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The Ocean of Life

Page 45

by Callum Roberts


  9. O’Leary, B. C., et al., “The First Network of Marine Protected Areas (MPAs) in the High Seas: The Process, the Challenges and Where Next,” Marine Policy 36 (2012): 598–605.

  10. Iceland tried to scupper the North Atlantic marine protected areas but fortunately were persuaded against it this time. I find it ironic that a country that knows more about environmental degradation than almost any other should wish the same upon the world oceans. In truth, I think the majority of Icelanders don’t want that. From what I have heard it comes down more to the prejudices of their international negotiators, whose worldview was forged in the 1960s’ fog of cod wars and unilateral enlargement of sovereign waters.

  11. Haeckel, E., Kunstformen der Natur (Leipzig, Germany: Bibliographisches Institut, 1899).

  Chapter 22: Preparing for the Worst

  1. Barnosky, A. D., et al., “Has the World’s Sixth Mass Extinction Already Arrived?” Nature 471 (2011): 51–57.

  2. Lutz, W., et al., “The End of World Population Growth,” Nature 412 (2001): 543–45.

  3. Butchart, S. H. M. et al., “Global Biodiversity: Indicators of Recent Declines,” Science 328 (2010): 1164–68.

  4. The Chagossian people were forcibly removed from their homeland by the UK government in the 1960s and 1970s to make way for the U.S. military base.

  5. Sheppard, C. R. C., et al., “Archipelago-wide Coral Recovery Patterns Since 1998 in the Chagos Archipelago, Central Indian Ocean,” Marine Ecology Progress Series 362 (2008): 109–17.

  6. In late 2011, the Australian government launched a consultation on a proposal to turn the whole Coral Sea into a Marine Protected Area, half of which would be protected from all exploitation. Australian Government Department of Sustainability, Environment, Water, Population and Communities: www.environment.gov.au/coasts/mbp/coralsea/consultation/index.html; accessed January 3, 2012.

  7. United Nations Environment Program—World Conservation Monitoring Centre: www.unep-wcmc.org/medialibrary/2011/06/23/b3b09e87/Gough%20and%20Inacces sible%20Islands.pdf.

  8. Roberts, C. M., et al., “Marine Biodiversity Hot Spots and Conservation Priorities for Tropical Reefs,” Science 295 (2002): 1280–84; Tittensor, D. P. et al., “Global Patterns and Predictors of Marine Biodiversity Across Taxa,” Nature 466 (2010): 1098–1101; Trebilco, R., et al., “Mapping Species Richness and Human Impact Drivers to Inform Global Pelagic Conservation Prioritisation,” Biological Conservation 144 (2011): 1758–66.

  9. Fuller, R. A., et al., “Replacing Underperforming Protected Areas Achieves Better Conservation Outcomes,” Nature 466 (2010): 365–67. To be fair to the authors they did mention in passing that their cost-benefit metric might be replaced by another that measured amenity value, but this seemed very much an afterthought.

  10. In other words, to levels required to achieve the maximum long-term yield from a stock, i.e., maximum sustainable yield.

  11. Roberts, C. M., et al., “Guidance on the Size and Spacing of Marine Protected Areas in England (Commissioned Report, NECR037),” (Peterborough, UK: Natural England, 2008).

  12. Munday, P. L., et al., “Climate Change and Coral Reef Connectivity,” Coral Reefs 28 (2008): 379–95.

  13. Alward, G. L., The Sea Fisheries of Great Britain and Ireland (Grimsby, UK: Albert Gait, 1932).

  Acknowledgments

  This is a book that I hadn’t planned to write. My first, The Unnatural History of the Sea, took in a thousand years of history and had the world as its stage. It took five years to research and write, so by the time it was complete I thought I would try something a little less daunting. My agent, Patrick Walsh, and Will Goodlad, my soon-to-be editor at Penguin UK, had other ideas. Over a splendid lunch, they persuaded me to go even bigger: the story of the oceans from the beginning of the world to their possible futures a hundred years from now. I am not sure how or why I agreed, but I am glad I did, even though it has taken another five years! I am grateful to both of you for the boldness of your vision and your faith in me to take it on.

  I had the great good fortune to have Joy de Menil from Viking as my editor. Joy has a gift of seeing what is essential and showing an author how to say it with elegance and clarity. She suggested I cut many things from my draft, some of which I thought at first were indispensable. If you have made it this far, you will be glad she wielded her red pen so skillfully.

