Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
Hostname: page-component-77c89778f8-sh8wx Total loading time: 0 Render date: 2024-07-22T08:55:22.019Z Has data issue: false hasContentIssue false

References

Published online by Cambridge University Press:  05 June 2012

Jason Link
Jason Link
Affiliation:
National Marine Fisheries Service, Woods Hole, MA
Get access

Summary

A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Chapter
Information
Ecosystem-Based Fisheries Management
Confronting Tradeoffs
 , pp. 181 - 202
Publisher: Cambridge University Press
Print publication year: 2010

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allesina, S. and Bondavalli, C. (2003). Steady state of ecosystem flow networks: a comparison between balancing procedures. Ecological Modelling, 165:221–229.CrossRefGoogle Scholar
Andersen, K. P. and Ursin, E. (1977). A multispecies extension to the Beverton Holt theory of fishing, with accounts of phosphorous circulation and primary production. Medd Dan Fisk Havunders, NSF, 7:319–345.Google Scholar
Anderson, E. D. (2002). 100 Years of Science Under ICES: Papers from a Symposium Held in Helsinki. ICES Marine Science Symposia 215. Copenhagen, Denmark: ICES.Google Scholar
Ascher, W. (2001). Coping with complexity and organizational interests in natural resource management. Ecosystems, 4:742–757.CrossRefGoogle Scholar
Astles, K. L., Holloway, M. G., Steffe, A., et al. (2006). An ecological method for qualitative risk assessment and its use in the management of fisheries in New South Wales, Australia. Fisheries Research, 82:290–303.CrossRefGoogle Scholar
Ayensu, E., Claasen, D. van R., Collins, M., et al. (1999). International ecosystem assessment. Science, 286:685–686.CrossRefGoogle Scholar
Baird, S. F. (1873). Report on the Condition of the Sea Fisheries of the South Coast of New England in 1871 and 1872. Washington, DC: Government Printing Office.Google Scholar
Beamish, R. J. (1993). Climate and exceptional fish production off the west coast of North America. Canadian Journal of Fisheries and Aquatic Science, 50:2270–2291.CrossRefGoogle Scholar
Beamish, R. J. and Bouillon, D. R. (1993). Pacific salmon production trends in relation to climate. Canadian Journal of Fisheries and Aquatic Science, 50:1002–1016.CrossRefGoogle Scholar
Beamish, R. J., Noakes, D. J., McFarlane, G. A., et al. (1999). The regime concept and natural trends in the production of Pacific salmon. Canadian Journal of Fisheries and Aquatic Science, 56:516–526.CrossRefGoogle Scholar
Beddington, J. R. (1986). Shifts in resource populations in large marine ecosystems. In Sherman, K. and Alexander, L. M. (eds.), Variability and Management of Large Marine Ecosystems. AAAS Selected Symposium 99. Washington, DC: AAAS.Google Scholar
Beddington, J. R. and Kirkwood, G. P. (2005). The estimation of potential yield and stock status using life-history parameters. Philosophical Transactions of the Royal Society B, 360:163–170.CrossRefGoogle ScholarPubMed
Beddington, J. R., Agnew, D. J., and Clark, C. W. (2007). Current problems in the management of marine fisheries. Science, 316:1713–1716.CrossRefGoogle ScholarPubMed
Begley, J. and Howell, D. (2004). An Overview of GADGET, Globally Applicable Area-Disaggregated General Ecosystem Toolbox. ICES Document CM 2004/FF-13. Copenhagen: ICES.Google Scholar
Berkes, F. (1999). Sacred Ecology: Traditional Ecological Knowledge and Management Systems. London: Taylor & Francis.Google Scholar
Berkes, F. and Folke, C. (1998). Linking Social and Ecological Systems. Cambridge, UK: Cambridge University Press.Google Scholar
Berkes, F., Hughes, T. P., Steneck, R. S., et al. (2006). Globalization, roving bandits, and marine resources. Science, 311:1557–1558.CrossRefGoogle ScholarPubMed
Beverton, R. (1998). Fish, fact and fantasy: a long view. Reviews in Fish Biology and Fisheries, 8:229–249.CrossRefGoogle Scholar
Beverton, R. J. H. and Holt, S. J. (1957). On the Dynamics of Exploited Fish Populations. Fisheries Investment Series 2, Vol. 19. London: UK Ministry of Agriculture and Fisheries.Google Scholar
Bilio, M. and Niermann, U. (2004). Is the comb jelly really to blame for it all? Mnemiopsis leidyi and the ecological concerns about the Caspian Sea. Marine Ecology Progress Series, 269:173–183.CrossRefGoogle Scholar
Bogstad, B., K.Hauge, H., and Ulltang, Ø. (1997). MULTSPEC: a multi-species model for fish and marine mammals in the Barents Sea. Journal of Northwest Atlantic Fishery Science, 22:317–341.CrossRefGoogle Scholar
Boldt, J. (ed.) (2008). Ecosystem Considerations for 2009. Appendix C. Anchorage, AK: North Pacific Fishery Management Council.Google Scholar
Borley, J. O., Russell, E. S., Graham, M., Wallace, W., and Thursby-Pellam, D. E. (1923). The Plaice Fishery and the War: Preliminary Report on Investigations. Fisheries Investigations (Series 2) 5. London: UK Ministry of Agriculture, Fisheries and Food.Google Scholar
Botsford, L. W., Castilla, J. C., and Peterson, C. H. (1997). The management of fisheries and marine ecosystems. Science, 277:509–515.CrossRefGoogle Scholar
