Ecological Explosions
The History of Biological Invasions and Invasion Science
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Ecological Explosions
The History of Biological Invasions and Invasion Science
A leading biologist offers a comprehensive and accessible history of invasive species science, from its earliest antecedents through its current research foci and controversies.
From the arrival of the naval shipworm in the Black Sea in the first millennium BCE to the escape of the Burmese python in Florida in 1992, humans have moved species to new locations, deliberately or inadvertently, for thousands of years. Agricultural and environmental impacts of some invasions were evident early, although whether observers recognized that the cause was an introduced species is uncertain. The history of invasion biology truly begins in the sixteenth through eighteenth centuries, when explorers noticed European species on various distant islands and in North America. In the nineteenth century, biogeographers, studying species distributions across the globe, introduced the first native and non-native species categorizations, and prominent researchers like Charles Darwin began to describe the impacts of introduced species. In the nineteenth and twentieth centuries, as humans moved increasing numbers of species across the globe, the advent of modern ecology deepened our understanding of the scope of the problem.
In Ecological Explosions, invasive species expert Daniel Simberloff provides a thorough overview of the development of invasion science, from early research—including from the perspectives of leading scientists like Aldo Leopold—to the field’s future. Simberloff explores the work of pioneering ecologists like Charles Elton, antecedents of what became today’s invasion biology, before discussing the field’s true emergence in the 1980s, its explosive methodological and theoretical expansion, its integration with other disciplines, and its increasing visibility, not only within the biological literature but also in government policies across the world in the 1990s. Finally, he investigates current controversies, such as the debate over whether the entire science is xenophobic, and asks how ecosystems might adapt to a rapidly globalizing world and ever-increasing numbers of introduced species—including the joro spider, lionfish, spotted lanternfly, phragmites, and Asian carp.
From the arrival of the naval shipworm in the Black Sea in the first millennium BCE to the escape of the Burmese python in Florida in 1992, humans have moved species to new locations, deliberately or inadvertently, for thousands of years. Agricultural and environmental impacts of some invasions were evident early, although whether observers recognized that the cause was an introduced species is uncertain. The history of invasion biology truly begins in the sixteenth through eighteenth centuries, when explorers noticed European species on various distant islands and in North America. In the nineteenth century, biogeographers, studying species distributions across the globe, introduced the first native and non-native species categorizations, and prominent researchers like Charles Darwin began to describe the impacts of introduced species. In the nineteenth and twentieth centuries, as humans moved increasing numbers of species across the globe, the advent of modern ecology deepened our understanding of the scope of the problem.
In Ecological Explosions, invasive species expert Daniel Simberloff provides a thorough overview of the development of invasion science, from early research—including from the perspectives of leading scientists like Aldo Leopold—to the field’s future. Simberloff explores the work of pioneering ecologists like Charles Elton, antecedents of what became today’s invasion biology, before discussing the field’s true emergence in the 1980s, its explosive methodological and theoretical expansion, its integration with other disciplines, and its increasing visibility, not only within the biological literature but also in government policies across the world in the 1990s. Finally, he investigates current controversies, such as the debate over whether the entire science is xenophobic, and asks how ecosystems might adapt to a rapidly globalizing world and ever-increasing numbers of introduced species—including the joro spider, lionfish, spotted lanternfly, phragmites, and Asian carp.
Table of Contents
Preface
Chapter 1. Introduction
Chapter 2. The Early Shuffling of the Biosphere
Chapter 11. Invasion Science Embraces Evolution and Genetics
Bibliography
Species Index
Subject Index
Chapter 1. Introduction
1.1. Definitional Matters: Invasive, Invasion, Naturalized, Introduced, Native, Non-Native, Alien
Part I. People Move Species Around and Eventually Recognize Some ImpactsChapter 2. The Early Shuffling of the Biosphere
2.1. Terrestrial Introductions in Prehistory and Antiquity
2.2. Prehistoric and Ancient Historical Aquatic Introductions
2.3. Early Historical Introductions
Chapter 3. Early Recognition of the Extent of Invasions and Increasing Concern with Their Impacts 2.2. Prehistoric and Ancient Historical Aquatic Introductions
2.3. Early Historical Introductions
3.1. The Science of Biogeography: Which Species Are Where, and Where Are They Native?
3.2. What About Impacts of Invasions?
3.3. Classifying Species: Which Are Native and Which Are Not?
3.4. A Prescient Person Far from the Mainstream: George Perkins Marsh
Chapter 4. Mid-Nineteenth- and Early Twentieth-Century Invasions: Scientists Engage in Management 3.2. What About Impacts of Invasions?