  In researching this book I visited subjects I scarcely even knew existed at the outset. I have been privileged to have so many excellent guides who have been generous with their advice and time. I am indebted to the following for their comments on draft chapters, suggestions for improvements, and for helping me understand: Rebecca Atkins, Geoff Bailey, Andrew Bakun, Bryce Beukers-Stewart, Dee Boersma, Alistair Boxall, Ian Boyd, Sally Brown, John Bruno, Ken Caldeira, Jim Carlton, William Cheung, Daniel Conley, Sarika Cullis-Suzuki, Curtis Ebbesmeyer, Jon Erlandson, Rainer Froese, Jason Hall-Spencer, Julie Hawkins, Mark Hixon, Leigh Howarth, Joanie Kleypas, Dane Klinger, Andrew Knoll, Kevin Lafferty, James McCarthy, Carol Milner, Charles Moore, Roz Naylor, Maggy Nugues, Beth O’Leary, Daniel Pauly, Howard Peters, Jurgenne Primavera, Yasmin Primavera, Nancy Rabalais, Judith Sealey, John Shepherd, Steven Simpson, Albert Tacon, Ruth Thurstan, Carol Turley, Peter Tyack, Charlie Veron, and Oliver Wurl. These folks spared me from many errors. Those that remain are my own. I have been lucky to be able to try out many of the ideas in this book on dozens of enthusiastic and very bright students. They tested the limits of my understanding and forced me to improve my explanations when they were found wanting. I am also grateful for the kindness of the following colleagues who let me use their images in this book: Marco Octavio Aburto-Oropeza, Bryce Beukers-Stewart, Nancy Boucha, Victor Hugo Casillas Romo, Aaron J. Cavosie, Sarika Cullis-Suzuki, Katharina Fabricius, Dave Harasti (who is a superb underwater photographer and whose pictures can be seen at www.daveharasti.com), Elizabeth Gates, Ryan Goehrung, Karin Malmstrom, Guy Marcovaldi, Curtis Marean, Loren McClenchan, Stephen McGowan, Tim Pusack, Link Roberts, William Rodriguez Schepis (Instituto EcoFaxina), Steve Spring, Guy Stevens (The Manta Trust: www.mantatrust.org), Silke Stukenbrock, Bob Talbot, Glen Tepke, John Valley, Kyle Van Houten, Cynthia Vanderlip, and Reuven Walder. Thanks also to Devin Harvey of SeaWeb for his great help in sourcing images.

  I have my wife, Julie, and two wonderful daughters to thank for patience, understanding, encouragement, and love throughout the course of writing this book. I am fortunate indeed.