Box, G. and Draper, N. (1987). Empirical Model-Building and Response Surfaces. Wiley.Google Scholar
Boyd, J. and Banzhaf, S. (2007). What are ecosystem services? The need for standardized environmental accounting units. Ecological Economics, 63:616–626.CrossRefGoogle Scholar
Braccini, J. M., Gillanders, B. M., and Walker, T. I. (2006). Hierarchical approach to the assessment of fishing effects on non-target chondricthyans: case study of Squalus megalops in southeastern Australia. Canadian Journal of Fisheries and Aquatic Science, 63:2456–2466.CrossRefGoogle Scholar
Brand, E. J., Kaplan, I. C., Harvey, C. J., et al. (2007). A Spatially Explicit Ecosystem Model of the California Current's Food Web and Oceanography. NOAA Technical Memorandum NMFS-NWFSC-84. 145 pp.Google Scholar
Brander, K. M. (1994). Patterns of distribution, spawning, and growth in North Atlantic cod: the utility of inter-regional comparisons. ICES Marine Science Symposium, 198:89–103.Google Scholar
Brander, K. M. (1995). The effect of temperature on growth of Atlantic cod (Gadus morhua L.). ICES Journal of Marine Science, 52:1–10.CrossRefGoogle Scholar
Brander, K. M. (2007). Global fish production and climate change. Proceedings of the National Academy of Sciences, 104:19 709–19 714.CrossRefGoogle ScholarPubMed
Brander, K. M., Blom, G., Borges, M. F., et al. (2003). Changes in fish distribution in the eastern North Atlantic: are we seeing a coherent response to changing temperature?ICES Marine Science Symposium, 219:261–270.Google Scholar
Brodeur, R. D., Sugisaki, H., and Hunt, G. L. (2002). Increases in jellyfish biomass in the Bering Sea: implications for the ecosystem. Marine Ecology Progress Series, 233:89–103.CrossRefGoogle Scholar
Brodziak, J. and Link, J. (2002). Ecosystem-based fishery management: what is it and how can we do it?Bulletin of Marine Science, 70:589–611.Google Scholar
Browman, H. I. and Stergiou, K. I. (2004). Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274:269–303.CrossRefGoogle Scholar
Browman, H. I. and Stergiou, K. I. (2005). Politics and socio-economics of ecosystem-based management of marine resources. Marine Ecology Progress Series, 300:241–296.CrossRefGoogle Scholar
Brown, B., Breenan, J., Grosslein, M., Heyerdahl, E., and Hennemuth, R. (1976). The effect of fishing on the marine finfish biomass in the Northwest Atlantic from the Gulf of Maine to Cape Hatteras. ICNAF Research Bulletin, 12:49–68.Google Scholar
Bundy, A. (2001). Fishing on ecosystems: the interplay of fishing and predation in Newfoundland-Labrador. Canadian Journal of Fisheries and Aquatic Science, 58:1153–1167.Google Scholar
Bundy, A., Chuenpagdee, R., Jentoft, S., and Mahon, R. (2008). If science is not the answer, what is? An alternative governance model for the world's fisheries. Frontiers in Ecology and the Environment, 6:152–155.CrossRefGoogle Scholar
Burnham, K. P. and Anderson, D. (2002). Model Selection and Multi-Model Inference: A Practical Information-Theoretic Approach. New York: Springer-Verlag.Google Scholar
Burnside, D. and Rasmussen, G. A. (1997). Ecosystem management: can it succeed?Rangelands, 19(2):20–24.Google Scholar
Butterworth, D. S. (2007). Why a management procedure approach? Some positives and negatives. ICES Journal of Marine Science, 64:613–617.CrossRefGoogle Scholar
Butterworth, D. S. and Punt, A. E. (1999). Experiences in the evaluation and implementation of management procedures. ICES Journal of Marine Science, 56:985–998.CrossRefGoogle Scholar
Butterworth, D. S., Cochrane, K. L., and Oliveria, J. A. A. (1997). Management procedures: a better way to manage fisheries? The South African experience. In Pikitch, E. K., Huppert, D. D., and Sissenwine, M. P. (eds.) Global Trends: Fisheries Management, American Fisheries Society Symposium 20. Bethesda, MD: American Fisheries Society.Google Scholar
Caddy, J. F. (1999). Fisheries management in the twenty-first century: will new paradigms apply?Reviews in Fish Biology and Fisheries, 9:1–43.CrossRefGoogle Scholar
Caddy, J. F. (2002). Limit reference points, traffic lights, and holistic approaches to fisheries management with minimal stock assessment input. Fisheries Research, 56:133–137.CrossRefGoogle Scholar
Caddy, J. F. and Agnew, D. J. (2004). An overview of recent global experience with recovery plans for depleted marine resources and suggested guidelines for recovery planning. Reviews in Fish Biology and Fisheries, 14:43–112.CrossRefGoogle Scholar
Caddy, J. F. and Cochrane, K. L. (2001). A review of fisheries management past and present and some future perspectives for the third millennium. Ocean and Coastal Management, 44:653–682.CrossRefGoogle Scholar
Cadrin, S. X. (1999). A precautionary approach to fishery control rules based on surplus production modeling. In Restrepo, V. R. (ed.), Proceedings of the Fifth National NMFS Stock Assessment Workshop: Providing Scientific Advice to Implement the Precautionary Approach Under the Magnuson-Stevens Fishery Conservation and Management Act. NOAA Technical Memorandum NMFS-F/SPO 40, pp. 17–22.
