Against Phages  

Replicative Cycles of Animal Viruses  

• Viral Envelopes  
• Viral Genetic Material  

Evolution of Viruses  

26.3 Viruses and prions are formidable

pathogens in animals and plants  

Viral Diseases in Animals 

Emerging Viruses  

Viral Diseases in Plants  

Prions: Proteins as Infectious Agents  

原核

Masters of Adaptation  

27.1 Structural and functional

adaptations contribute to

prokaryotic success

Cell-Surface Structures 

Motility  

• Evolutionary Origins of Bacterial Flagella  

Internal Organization and DNA  

Reproduction  

27.2 Rapid reproduction, mutation,

and genetic recombination

promote genetic diversity in

prokaryotes

Rapid Reproduction and Mutation  

Genetic Recombination 

• Transformation and Transduction  
• Conjugation and Plasmids  
  • The F Factor in the Chromosome  
  • R Plasmids and Antibiotic Resistance  
  •  

27.3 Diverse nutritional and metabolic

adaptations have evolved in

prokaryotes

The Role of Oxygen in Metabolism 

Nitrogen Metabolism  

Metabolic Cooperation  

27.4 Prokaryotes have radiated into

a diverse set of lineages

An Overview of Prokaryotic Diversity 

Bacteria  

Archaea

27.5 Prokaryotes play crucial roles

in the biosphere

Chemical Recycling  

Ecological Interactions  

27.6 Prokaryotes have both beneficial

and harmful impacts on humans  

Mutualistic Bacteria  

Pathogenic Bacteria 

Prokaryotes in Research and Technology  

真核

Living small  

28.1 Most eukaryotes are single-celled

organisms

Structural and Functional Diversity in Protists  

Four Supergroups of Eukaryotes  

Endosymbiosis in Eukaryotic Evolution  

Plastid Evolution: A Closer Look  

28.2 Excavates include protists with

modified mitochondria and

protists with unique flagella

Diplomonads and Parabasalids  

Euglenozoans 

• Kinetoplastids  
• Euglenids  
•  

28.3 SAR is a highly diverse group

of protists defined by DNA

similarities

Stramenopiles 

• Diatoms  
• Golden Algae  
• Brown Algae  
• Alternation of Generations  

Alveolates  

• Dinoflagellates  
• Apicomplexans  
• Ciliates  

Rhizarians  

• Radiolarians  
•  Forams 
• Cercozoans  
•  

28.4 Red algae and green algae are

the closest relatives of plants

Red Algae  

Green Algae  

28.5 Unikonts include protists that

are closely related to fungi

and animals

Amoebozoans 

• Slime Molds  
• Plasmodial Slime Molds  
• Cellular Slime Molds  
• Tubulinids  
• Entamoebas  

Opisthokonts  

28.6 Protists play key roles in

ecological communities 

Symbiotic Protists 

Photosynthetic Protists

nonvascular and seedless Vascular plants  

29.1 Plants evolved from green algae

Morphological and Molecular Evidence 

Adaptations Enabling the Move to Land 

Derived Traits of Plants  

The Origin and Diversification of Plants  

29.2 Mosses and other nonvascular

plants have life cycles dominated

by gametophytes

Bryophyte Gametophytes 

Bryophyte Sporophytes  

The Ecological and Economic Importance of Mosses  

29.3 Ferns and other seedless vascular

plants were the first plants

to grow tall  

Origins and Traits of Vascular Plants

• Life Cycles with Dominant Sporophytes  
• Transport in Xylem and Phloem 
• Evolution of Roots  
• Evolution of Leaves  
• Sporophylls and Spore Variations  

Classification of Seedless Vascular Plants  

• Phylum Lycophyta: Club Mosses, Spikemosses, and Quillworts  
• Phylum Monilophyta: Ferns, Horsetails, and Whisk Ferns and Relatives  