  Index

  abalone, 51, 196

  Acasta Gneiss, 15

  acidification, 105–18, 131, 209, 219–21, 234, 262, 273, 274, 283, 337, 340

  Africa, 29–31, 32, 72, 199–200, 206

  Alaska, 303

  albatrosses, 159, 163–64, 221, 267, 320, 326

  Alcala, Angel, 295, 296

  algae, 219, 268, 271

  coraline, 107, 109, 118

  toxic, 127–28

  Amazon River, 123, 284

  anchovies, 37, 70, 123, 216, 249, 252, 315

  Anderson, Doug, 167–68

  angelfish, 81

  anoxia, 23, 73, 74, 79, 117–18, 120,125–27, 221

  Anspach, Lewis, 46–47

  Antarctica, 65, 93–94, 111

  anthias, 1

  antibiotics, 253, 255, 256

  Apo Island, 295–96, 297

  aquaculture, 186, 197, 217, 243–62, 349

  disease and, 253–57, 259

  forage fish in, 249–53

  growth of, 248, 260, 337

  history of, 244–47

  invasive species and, 186, 197, 257–58

  sea ranching, 292

  Arctic Council, 142–43

  Arctic Ocean, 66, 67, 69

  alien species and, 190–91

  methane in, 94–95

  Aristotle, 149–50

  Arran, 294–95

  Arrhenius, Svante, 62–63, 64

  arthropods, 22–23

  artificial reefs, 290–93

  Asia, 31

  asteroids, 13, 14


  Aswan Dam, 123

  atmosphere, 12–14, 16, 18, 19, 21–23, 64

  Attenborough, David, 278

  Australia, 31, 32, 128

  Great Barrier Reef, 1–2, 5, 108

  Jack Hills, 11–12, 13

  Baa Atoll, 320–21

  bacteria, 17, 19, 20, 21, 115, 119, 140, 203, 255

  Bakun, Andrew, 74, 219

  Ballard, Bob, 124

  Baltic Sea, 124–26, 225, 263, 269–71,302, 329

  Bangladesh, 101

  barrier islands, 90, 103

  basalt, 13, 14

  Baustain, Melissa, 121

  beach cleanups, 267–68

  Beaufoy, Henry, 54

  beech trees, 196

  Beijing Olympics, 269

  Bellamy, John, 230–31

  Benguela, 72–73, 131

  Bering Sea, 111

  Bertram, James, 49

  BFRs, 145–46

  biodiversity, 193, 196, 227, 288–89, 294, 303, 304, 316, 338–40, 343

  birds, 101–2, 135, 320, 338

  noise and, 177

  wind farms and, 275

  bisphenol A, 161–62

  Black Sea, 20–21, 56, 124, 185, 188, 269

  Blombos Cave, 29–30

  Blue Marine Foundation, 341

  Bohai Sea, 221, 257, 259

  BP oil spill (Deepwater Horizon oil spill), 133–36, 140, 325, 349

  bluefish, 47

  boats, see ships and boats

  bottom trawling, see trawling anddredging

  brachiopods, 82

  Bristol Bay, 303

  Brominated Flame Retardants, see BFRs

  Bromley, Daniel, 310

  brown tides, 127–28

  Bush, George W., 340, 341, 344

  Byron, George Gordon, Lord, vii, 3

  Cabo de Palos, 297

  Cadiz (Gadir), 34, 35–36

  calcium carbonate, 107–10, 112, 114–17, 209, 220, 234, 262, 273

  Caldeira, Ken, 107, 277–78

  California, 69, 74–75, 345

  Cambrian period, 21–23, 24–25, 112, 219

  Canfield, Donald, 19

  capelin, 46–47

  carbon, 23, 24, 220, 289

  carbonate, 107–10, 112, 114–17, 209, 220, 234, 262, 273

  carbon dioxide, 7, 16, 18, 25–26, 61, 63,64, 68, 72, 76, 79, 92, 104, 112, 115, 179, 220–21, 273–74

  acidification and, see acidification

  capture and storage of, 282–83, 285

  emission reduction, 277–79

  extracting from atmosphere andpumping into sea, 282

  healthy ecosystems and, 286

  ocean fertilization and, 279–82

  Carlton, Jim, 197

  carp, 173, 244–45, 246, 248, 249, 261, 315

  catch shares, 310–11

  catfish, 36, 255

  Caulerpa, 186–88, 226

  ceratid ammonoids, 79

  Chagos Archipelago, 340–41

  Chan, Francis, 78

  charities, 355–60

  Charles, Prince, 309

  cherts, 17

  Chesapeake Bay, 126–27

  Cheung, William, 87

  China, 271, 329

  aquaculture in, 244–45, 248–49, 256–59

  Beijing Olympics, 269

  Bohai Sea, 221, 257, 259

  wind farms in, 275–76

  Christianity, 38, 246

  clams, 107, 117, 185–86, 248, 262

  toxins in, 127

  clean coal, 283

  climate change, 6, 7, 57, 62–66, 74–75, 78, 79, 219, 221, 288, 298, 315–16, 335

  abrupt, 68–69

  alien species and, 190–91

  cloud brightening scheme and, 283–84

  disease and, 209

  movement of species due to, 82–84, 86–88, 221

  sea levels and, see sea levels

  skepticism about, 88–89, 236–37

  solutions for, 273–86

  sulfate aerosol scheme and, 284–85

  tracking with sound transmissions, 170–71

  climate oscillations, 88–89, 234–35

  Climos, 281

  cloud brightening, 283–84

  clownfish, 116–17

  Cnut the Great, 79

  coasts, 2

  Dutch and, 95–96, 104

  engineered defenses for, 95–96, 100,101, 136, 338

  sinking and subsidence of, 98–99,103, 136

  wetlands and, 91, 101–4

  coccolithophores, 107, 114–15, 221

  cod, 38, 51–52, 53, 55, 84, 87, 125, 216, 224–25, 300, 303, 304, 307, 308, 313, 315

  Colorado River, 98–99

  Columbus, Christopher, 155, 182, 203

  comets, 13

  conservation, 289, 294–306, 319, 320, 322, 326–27, 340–46

  conservation charities, 355–60

  Conservation International, 341–42

  continents, 14–15

  Convention for the Conservation of Antarctic Marine Living Resources, 330

  Convention on International Trade in Endangered Species (CITES), 328

  Cook, James, 245–46

  copper, 143

  coral reefs, 31, 85, 93, 97–98, 108–9,111–12, 114, 196–97, 211–12, 214,225–28, 232, 234, 278, 292, 316,317, 343