Callicott, J. B. (1994). Earth's Insights: A Multicultural Survey of Ecological Ethics From the Mediterranean Basin to the Australian Outback. Berkeley, CA: University of California Press.Google Scholar
Campostrini, P. (2007). Scientific Research and Safeguarding of Venice. Research Programme 2004–2006. Vol. V: 2005 Results. Venice, Italy: CORILA.Google Scholar
Canter, L. W. (2001). Environmental Impact Assessment. New York: McGraw-Hill.Google Scholar
Carson, R. (1962). Silent Spring. Boston, MA: Houghton Mifflin.Google Scholar
,CBFEAP (Chesapeake Bay Fishery Ecosystem Advisory Panel) (2006). Fisheries Ecosystem Planning for Chesapeake Bay. Vol. 3. Bethesda, MD: American Fisheries Society.Google Scholar
Charles, A. (2001). Sustainable Fishery Systems. Malden, MA: Blackwell Science.Google Scholar
Chavez, F. P., Ryan, J., Lluch-Cota, S. E., and Niquen, M. (2003). From anchovies to sardines and back: multidecadal change in the Pacific Ocean. Science, 299:217–221.CrossRefGoogle ScholarPubMed
Cheung, W. W. L., Pitcher, T. J., and Pauly, D. (2005). A fuzzy logic expert system to estimate intrinsic extinction vulnerabilities of marine fishes to fishing. Biological Conservation, 124:97–111.CrossRefGoogle Scholar
Christensen, N. L., Bartuska, A. M., Brown, J. H., et al. (1996). The report of the Ecological Society of America Committee on the scientific basis for ecosystem management. Ecological Applications, 6:665–691.CrossRefGoogle Scholar
Christensen, V. and Pauly, D. (1992). On steady-state modeling of ecosystems. In Christensen, V. and Pauly, D. (eds.), Trophic Models of Aquatic Ecosystems: ICLARM Conference Proceedings 26. Manila, Philippines: ICLARM, pp. 14–19.Google Scholar
Christensen, V. and Pauly, D. (2004). Placing fisheries in their ecosystem context, an introduction. Ecological Modelling, 172:103–107.CrossRefGoogle Scholar
Christy, F. T. (1996). The death rattle of open access and the advent of property rights in fisheries. Marine Resource Economics, 11:287–304.CrossRefGoogle Scholar
Clarke, G. L. (1946). Dynamics of production in a marine area. Ecological Monographs, 16:323–325.CrossRefGoogle Scholar
Colding, J. and Folke, C. (2001). Social taboos: “invisible” systems of local resource management and biological conservation. Ecological Applications, 11:584–600.Google Scholar
Coll, M., Libralato, S., Tudela, S., Palomera, I., and Pranovi, F. (2008). Ecosystem overfishing in the ocean. Public Library of Science (PLOS) ONE, 3(12): e3881. doi:10.1371/journal.pone.0003881.Google ScholarPubMed
Coll, M., Shannon, L. J., Yemane, D., et al. (2010). Ranking ecological relative status of exploited ecosystems using multiple indicators. ICES Journal of Marine Science, 67: 769–786.CrossRefGoogle Scholar
Collie, J. S. and DeLong, A. K. (1999). Multispecies interactions in the Georges Bank fish community. In Ecosystem Approaches for Fisheries Management. Vol. AK-SG-99–01. Fairbanks, AK: Alaska Sea Grant College Program, pp. 187–210.Google Scholar
Collie, J. S. and Gislason, H. (2001). Biological reference points for fish stocks in a multispecies context. Canadian Journal of Fisheries and Aquatic Science, 58:2167–2176.CrossRefGoogle Scholar
Collie, J. S., Escanero, G. A., and Valentine, P. C. (1997). Effects of bottom fishing on the benthic megafauna of Georges Bank. Marine Ecology Progress Series, 155:159–172.CrossRefGoogle Scholar
Collie, J. S., Hall, S. J., Kaiser, M. J., and Poiner, I. R. (2000). A quantitative analysis of fishing impacts on shelf-sea benthos. Journal of Animal Ecology, 69:785–798.CrossRefGoogle ScholarPubMed
Collie, J. S., Gislason, H., and Vinther, M. (2003). Using AMOEBAs to display multispecies, multifleet fisheries advice. ICES Journal of Marine Science, 60:709–720.CrossRefGoogle Scholar
Conover, D. O. and Munch, S. B. (2002). Sustaining fisheries yields over evolutionary time scales. Science, 297:94–96.CrossRefGoogle ScholarPubMed
Constable, A. J. (2001). The ecosystem approach to managing fisheries: achieving conservation objectives for predators of fished species. CCAMLR Science, 8:37–64.Google Scholar
Constable, A. J., Mare, W. K., Agnew, D. J., Everson, I., and Miller, D. (2000). Managing fisheries to conserve the Antarctic marine ecosystem: practical implementation of the Convention for the Conservation of Antarctic Marine Living Resources (CCAMLR). ICES Journal of Marine Science, 57:778–791.CrossRefGoogle Scholar
Costanza, R., d'Arge, R., Groot, R., et al. (1997). The value of the world's ecosystem services and natural capital. Nature, 387:253–260.CrossRefGoogle Scholar
Costanza, R., Andrade, F., Antunes, P., et al. (1998). Principles for sustainable governance of the oceans. Science, 281:198–199.CrossRefGoogle ScholarPubMed
Crowder, L. B., Osherenko, G., Young, O. R., et al. (2006). Resolving mismatches in U.S. Ocean Governance. Science, 313:617–618.CrossRefGoogle ScholarPubMed
Cury, P. M. (2004). Tuning the ecoscope for the ecosystem approach to fisheries. In Browman, H.-I. and K.-I. Stergiou (eds.), Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274: 272–275.
Daan, N. and Sissenwine, M.-P. eds. (1991). Multispecies Models Relevant to Management of Living Resources. Proceedings of ICES Marine Science Symposium 193. Copenhagen: ICES.Google Scholar
Dale, V. H., Brown, S., Haeuber, R. A., et al. (2000). Ecological principles and guidelines for managing the use of land. Ecological Applications, 10:639–670.Google Scholar
Dambacher, J. M., Li, H. W., and Rossignol, P. A. (2002). Relevance of community structure in assessing indeterminacy of ecological predictions. Ecology, 83:1372–1385.CrossRefGoogle Scholar
Dame, J. K. and Christian, R. R. (2006). Uncertainty and the use of network analysis for ecosystem-based fishery management. Fisheries, 31:331–341.CrossRefGoogle Scholar
