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Executive Summary
Vol 39, Page v
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Scuba Revolutionizes Marine Science
Vol 39, Page 3
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Diving into the Past: Scuba and the Temporal Dimension of Coral Reefs
Vol 39, Page 13
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Diving Physiology and Decompression Sickness: Considerations from Humans and Marine Animals
Vol 39, Page 23
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Saturation Diving and Underwater Laboratories: How Underwater Technology Has Aided Research on Coral Biology and Reef Ecology
Vol 39, Page 39
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Marine Chemical Ecology: A Science Born of Scuba
Vol 39, Page 53
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Scuba Diving in Blue Water: A Window on Ecology and Evolution in the Epipelagic Ocean
Vol 39, Page 71
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Scientific Polar Ice Diving
Vol 39, Page 83
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The Use of Scuba to Study Early Life Histories of Marine Invertebrates
Vol 39, Page 87
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Behavioral Ecology of Mobile Animals: Insights from In Situ Observations
Vol 39, Page 99
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Kelp Forests in California
Vol 39, Page 115
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Kelpbeds as Classrooms: Perspectives and Lessons Learned
Vol 39, Page 133
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Rhodoliths and Rhodolith Beds
Vol 39, Page 143
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How Scuba Changed Our Understanding of Nature: Underwater Breakthroughs in Reef Fish Ecology
Vol 39, Page 157
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Introduction
Vol 39, Page 171
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Understanding the Coral Holobiont through Science and Scuba
Vol 39, Page 173
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The Nature of Macroalgae and Their Interactions on Reefs
Vol 39, Page 187
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The Nature of Crustose Coralline Algae and Their Interactions on Reefs
Vol 39, Page 199
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The Nature of Turf and Boring Algae and Their Interactions on Reefs
Vol 39, Page 213
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The Ecological Significance of Sexual Reproduction by Tropical Green Algae
Vol 39, Page 219
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Fine-Scale Interspecific Interactions on Coral Reefs: Functional Roles of Small and Cryptic Metazoans
Vol 39, Page 229