  acidification and, 107, 108, 110–13, 118, 278, 340

  algae and, 107, 109, 118

  cementation in, 109, 110

  Galápagos Islands, 86, 110

  Great Barrier Reef, 1–2, 5, 108

  Maldives, 85, 97, 108

  coral reef species, 1–2, 5, 32, 81

  corals, 1, 2, 84–86, 328, 337, 340–41

  bleaching of, 85, 86, 97, 108, 118, 209, 316, 340

  disease in, 198–200, 207–11, 225–26

  elkhorn, 200

  sea fans, 198–200, 209, 210

  staghorn, 200

  Coriolis, Gaspard-Gustave de, 69

  Coriolis effect, 69–70, 152, 154

  cortisol, 172–73

  cosmetics, 162–63, 265–66, 349

  Cosquer Cave, 30

  Costa Rica, 322

  Cousteau, Jacques, 166

  crabs, 28, 77–78, 107, 175, 185, 191

  currents, 58–62, 66–70, 152–56, 215

  Coriolis effect and, 69–70, 152, 154

  downwelling, 59–60

  Gulf Stream, 58, 60, 62, 66–67

  gyres, 152–56, 158, 159, 162, 267

  upwelling, 70–74, 77, 220

  dams, 39, 91, 92, 98–99, 122–23, 274, 276

  damselfish, 1, 165

  Darwin, Charles, 16, 21, 80, 82, 199, 233

  Darwin Harbor, 196

  Day After Tomorrow, The, 66

  DDT, 138, 140, 142, 143, 147, 148, 207, 257, 263–65

  dead zones, 119–27, 215, 218, 270, 293,329, 337

  Deepwater Horizon oil spill, 133–36, 140, 325, 349

  Delaware Bay, 293

  deltas, 91–93, 98–101, 136, 218, 221

  Derwent River, 194

  deserts, 71, 199

  Diamond, Jared, 203

  diatomaceous earth, 283

  diatoms, 122

  diseases, 186, 189, 198–212, 217, 316

  aquaculture and, 253–57, 259

  climate change and, 209

  dispersal of, 204

  distemper, 201, 204, 206

  fishing and, 210–11

  parasites, 183, 186, 189, 196, 202, 206, 209–11, 253–54, 316

  physical injury and, 207–9

  reports of, 201

  ships and, 202–3

  transfer from land to sea, 206

  viral, 115, 128, 200, 201, 203–6, 210, 254

  distemper, 201, 204, 206

  diversity, 193, 196, 227, 288–89, 294, 303, 304, 316, 338–40, 343

  dogfish, 47

  Dogger Bank, 275

  “dolphin-friendly” tuna, 315, 324

  dolphins, 30, 135, 140–41, 333

  communication of, 172

&nbs
p; disease and, 206, 207

  hunting of, 204

  noise and, 172, 178

  red tides and, 127–28

  toxins and, 141–42

  dottyback, 81

  downwelling, 59–60

  dredging, see trawling and dredging

  drugs, 146–47, 265, 349

  Duhamel du Monceau, Henri Louis, 39–40

  dunes, 102

  Earth:

  atmosphere of, 12–14, 16, 18, 19, 21–23, 64

  birth and early periods of, 11–26

  plates of, 14–15

  Easter Island, 5

  East Timor, 32, 33

  Ebbesmeyer, Curtis, 149, 152, 153,155–56, 158

  echolocation, 178

  E. coli, 255

  eels, 245

  Egypt, 165–66

  electronic tagging programs, 324–25

  El Niño, 86, 89, 110

  endocrine system, 142, 144, 145, 162

  England, 98

  Erlandson, Jon, 30–31, 32

  estuaries, 184–85, 218, 235, 288

  European Union, 56, 156, 162, 265, 287

  evolution, 16, 51, 52, 80, 82, 112, 181, 233–34

  human, 27–31

  extinctions, 80, 82, 214, 216, 299, 339

  invasive species and, 194

  mass, 25, 26, 79, 82, 107, 112, 334, 335

  Fan Li, 244

  fertilizers, 7, 120, 122, 125, 209–10, 218,235, 237, 263, 269, 337

  fight-or-flight response, 172–73

  Fiji, 296

  Firth of Clyde, 42, 53–55, 221, 294–95,303, 314

  fish:

  body size of, 51, 52, 76–79

  primitive, 24

  reproduction in, 51–52, 84, 298–99

  fish consumption, 311–12

  advice for, 315, 351–54

  salt preservation in, 35–36, 37, 39

  in sauces, 37–38

  variety vs. sustainability in, 300

  fisheries, 5, 7, 72, 216, 227

  dams and, 39

  statistics on, 43–45, 48

  wild, 260

  fish farming, see aquaculture

  fishing, 3, 4, 7, 27–41, 79, 215–16, 287, 288, 307–15

  availability of fish and, 42–57

  catch shares and, 310–11

  commercial, 33–34, 40–41

  diseases and, 210–11

  “down the food web,” 52, 304

  early methods of, 38–40

  with electronic fish finders, 41, 54

  fish reproduction and, 51–52, 298–99

  and growing demand for fish, 216–17

  hazards from gear from, 135–36, 161, 178

  with hooks and lines, 32–34, 40, 41

 

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