Davis, A. J., Hanson, J. M., Watts, H., and MacPherson, H. (2004). Local ecological knowledge and marine fisheries research: the case of white hake (Urophycis tenuis) predation on juvenile American lobster (Homarus americanus). Canadian Journal of Fisheries and Aquatic Science, 61:1191–1201.CrossRefGoogle Scholar
Dayton, P. K. (1998). Reversal of the burden of proof in fisheries management. Science, 279:821–822.CrossRefGoogle Scholar
Mare, W. K. (1986). Simulation studies on management procedures. Reports of the International Whaling Commission, 36:429–450.Google Scholar
Mare, W. K. (1998). Tidier fisheries management requires a new MOP (management-oriented paradigm). Reviews in Fish Biology and Fisheries, 8:349–356.CrossRefGoogle Scholar
Mare, W. K. (2005). Marine ecosystem-based management as a hierarchical control system. Marine Policy, 29:57–68.CrossRefGoogle Scholar
Deroba, J. J. and Bence, J. R. (2008). A review of harvest policies: understanding relative performance of control rules. Fisheries Research, 94:210–223.CrossRefGoogle Scholar
Diamond, J. (2005). Guns, Germs and Steel: The Fates of Human Societies. New York: W. W. Norton.Google Scholar
Dichmont, C. M., Deng, A. R., Punt, A. E., Venables, W., and Haddon, M. (2006a). Mangement strategies for short-lived species: the case of Australia's Northern Prawn Fishery. 1. Accounting for multiple species, spatial structure and implementation uncertainty when evaluating risk. Fisheries Research, 82:204–220.CrossRefGoogle Scholar
Dichmont, C. M., Deng, A. R., Punt, A. E., Venables, W., and Haddon, M. (2006b). Management strategies for short lived species: the case of Australia's northern prawn fishery. 2. Choosing appropriate management strategies using input controls. Fisheries Research, 82:221–234.CrossRefGoogle Scholar
,DOC (Department of Commerce) (2005). Fisheries of the United States, 2004. Silver Spring, MD: U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Marine Fisheries Service, Office of Science and Technology.Google Scholar
,DOC (Department of Commerce) (2008). Fisheries of the United States, 2007. Silver Spring, MD: U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Marine Fisheries Service, Office of Science and Technology.Google Scholar
Doubleday, W. G. and Rivard, D. (eds.) (1981) Bottom Trawl Surveys. Canadian Special Publication of Fisheries and Aquatic Sciences, 58.Google Scholar
Drinkwater, K. F. (2002). A review of the role of climate variability in the decline of northern cod. American Fisheries Society Symposium, 32:113–130.Google Scholar
Drinkwater, K. F. (2005). The response of Atlantic cod (Gadus morhua) to future climate change. ICES Journal of Marine Science, 62:1327–1337.CrossRefGoogle Scholar
Dulvy, N. K. and Reynolds, J. D. (2002). Predicting extinction vulnerability in skates. Conservation Biology, 16:440–450.CrossRefGoogle Scholar
Dulvy, N. K., Sadovy, Y., and Reynolds, J. D. (2003). Extinction vulnerability in marine populations. Fish and Fisheries, 4:25–64.CrossRefGoogle Scholar
,EcoAP (Ecosystem Assessment Program) (2009). Ecosystem Status Report for the Northeast U.S. Continental Shelf Large Marine Ecosystem. Northeast Fisheries Science Center Reference Document09–11, 34 pp.Google Scholar
Edwards, S. F. (2003). Property rights to multi-attribute fishery resources. Ecological Economics, 44:309–323.CrossRefGoogle Scholar
Edwards, S. F., Link, J. S., and Rountree, B. P.(2004). Portfolio management of wild fish stocks. Ecological Economics, 49:317–329.CrossRefGoogle Scholar
,EFEP (European Fisheries Ecosystem Plan) (2004). The North Sea Fisheries Ecosystem Plan, EU Quality of Life and Management of Living Resources. QLRT-CT-2001–01685. Newcastle upon Tyne, UK: University of Newcastle.Google Scholar
Ellison, A. M. (1996). An introduction to Bayesian inference for ecological research and environmental decision-making. Ecological Applications, 6:1036–1046.CrossRefGoogle Scholar
Elton, C. and Nicholson, M. (1942). The ten year cycle in numbers of the lynx in Canada. Journal of Animal Ecology, 11:215–244.CrossRefGoogle Scholar
Endter-Wada, J., Blahna, D., Krannich, R., and Brunson, M. (1998). A framework for understanding social science contributions to ecosystem management. Ecological Applications, 8:891–904.CrossRefGoogle Scholar
Essington, T. E., Beaudreau, A. H., and Wiedenmann, J. (2006). Fishing through marine food webs. Proceedings of the National Academy of Sciences, 103:3171–3175.CrossRefGoogle ScholarPubMed
,FAO (Food and Agriculture Organization) (1995). Precautionary Approach to Fisheries. Part 1: Guidelines on the Precautionary Approach to Capture Fisheries and Species Introductions. FAO Fisheries Technical Paper 350, Part 1. Rome, Italy: FAO, 52 pp.Google Scholar
,FAO (Food and Agriculture Organization) (2003). The Ecosystem Approach to Fisheries. FAO Technical Guidelines for Responsible Fisheries 4, Suppl. 2. Rome, Italy: FAO, 112 pp.Google Scholar
,FAO (Food and Agriculture Organization) (2007). The State of the World Fisheries and Aquaculture 2006. Rome, Italy: FAO, 162 pp.Google Scholar
Fennel, W. and Neumann, T. (2004). Introduction to the Modeling of Marine Ecosystems. Amsterdam, The Netherlands: Elsevier, 72 pp.Google Scholar
Ferrero, R. C. and Fritz, L. W. (1994). Comparisons of Walleye Pollock, Theragra chalcogramma, Harvest to Steller Sea Lion, Eumetopias jubatus, Abundance in the Bering Sea and Gulf of Alaska. NOAA Technical Memorandum NMFS-AFSC-43.Google Scholar
Field, J. C. and Francis, R. C. (2006). Considering ecosystem-based fisheries management in the California Current. Marine Policy, 30:552–569.CrossRefGoogle Scholar
Fletcher, W. J. (2005). The application of qualitative risk assessment methodology to prioritize issues for fisheries management. ICES Journal of Marine Science, 62:1576–1587.CrossRefGoogle Scholar
Fletcher, W. J., Chesson, J., Sainsbury, K. J., Hundloe, T. J., and Fisher, M. (2005). A flexible and practical framework for reporting on ecologically sustainable development for wild capture fisheries. Fisheries Research, 71:175–183.CrossRefGoogle Scholar