3.3. Classifying Species: Which Are Native and Which Are Not?
3.4. A Prescient Person Far from the Mainstream: George Perkins Marsh
4.1. European Rabbit in Australia
4.2. Phylloxera in France
4.3. Cottony Cushion Scale, the Vedalia Beetle, and a Fly in California
4.4. Spongy Moth in Massachusetts
4.5. Small Indian Mongoose in the West Indies and Beyond
4.6. Water Hyacinth in Florida
4.7. White Pine Blister Rust in North America
4.8. Chestnut Blight in Eastern North America
Chapter 5. Late 1800s to Early 1900s: The Trickle Becomes a Flood 4.2. Phylloxera in France
4.3. Cottony Cushion Scale, the Vedalia Beetle, and a Fly in California
4.4. Spongy Moth in Massachusetts
4.5. Small Indian Mongoose in the West Indies and Beyond
4.6. Water Hyacinth in Florida
4.7. White Pine Blister Rust in North America
4.8. Chestnut Blight in Eastern North America
5.1. Acclimatization Societies
5.2. Fish
5.3. Birds
5.4. Mammals
5.5. Reptiles and Amphibians
5.6. Plants
Chapter 6. Mid-Nineteenth- to Mid-Twentieth-Century Research, Often Forgotten, and Warnings, Largely Ignored 5.2. Fish
5.3. Birds
5.4. Mammals
5.5. Reptiles and Amphibians
5.6. Plants
6.1. North America
6.2. Europe
6.3. New Zealand
6.4. Soviet Union
Chapter 7. Mid-Twentieth Century: A False Start, and the Lead-Up to Modern Invasion Science 6.2. Europe
6.3. New Zealand
6.4. Soviet Union
7.1. Charles S. Elton and His Invasion Book
7.2. New Invasions, Popular Books, and Reviews of Particular Invasive Biotas
7.3. A Study Ahead of Its Time
7.4. The Environmental Movement
7.5. A New Conservation Science
Chapter 8. Geographers Study Invasions: A Largely Separate Endeavor 7.2. New Invasions, Popular Books, and Reviews of Particular Invasive Biotas
7.3. A Study Ahead of Its Time
7.4. The Environmental Movement
7.5. A New Conservation Science
8.1. Increasing Interest in Biological Invasions
8.2. Two Geographers Interact More Strongly with Biologists
8.3. A Twentieth-Century Luminary Recognized by Invasion Scientists
8.4. Geographers Continue to Mine Biological Invasions
Chapter 9. The SCOPE Project Jump-Starts Modern Invasion Science 8.2. Two Geographers Interact More Strongly with Biologists
8.3. A Twentieth-Century Luminary Recognized by Invasion Scientists
8.4. Geographers Continue to Mine Biological Invasions
9.1. The SCOPE Programme on the Ecology of Biological Invasions
9.2. A Gap in the SCOPE Program, and GISP, a Sequel
9.3. A Controversial Analogy: Genetically Modified Organisms
9.4. What Does “Global” Mean, Really?
Chapter 10. Invasions Invade the Scientific and Popular Literature 9.2. A Gap in the SCOPE Program, and GISP, a Sequel