The Significance of Seedless Vascular Plants  

種子植物

transforming the World  

The Greening of Earth  

30.1 Seeds and pollen grains are key

adaptations for life on land

Advantages of Reduced Gametophytes  

 Heterospory: The Rule Among Seed Plants

Ovules and Production of Eggs  

Pollen and Production of Sperm 

The Evolutionary Advantage of Seeds  

30.2 Gymnosperms bear “naked”

seeds, typically on cones

The life Cycle of a Pine 

Early Seed Plants and the Rise of Gymnosperms  

Gymnosperm Diversity  

30.3 The reproductive adaptations

of angiosperms include flowers

and fruits

  Characteristics of Angiosperms

•   Flowers 
• Fruits  
• The Angiosperm Life Cycle  

Angiosperm Evolution  

• Fossil Angiosperms  
• Angiosperm Phylogeny 
• Evolutionary Links with Animals  

Angiosperm Diversity  

30.4 Human welfare depends on seed

plants 

Products from Seed Plants 

Threats to Plant Diversity  

真菌

Hidden networks  

31.1 Fungi are heterotrophs that feed

by absorption

Nutrition and Ecology 

Body Structure 

Specialized Hyphae in Mycorrhizal Fungi  

31.2 Fungi produce spores through

sexual or asexual life cycles

Sexual Reproduction 

Asexual Reproduction  

31.3 The ancestor of fungi was an

aquatic, single-celled, flagellated

protist

The Origin of Fungi 

Basal Fungal Groups  

The Move to land  

31.4 Fungi have radiated into a diverse

set of lineages

Chytrids 

Zygomycetes  

Glomeromycetes  

Ascomycetes  

Basidiomycetes  

31.5 Fungi play key roles in nutrient

cycling, ecological interactions,

and human welfare  

Fungi as Decomposers 

Fungi as Mutualists  

• Fungus-Plant Mutualisms  
• Fungus-Animal Mutualisms  
• Lichens  

Fungi as Parasites  

Practical Uses of Fungi  

動物

A Kingdom of Consumers  

32.1 Animals are multicellular,

heterotrophic eukaryotes with

tissues that develop from

embryonic layers

Nutritional Mode 

Cell Structure and Specialization  

Reproduction and Development  

32.2 The history of animals spans

more than half a billion years

Steps in the Origin of Multicellular Animals  

Neoproterozoic Era (1 Billion–541 Million Years Ago)  

Paleozoic Era (541–252 Million Years Ago)  

Mesozoic Era (252–66 Million Years Ago) 

 Cenozoic Era (66 Million Years Ago to the Present)  

32.3 Animals can be characterized

by “body plans”

Symmetry  

Tissues  

Body Cavities  

Protostome and Deuterostome Development  

• Cleavage 
• Coelom Formation  
• Fate of the Blastopore  
•  

32.4 Views of animal phylogeny

continue to be shaped by new

molecular and morphological data  

The Diversification of Animals 

future Directions in Animal Systematics  

無脊椎

A Dragon Without a Backbone  

33.1 Sponges are basal animals that

lack tissues

33.2 Cnidarians are an ancient phylum

of eumetazoans

Medusozoans  

Anthozoans  

33.3 Lophotrochozoans, a clade

identified by molecular data,

have the widest range of animal

body forms

Flatworms 

• Free-Living Species  
• Parasitic Species 
  • Trematodes  
  • Tapeworms  
  •  

Maximizing Surface Area  

 Rotifers and Acanthocephalans

•  Rotifers 
• Acanthocephalans  

Lophophorates: Ectoprocts and Brachiopods  

Molluscs  

• Chitons  
• Gastropods  
• Bivalves  
• Cephalopods  
• Protecting Freshwater and Terrestrial Molluscs  

Annelids 

• Errantians  
• Sedentarians  
• Leeches  
• Earthworms  
•  
•  

33.4 Ecdysozoans are the most

species-rich animal group

nematodes 

Arthropods  

• Arthropod Origins  
• General Characteristics of Arthropods  
• Chelicerates  
• Myriapods  
• Pancrustaceans  
• Crustaceans
• Insects I  
•  

33.5 Echinoderms and chordates

are deuterostomes  

Echinoderms 

• Asteroidea: Sea Stars and Sea Daisies  
• Ophiuroidea: Brittle Stars  
• Echinoidea: Sea Urchins and Sand Dollars  
• Crinoidea: Sea Lilies and Feather Stars  
• Holothuroidea: Sea Cucumbers  

Chordates  

脊椎 

Half a Billion years of Backbones  

 34.1 Chordates have a notochord

and a dorsal, hollow nerve cord

Derived Characters of Chordates 

• Notochord
• Dorsal, Hollow Nerve Cord  
• Pharyngeal Slits or Clefts 
• Muscular, Post-Anal Tail  

Lancelets  

Tunicates  

Early Chordate Evolution  

34.2 Vertebrates are chordates that

have a backbone

Derived Characters of Vertebrates 

Hagfishes and Lampreys  

• Hagfishes  
• Lampreys  

Early Vertebrate Evolution  

34.3 Gnathostomes are vertebrates

that have jaws

Derived Characters of Gnathostomes 

Fossil Gnathostomes  

Chondrichthyans (Sharks, Rays,and Their Relatives)  

Ray-Finned Fishes and Lobe-Fins 

• Ray-Finned Fishes  
• Lobe-Fins  
•  

34.4 Tetrapods are gnathostomes

that have limbs

Derived Characters of Tetrapods  

The Origin of Tetrapods  

Amphibians 

• Salamanders  
• Frogs  
• Caecilians  
• Lifestyle and Ecology of Amphibians  
•  

34.5 Amniotes are tetrapods that

have a terrestrially adapted egg

Derived Characters of Amniotes 

Early Amniotes  

Reptiles  

• The Origin and Evolutionary Radiation of Reptiles  
• Lepidosaurs 
• Turtles  
• Crocodilians  

Birds

• The Origin of birds
• Living birds  
•   
•  
•  

34.6 Mammals are amniotes that

have hair and produce milk

Derived Characters of Mammals 

Early Evolution of Mammals  

Monotremes  

Marsupials  

Eutherians (Placental Mammals)  

• Primates  
•  Derived Characters of Primates 
• Living Primates  
•  

34.7 Humans are mammals that

have a large brain and bipedal

locomotion  

Derived Characters of Humans 

The Earliest Hominins  

Australopiths  

bipedalism  

Tool Use  

Early Homo  

neanderthals  

Homo sapiens