Fogarty, M. J. (2005). Impacts of fishing activities on benthic habitat and carrying capacity: approaches to assessing and managing risk. American Fisheries Society Symposium, 41:769–784.Google Scholar
Fox, W. W. (1975). Fitting the generalized stock production model by least-squares and equilibrium approximation. Fishery Bulletin, 73:23–37.Google Scholar
Francis, R. C., Hare, S. R., Hollowed, A. B., and Wooster, W. S. (1998). Effects of interdecadal climate variability on the oceanic ecosystems of the NE Pacific. Fisheries Oceanography 7:1–21.CrossRefGoogle Scholar
Francis, R. C., Hixon, M. A., Clarke, M. E., Murawski, S. A., and Ralston, S. (2007). Ten commandments for ecosystem-based fisheries scientists. Fisheries, 32:217–233.CrossRefGoogle Scholar
Francis, R. I. C. C. (1992). Use of risk analysis to assess fishery management strategies: a case study using orange roughy (Hoplostethus atlanticus) on the Chatham Rise, New Zealand. Canadian Journal of Fisheries and Aquatic Science, 49:922–930.CrossRefGoogle Scholar
Francis, R. I. C. C. and Shotton, R. (1997). “Risk” in fisheries management: a review. Canadian Journal of Fisheries and Aquatic Science, 54:1699–1715.Google Scholar
Franklin, J. F. (1997). Ecosystem management: an overview. In Boyce, M. S. and Haney, A. (eds.), Ecosystem Management: Applications for Sustainable Forest and Wildlife Resources. New Haven, CT: Yale University Press, pp. 21–53.Google Scholar
Franz, E. H. (2001). Ecology, values, and policy. BioScience, 51:469–474.CrossRefGoogle Scholar
Frederick, S. W. and Peterman, R. M. (1995). Choosing fisheries harvest policies: when does uncertainty matter?Canadian Journal of Fisheries and Aquatic Science, 52:291–306.CrossRefGoogle Scholar
Fulton, E. A., Smith, A. D. M., and Johnson, C. R. (2003). Effect of complexity on marine ecosystem models. Marine Ecology Progress Series, 253:1–16.CrossRefGoogle Scholar
Fulton, E. A., Parslow, J. S., Smith, A. D. M., and Johnson, C. R. (2004a). Biogeochemical marine ecosystem models. 2. The effect of physiological detail on model performance. Ecological Modelling, 173:371–406.CrossRefGoogle Scholar
Fulton, E. A., Fuller, M., Smith, A. D. M., and Punt, A. E. (2004b). Ecological Indicators of the Ecosystem Effects of Fishing: Final Report. Report, R99/1546. Canberra, Australia: Australian Fisheries Management Authority.Google Scholar
Fulton, E. A., Smith, A. D. M., and Punt, A. E. (2005). Which ecological indicators can robustly detect effects of fishing?ICES Journal of Marine Science, 62:540–551.CrossRefGoogle Scholar
Fulton, E. A., Morato, T., and Pitcher, T. J. (2007). Modelling seamount ecosystems and their fisheries. In Pitcher, T. J., Morato, T., Hart, P. J. B., et al. (eds.), Seamounts: Ecology, Fisheries and Conservation. Fish and Aquatic Resources Series 12. Oxford, UK: Blackwell, pp. 296–332.CrossRefGoogle Scholar
Furness, R. W. (1999). Does harvesting a million metric tons of sand lance per year from the North Sea threaten seabird populations? In Ecosystem Approaches for Fisheries Management. Vol. AK-SG-99–01. Fairbanks, AK: Alaska Sea Grant College Program, pp. 407–424.CrossRefGoogle Scholar
Furness, R. W. and Tasker, M. L. (2000). Seabird-fishery interactions: quantifying the sensitivity of seabirds to reductions in sand eel abundance, and identification of key areas for sensitive seabirds in the North Sea. Marine Ecology Progress Series, 202:253–264.CrossRefGoogle Scholar
Gabriel, W. L. and Mace, P. M. (1999). A review of biological reference points in the context of the precautionary approach. In Restrepo, V. R. (ed.), Proceedings of the Fifth National NMFS Stock Assessment Workshop: Providing Scientific Advice to Implement the Precautionary Approach Under the Magnuson-Stevens Fishery Conservation and Management Act. NOAA Technical Memorandum NMFS-F/SPO 40, pp. 34–45.Google Scholar
Gamble, R. J. and Link, J. S. (2009). Analyzing the tradeoffs among ecological and fishing effects on an example fish community: a multispecies (fisheries) production model. Ecological Modelling, 220(19):2570–2582.CrossRefGoogle Scholar
Garcia, S. M. and Cochrane, K. L. (2005). Ecosystem approach to fisheries: a review of implementation guidelines. ICES Journal of Marine Science, 62:311–318.CrossRefGoogle Scholar
Garcia, S. M. and Leiva Moreno, I. (2003). Global overview of marine fisheries. In Sinclair, M. and Valdimarsson, G. (eds.), Responsible Fisheries in the Marine Ecosystem. Wallingford, UK: CAB International.Google Scholar
Garcia, S. M., Zerbi, A., Aliaume, C., Chi, T., and Lasserre, G. (2003). The Ecosystem Approach to Fisheries: Issues, Terminology, Principles, Institutional Foundations, Implementation and Outlook. FAO Fisheries Technical Paper 443. Rome, Italy: FAO, 71 pp.Google Scholar
Garrison, L. P. and Link, J. S. (2004). An Expanded Multispecies Virtual Population Analysis (MSVPA-X) to Evaluate Predator-Prey Interactions in Exploited Fish Ecosystems. User's Manual and Model Description, Version 1.1. Washington, DC: Atlantic States Marine Fisheries Commission.Google Scholar
Garrison, L. P., Link, J. S., Kilduff, D. P., et al. (2010). An expansion of the MSVPA approach for quantifying predator-prey interactions in exploited fish communities. ICES Journal of Marine Science, 67, doi:10.1093/icesjms/fsq005.CrossRefGoogle Scholar
,GBRMPA (Great Barrier Reef Marine Park Authority) (2008). Annual Report, 2007–2008. Townsville, Queensland, Australia.Google Scholar
Gislason, H. and Helgason, T. (1985). Species interactions in assessment of fish stocks with special application to the North Sea. Dana, 5:1–44.Google Scholar
Gislason, H., Sinclair, M., Sainsbury, K., and O'Boyle, R. (2000). Symposium overview: incorporating ecosystem objectives within fisheries management. ICES Journal of Marine Science, 57:468–475.CrossRefGoogle Scholar
,GOOS (Global Ocean Observing System). (2007). Available www.ioc-goos.org. Accessed December 2, 2007.