9.3. A Controversial Analogy: Genetically Modified Organisms
9.4. What Does “Global” Mean, Really?
10.1. Newsletters and Journals
10.2. College Textbooks
10.3. Popular Books
Part II. A Rapidly Growing Science Expands and Evolves10.2. College Textbooks
10.3. Popular Books
Chapter 11. Invasion Science Embraces Evolution and Genetics
11.1. Early Research on Evolution of Non-Native Species
11.2. Advances in Molecular Genetic Technologies
11.3. Evolution and Invasion Science in the Modern Era
Chapter 12. Impacts, from Populations and Communities to Ecosystems 11.2. Advances in Molecular Genetic Technologies
11.3. Evolution and Invasion Science in the Modern Era
12.1. Ecological Impacts at the Population Level
12.2. Community-Level Impacts
12.3. Ecosystem Impacts
12.4. Ecosystem Services and Ecosystem Impacts
12.5. Ecosystem Impacts, Microbial Ecology, and Soil Communities
Chapter 13. Invasion Science Catches Two Ecology Waves 12.2. Community-Level Impacts
12.3. Ecosystem Impacts
12.4. Ecosystem Services and Ecosystem Impacts
12.5. Ecosystem Impacts, Microbial Ecology, and Soil Communities
13.1. Meta-Analysis Enters Invasion Science
13.2. Networks Are Increasingly Depicted and Analyzed
Chapter 14. How Will Climate Change Affect Biological Invasions and Their Management? 13.2. Networks Are Increasingly Depicted and Analyzed
14.1. Climate Science Recognizes Anthropogenic Global Warming
14.2. Ecological and Biodiversity Impacts of Global Warming
14.3. Changes in Native and Non-Native Species’ Ranges and Effect on Invasiveness
14.4. Predictions of Range Expansion
14.5. The Overall Picture
14.6. A Controversy over Preserving Biodiversity in the Face of Climate Change
Chapter 15. Hypotheses Explaining Biological Invasions Proliferate 14.2. Ecological and Biodiversity Impacts of Global Warming
14.3. Changes in Native and Non-Native Species’ Ranges and Effect on Invasiveness
14.4. Predictions of Range Expansion
14.5. The Overall Picture
14.6. A Controversy over Preserving Biodiversity in the Face of Climate Change
15.1. Invasions Pass Through a Sequence of Stages
15.2. What Hypotheses Are Obvious?
15.3. Do Species Traits Predict Invasion Scope and Impact?
15.4. What Features Make Ecosystems More or Less Prone to Impactful Invasions?
15.5. How Do Ecosystem Features and Species Traits Interact to Affect Invasions?
15.6. A Hypothesis That Stands Apart: Invasional Meltdown
Chapter 16. Measuring, Ranking, and Predicting Invasion Impacts 15.2. What Hypotheses Are Obvious?
15.3. Do Species Traits Predict Invasion Scope and Impact?
15.4. What Features Make Ecosystems More or Less Prone to Impactful Invasions?
15.5. How Do Ecosystem Features and Species Traits Interact to Affect Invasions?
15.6. A Hypothesis That Stands Apart: Invasional Meltdown
16.1. Quantifying Environmental Impacts
16.2. The IUCN Red Lists for Imperiled Species: A Template for Quantifying Invasion Impacts?
16.3. Red List Analogs for Invasive Species: EICAT, EICAT+, and SEICAT
16.4. Risk Analysis
Chapter 17. Management of Biological Invasions 16.2. The IUCN Red Lists for Imperiled Species: A Template for Quantifying Invasion Impacts?
16.3. Red List Analogs for Invasive Species: EICAT, EICAT+, and SEICAT
16.4. Risk Analysis
17.1. Early Detection, Rapid Response (EDRR)
17.2. Eradication
17.3. Physical and Mechanical Control
17.4. Chemical Control
17.5. Biological Control (Biocontrol)
17.6. Other Technologies
17.7. New Methods Based on Genetics
Chapter 18. Controversies Abound 17.2. Eradication
17.3. Physical and Mechanical Control
17.4. Chemical Control
17.5. Biological Control (Biocontrol)
17.6. Other Technologies
17.7. New Methods Based on Genetics
18.1. The Charge of Xenophobia or Nativism
18.2. Terminology and Categories
18.3. Which Populations to Target: Beneficial Non-Natives and Wasteful Management
18.4. “Native Invaders” and Ecological Succession
18.5. Invasive Species Denialism
18.6. Animal Rights, Animal Welfare, and Compassionate Conservation
Chapter 19. The Near Future of Invasion Science 18.2. Terminology and Categories
18.3. Which Populations to Target: Beneficial Non-Natives and Wasteful Management
18.4. “Native Invaders” and Ecological Succession
18.5. Invasive Species Denialism
18.6. Animal Rights, Animal Welfare, and Compassionate Conservation
19.1. Collaborations
19.2. Social Media
19.3. Citizen Science
19.4. The Global Scope of the Science
19.5. New Disciplines and Underrepresented Research Areas
19.6. Context Dependence
19.7. Over- and Underemphasized Research Foci
19.8. Will the Invasion Juggernaut Be Slowed?
Notes19.2. Social Media
19.3. Citizen Science
19.4. The Global Scope of the Science
19.5. New Disciplines and Underrepresented Research Areas
19.6. Context Dependence
19.7. Over- and Underemphasized Research Foci
19.8. Will the Invasion Juggernaut Be Slowed?
Bibliography
Species Index
Subject Index