figure 13.1 driven to suicide. figure 13.2 enslaved by a fungus
TRANSCRIPT
Figure 13.1 Driven to Suicide
Figure 13.2 Enslaved by a Fungus
Figure 13.2 Enslaved by a Fungus
Figure 13.2 Enslaved by a Fungus (Part 1)
Figure 13.2 Enslaved by a Fungus (Part 2)
Figure 13.3 The Human Body as Habitat
Figure 13.4 Many Species Are Host to More Than One Parasite Species
Figure 13.5 Ectoparasites
Figure 13.6 Endoparasites
Figure 13.6 Endoparasites (Part 1)
Figure 13.6 Endoparasites (Part 2)
Figure 13.6 Endoparasites (Part 3)
Table 13.1 Advantages and Disadvantages of Living in or on a Host
Figure 13.7 Nonspecific Plant Defenses
Figure 13.7 Nonspecific Plant Defenses
Figure 13.8 Using Plants to Fight Parasites
Figure 13.9 Life Cycle of the Malaria Parasite, Plasmodium
Figure 13.9 Life Cycle of the Malaria Parasite, Plasmodium
Figure 13.10 Coevolution of the European Rabbit and the Myxoma Virus
Figure 13.10 Coevolution of the European Rabbit and the Myxoma Virus
Figure 13.10 Coevolution of the European Rabbit and the Myxoma Virus (Part 1)
Figure 13.10 Coevolution of the European Rabbit and the Myxoma Virus (Part 2)
Figure 13.11 Adaptation by Parasites to Local Host Populations
Figure 13.11 Adaptation by Parasites to Local Host Populations
Figure 13.11 Adaptation by Parasites to Local Host Populations (Part 1)
Figure 13.11 Adaptation by Parasites to Local Host Populations (Part 2)
Figure 13.12 Parasites Infect Common Host Genotypes More Easily Than Rare Genotypes
Figure 13.12 Parasites Infect Common Host Genotypes More Easily Than Rare Genotypes
Figure 13.13 A Cost of Virulence
Figure 13.13 A Cost of Virulence
Figure 13.13 A Cost of Virulence (Part 1)
Figure 13.13 A Cost of Virulence (Part 2)
Figure 13.14 Parasites Can Reduce Host Reproduction
Figure 13.14 Parasites Can Reduce Host Reproduction
Figure 13.14 Parasites Can Reduce Host Reproduction (Part 1)
Figure 13.14 Parasites Can Reduce Host Reproduction (Part 2)
Figure 13.15 Parasites Can Reduce Their Host’s Geographic Range
Figure 13.15 Parasites Can Reduce Their Host’s Geographic Range
Figure 13.15 Parasites Can Reduce Their Host’s Geographic Range (Part 1)
Figure 13.15 Parasites Can Reduce Their Host’s Geographic Range (Part 2)
Figure 13.16 Parasite Removal Reduces Host Population Fluctuations
Figure 13.16 Parasite Removal Reduces Host Population Fluctuations
Figure 13.16 Parasite Removal Reduces Host Population Fluctuations (Part 1)
Figure 13.16 Parasite Removal Reduces Host Population Fluctuations (Part 2)
Figure 13.16 Parasite Removal Reduces Host Population Fluctuations (Part 3)
Figure 13.17 Parasites Can Alter the Outcome of Competition
Figure 13.17 Parasites Can Alter the Outcome of Competition
Figure 13.18 Parasites Can Alter the Physical Environment
Figure 13.18 Parasites Can Alter the Physical Environment
Figure 13.18 Parasites Can Alter the Physical Environment (Part 1)
Figure 13.18 Parasites Can Alter the Physical Environment (Part 2)
Figure 13.18 Parasites Can Alter the Physical Environment (Part 3)
Figure 13.18 Parasites Can Alter the Physical Environment (Part 4)
Figure 13.19 Vaccination Reduces the Incidence of Disease
Figure 13.19 Vaccination Reduces the Incidence of Disease
Figure 13.20 Determining Threshold Population Densities
Figure 13.20 Determining Threshold Population Densities
Figure 13.21 Climate Change May Increase the Risk of Leishmaniasis in North America
Figure 13.21 Climate Change May Increase the Risk of Leishmaniasis in North America (Part 1)
Figure 13.21 Climate Change May Increase the Risk of Leishmaniasis in North America (Part 2)
Figure 13.21 Climate Change May Increase the Risk of Leishmaniasis in North America (Part 3)
Figure 13.21 Climate Change May Increase the Risk of Leishmaniasis in North America (Part 4)
Figure 13.22 Parasites Can Alter Host Behavior
Figure 13.22 Parasites Can Alter Host Behavior
Figure 13.22 Parasites Can Alter Host Behavior (Part 1)
Figure 13.22 Parasites Can Alter Host Behavior (Part 2)
Figure 13.23 Making the Host Vulnerable to Predation
Figure 13.23 Making the Host Vulnerable to Predation