Grafton, R. Q., Arnason, R., Bjørndal, T., et al. (2006). Incentive-based approaches to sustainable fisheries. Canadian Journal of Fisheries and Aquatic Science, 63:699–710.CrossRefGoogle Scholar
Graham, M. (1943). The Fish Gate. London: Faber.Google Scholar
Graham, M. (1948). Reporter's view of the scientific meeting on the effect of the war on the stocks of commercial food fishes. Rapports, Conseil Permanent International pour l'Exploration de la Mer, 132:72–78.Google Scholar
Graham, M. (1956). Concepts of conservation. In Papers Presented at the International Technical Conference on the Conservation of the Living Resources of the Sea. United Nations Publication 1956.II.B.1, New York: United Nations, pp. 1–11.Google Scholar
Gray, T. S. (ed.) (2005). Participation in Fisheries Governance. Dordrecht, The Netherlands: Springer.CrossRefGoogle Scholar
Griffiths, S. P., Brewer, D. T., Heales, D. S., Milton, D. A., and Stobutzki, I. C. (2006). Validating ecological risk assessments for fisheries: assessing the impacts of turtle excluder devices on elasmobranch bycatch populations in an Australian trawl fishery. Marine and Freshwater Research, 57:395–401.CrossRefGoogle Scholar
Grumbine, R. E. (1994). What is ecosystem management?Conservation Biology, 8:27–38.CrossRefGoogle Scholar
Grumbine, R. E. (1997). Reflections on “What is ecosystem management?”Conservation Biology, 11:41–47.CrossRefGoogle Scholar
Gucu, A. C. (2002). Can overfishing be responsible for the successful establishment of Mnemiopsis leidyi in the Black Sea?Estuarine, Coastal and Shelf Science, 54:439–451.CrossRefGoogle Scholar
Gulland, J. A. (1983). Fish Stock Assessment: A Manual of Basic Methods. New York: Wiley.Google Scholar
Gunderson, L. H. and Holling, C. S., (eds.) (2002). Panarchy: Understanding Transformations in Human and Natural Systems. Washington, DC: Island Press.Google Scholar
Haeuber, R. (1996). Setting the environmental policy agenda: the case of ecosystem management. Natural Resources Journal, 36:1–28.Google Scholar
Hall, S. J. (1999). The Effects of Fishing on Marine Ecosystems and Communities. Malden, MA: Blackwell Science.Google Scholar
Hall, S. J. and Mainprize, B. (2004). Towards ecosystem-based fisheries management. Fish and Fisheries, 5:1–20.CrossRefGoogle Scholar
Halliday, R. G., Fanning, P. F., and Mohn, R. K. (2001). Use of the Traffic Light Method in Fishery Management Planning. Canadian Science Advisory Secretariat Research Document 2001/108, 42 pp.Google Scholar
Hanna, S. S. (1998). Institutions for marine ecosystems: economic incentives and fishery management. Ecological Applications, 8:S170–S174.CrossRefGoogle Scholar
Hanna, S. (2001). Managing the human-ecological interface: marine resources as example and laboratory. Ecosystems, 4:736–741.CrossRefGoogle Scholar
Hanson, J. M. and Lanteigne, M. (2000). Evaluation of Atlantic cod predation on American lobster in the southern Gulf of St. Lawrence, with comments on other potential fish predators. Transactions of the American Fisheries Society, 129:13–29.2.0.CO;2>CrossRefGoogle Scholar
Hardin, G. (1968). The tragedy of the commons. Science, 162:1243–1248.Google ScholarPubMed
Hardwood, J. (2000). Risk assessment and decision analysis in conservation. Biological Conservation, 95:219–225.CrossRefGoogle Scholar
Hare, J. A. and Able, K. W. (2007). Mechanistic links between climate and fisheries along the east coast of the United States: explaining population outbursts of Atlantic croaker (Micropogonias undulatus). Fisheries Oceanography, 16:31–45.CrossRefGoogle Scholar
Hayes, D. B., Ferreri, C. P., and Taylor, W. W. (1996). Linking fish habitat to their population dynamics. Canadian Journal of Fisheries and Aquatic Science, 53: 383–390.CrossRefGoogle Scholar
Helgason, T. and Gislason, H. (1979). VPA-analysis with Species Interaction Due to Predation. ICES Document CM 1979/G:52, 193 pp.Google Scholar
Hennessey, T. M. and Sutinen, J. G. (eds.) (2005). Sustaining Large Marine Ecosystems: The Human Dimension. Amsterdam: Elsevier Science.Google Scholar
Heymans, J. J. and Baird, D. (2000). Network analysis of the northern Benguela ecosystem by means of NETWRK and ECOPATH. Ecological Modelling, 131:97–119.CrossRefGoogle Scholar
Hickling, C. F. (1946). The recovery of a deep sea fishery. In UK Ministry of Agriculture and Fisheries, Fisheries Investigations (Series 2), 17:1–59.
Hilborn, R. (2004). Ecosystem-based fisheries management: the carrot or the stick? In Browman, H. I. and K. I. Stergiou (eds.), Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274:275–278.
Hilborn, R. (2006). Faith-based fisheries. Fisheries, 31:554–555.Google Scholar
Hilborn, R. (2007). Managing fisheries is managing people: what has been learned?Fish and Fisheries, 8:285–296.CrossRefGoogle Scholar
Hilborn, R. and Mangel, M. (1997). The Ecological Detective: Confronting Models with Data. Princeton, NJ: Princeton University Press.Google Scholar
Hilborn, R. and Walters, C. J. (1992). Quantitative Fisheries Stock Assessment: Choice, Dynamics and Uncertainty. New York: Chapman and Hall.CrossRefGoogle Scholar
Hjort, J. (1914). Fluctuations in the great fisheries of Northern Europe, viewed in the light of biological research. Rapports et Procès-Verbaux des Réunions du Conseil Permanent International pour l'Exploration de la Mer, 20:1–228.Google Scholar
Hobday, A. J., Smith, A., Stobutzki, I., et al. (2004). Ecological risk assessment for Australian Commonwealth fisheries. Final Report Stage 1. Hazard identification and preliminary risk assessment. Report R01/0934. Hobart, Tasmania: CSIRO Marine Research, 74 pp.Google Scholar
Hobday, A. J., Smith, A., Webb, H., et al. (2007). Ecological risk assessment for the effects of fishing: methodology. Report R04/1072. for the Australian Fisheries Management Authority, Canberra, Australia, 186 pp.Google Scholar
Hoenig, J. M. (1983). Empirical use of longevity data to estimate mortality rates. Fishery Bulletin, 82:898–902.Google Scholar
Holland, D. S. (2002). Integrating marine protected areas into models for fishery assessment and management. Natural Resource Modeling, 15:369–386.CrossRefGoogle Scholar
Holling, C. S. (1978). Adaptive Environmental Assessment and Management. New York: Wiley.Google Scholar
Holling, C. S. (2001). Understanding the complexity of economic, ecological, and social systems. Ecosystems, 4:390–405.CrossRefGoogle Scholar
Hollowed, A. B. and Wooster, W. S. (1995). Decadal-scale variations in the eastern subarctic Pacific. 2. Response of northeast Pacific fish stocks. Canadian Special Publication in Fisheries and Aquatic Sciences 121:373–385.Google Scholar
Hollowed, A. B., Brown, E., Ianelli, J., et al. (1997). Walleye Pollock. Stock Assessment and Fishery Evaluation Report for Gulf of Alaska as Projected for 1998. Anchorage, AK: North Pacific Fisheries Management Council.Google Scholar
Hollowed, A. B., Bax, N., Beamish, R., et al. (2000a). Are multispecies models an improvement on single-species models for measuring fishing impacts on marine ecosystems?ICES Journal of Marine Science, 57:707–719.CrossRefGoogle Scholar
Hollowed, A. B., Ianelli, J. N., and Livingston, P. A. (2000b). Including predation mortality in stock assessments: a case study for Gulf of Alaska walleye pollock. ICES Journal of Marine Science, 57:279–293.CrossRefGoogle Scholar
Hollowed, A. B., Hare, S. R., and Wooster, W. S. (2001). Pacific Basin climate variability and patterns of Northeast Pacific marine fish production. Progress in Oceanography, 49:257–282.CrossRefGoogle Scholar
Hutchings, J. A. (2000). Collapse and recovery of marine fishes. Nature, 406:882–885.CrossRefGoogle ScholarPubMed
Hutchings, J. A. and Reynolds, J. D. (2004). Marine fish population collapses: consequences for recovery and extinction risk. BioScience, 54:297–309.CrossRefGoogle Scholar
Huxley, T. H. (1884). Inaugural address. Fisheries Exhibition Literature, 4:1–22.Google Scholar
,ICES (International Council for the Exploration of the Sea) (2003). Report of the Working Group on Ecosystem Effects of Fishing Activities. ICES Document CM 2003/ACE:05, 193 pp.Google Scholar
,ICES (International Council for the Exploration of the Sea) (2008). Report of the Working Group on Multispecies Assessment Methods (WGSAM), 6–10 October 2008, ICES Headquarters, Copenhagen. ICES Document CM 2008/RMC:06.Google Scholar
,IOOS (Integrated Ocean Observing System) (2007). Available www.ocean.us/ioos_ observing_system. Accessed December 2, 2007.
,IPCC (2007). Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.Google Scholar
,IWC (International Whaling Commission) (2008). Report of the International Whaling Commission, Volume 60. Cambridge, UK: IWC.Google Scholar
Jackson, J. B. C., et al. (2001). Historical overfishing and the recent collapse of coastal ecosystems. Science, 293:629–638.CrossRefGoogle ScholarPubMed
Jacobson, L. D. and McCall, A. D. (1995). Stock-recruitment models for Pacific sardine (Sardinops sagax). Canadian Journal of Fisheries and Aquatic Science, 52:566–577.CrossRefGoogle Scholar
Jacobson, L. D., Bograd, S. J., Parrish, R. H., Mendelssohn, R., and Schwing, F. B. (2005). An ecosystem-based hypothesis for climatic effects on surplus production in California sardine (Sardinops sagax) and environmentally dependent surplus production models. Canadian Journal of Fisheries and Aquatic Science, 62:1782–1796.CrossRefGoogle Scholar
Jamieson, G., O'Boyle, R., Arbour, J., et al. (2001). Proceedings of the National Workshop on Objectives and Indicators for Ecosystem-based Management. Canadian Stock Assessment Secretariat (CSAS) Proceedings Series 2001/9, Ottawa, Canada: DFO, CSAS, 142 pp.Google Scholar
Jennings, S. (2005). Indicators to support an ecosystem approach to fisheries. Fish and Fisheries, 6:212–232.CrossRefGoogle Scholar
Jennings, S. and Kaiser, M. J. (1998). The effects of fishing on marine ecosystems. Advances in Marine Biology, 34:201–352.CrossRefGoogle Scholar
Jennings, S., Reynolds, J. D., and Polunin, N. V. C. (1999). Predicting the vulnerability of tropical reef fishes to exploitation with phylogenies and life histories. Conservation Biology, 13:1466–1475.CrossRefGoogle Scholar
Jorgensen, S. E. (1992). Exergy and ecology. Ecological Modelling, 63:185–214.CrossRefGoogle Scholar
Jurado-Molina, J. and Livingston, P. (2002). Multispecies perspectives on the Bering Sea groundfish fisheries management regime. North American Journal of Fisheries Management, 22:1164–1175.2.0.CO;2>CrossRefGoogle Scholar
Jurado-Molina, J., Livingston, P., and Ianelli, J. (2005). Incorporating predation interactions in a statistical catch-at-age model for a predator-prey system in the Eastern Bering Sea. Canadian Journal of Fisheries and Aquatic Science, 62:1865–1873.CrossRefGoogle Scholar
Kaiser, M. J. (2003). Detecting the effects of fishing on seabed community diversity: importance of scale and sample size. Conservation Biology, 17:512–520.CrossRefGoogle Scholar
Kaiser, M. J. and Groot, S. J. (2000). Effects of Fishing on Non-Target Species and Habitats. Oxford, UK: Blackwell Science.Google Scholar
Kaiser, M. J. and Edwards-Jones, G. (2006). The role of ecolabeling in fisheries management and conservation. Conservation Biology, 20:392–398.CrossRefGoogle ScholarPubMed
Kaiser, M. J., Collie, J. S., Hall, S. J., Jennings, S., and Poiner, I. R. (2002). Modification of marine habitats by trawling activities: prognosis and solutions. Fish and Fisheries, 3:114–136.CrossRefGoogle Scholar
Kavanagh, P., Newlands, N., Christensen, V., and Pauly, D. (2004). Automated parameter optimization for EcoPath ecosystem models. Ecological Modelling, 172:141–149.CrossRefGoogle Scholar
Keyl, F. and Wolff, M. (2008). Environmental variability and fisheries: what can models do?Reviews in Fish Biology and Fisheries, 18:273–299.CrossRefGoogle Scholar
Kurtz, J. C., Jeckson, L. E., and Fisher, W. S. (2001). Strategies for evaluating indicators based on guidelines from the Environmental Protection Agency's Office of Research and Development. Ecological Indicators, 1:49–60.CrossRefGoogle Scholar
Lackey, R. T. (1998). Seven pillars of ecosystem management. Landscape and Urban Planning, 40:21–30.CrossRefGoogle Scholar
Laevastu, T. and Larkin, H. A. (1981). Marine Fisheries Ecosystem: Its Quantitative Evaluation and Management. Farnham, Surrey, UK: Fishing News Books.Google Scholar
Lane, D. E. and Stephenson, R. L. (1998). A framework for risk analysis in fisheries decision-making. ICES Journal of Marine Science, 55:1–13.CrossRefGoogle Scholar
Larkin, P. A. (1977). An epitaph for the concept of maximum sustainable yield. Transactions of the American Fisheries Society, 106:1–11.2.0.CO;2>CrossRefGoogle Scholar
Larkin, P. A. (1996). Concepts and issues in marine ecosystem management. Reviews in Fish Biology and Fisheries, 6:139–164.CrossRefGoogle Scholar
Leopold, A. (1949). A Sand County Almanac. Oxford, UK: Oxford University Press.Google Scholar
Leslie, H., Rosenberg, A. A., and Eagle, J. (2008). Is a new mandate needed for marine ecosystem-based management?Frontiers in Ecology and the Environment, 6:43–48.CrossRefGoogle Scholar
Leslie, P. H. and Gower, J. C. (1960). Properties of a stochastic model for the predator-prey type of interaction between two species. Biometrika, 47:219–301.CrossRefGoogle Scholar
Levin, P. S., Fogarty, M. J., Murawski, S. A., and Fluharty, D. (2009). Integrated ecosystem assessments: developing the scientific basis for ecosystem-based management of the ocean. Public Library of Science (PLOS) Biology, 7(1): e1000014 (0023–0028).Google ScholarPubMed
Libralato, S., Christensen, V., and Pauly, D. (2006). A method for identifying keystone species in food web models. Ecological Modelling, 195:153–171.CrossRefGoogle Scholar
Libralato, S., Coll, M., Tudela, S., Palomera, I., and Pranovi, F. (2008). Novel index for quantification of ecosystem effects of fishing as removal of secondary production. Marine Ecology Progress Series, 355:107–129.CrossRefGoogle Scholar
Lindeman, R. L. (1942). The trophic-dynamic aspect of ecology. Ecology, 23:399–418.CrossRefGoogle Scholar
Link, J. S. (2001). A framework for ecosystem-based fisheries management. In 7th National Stock Assessment Workshop (Re)Building Sustainable Fisheries and Marine Ecosystems. Santa Cruz, CA: NMFS, SWFSC, 15 pp.Google Scholar
Link, J. S. (2002a). Does food web theory work for marine ecosystems?Marine Ecology Progress Series, 230:1–9.CrossRefGoogle Scholar
Link, J. S. (2002b). Ecological considerations in fisheries management: when does it matter?Fisheries, 27:10–17.2.0.CO;2>CrossRefGoogle Scholar
Link, J. S. (2002c). What does ecosystem-based fisheries management mean?Fisheries, 27:18–21.Google Scholar
Link, J. S. (2005). Translation of ecosystem indicators into decision criteria. ICES Journal of Marine Science, 62:569–576.CrossRefGoogle Scholar
Link, J. S. (2007). Under-appreciated species in ecology: “ugly fish” in the Northwest Atlantic Ocean. Ecological Applications, 17:2037–2060.CrossRefGoogle Scholar
Link, J. S. and Almeida, F. P. (2000). An Overview in History of the Food Web Dynamics Program of the Northeast Fisheries Science Center, Woods Hole, Massachusetts. NOAA Technical Memorandum NMFS-NE-159, 60 pp.Google Scholar
Link, J. S. and Brodziak, J. (eds.) (2002). Status of the Northeast U.S. Continental Shelf Ecosystem: A Report of the Northeast Fisheries Science Center's Ecosystem Status Working Group. Northeast Fisheries Science Center Reference Document 02–11, 245 pp.Google Scholar
Link, J. S. and Idoine, J. S. (2009). Estimates of predator consumption of the northern shrimp Pandalus borealis, with implications for estimates of population biomass in the Gulf of Maine. North American Journal of Fisheries Management, 29:1567–1583.CrossRefGoogle Scholar
Link, J. S. and Sosebee, K. (2008). Estimates and implications of skate consumption in the northeastern U.S. continental shelf ecosystem. North American Journal of Fisheries Management, 28:649–662.CrossRefGoogle Scholar
Link, J. S., Brodziak, J. K. T., Edwards, S. F., et al. (2002a). Marine ecosystem assessment in a fisheries management context. Canadian Journal of Fisheries and Aquatic Science, 59:1429–1440.CrossRefGoogle Scholar
Link, J. S., Garrison, L. P., and Almeida, F. P. (2002b). Interactions between elasmobranchs and groundfish species (Gadidae and Pleuronectidae) on the Northeast U.S. shelf. I. Evaluating predation. North American Journal of Fisheries Management, 22:550–562.2.0.CO;2>CrossRefGoogle Scholar
Link, J. S., Almeda, F., Valentine, P., et al. (2005a). The effect of area closures on Georges Bank. AFS Symposium, 41:345–368.Google Scholar
Link, J. S., Fogarty, M. J., and Langton, R. W. (2005b). The trophic ecology of flatfishes. In Gibson, R. N. (ed.), Biology of Flatfishes. Oxford, UK: Blackwell Science, pp. 185–212.CrossRefGoogle Scholar
Link, J. S., Stockhausen, W. T., and Methratta, E. T. (2005c). Food web theory in marine ecosystems. In Belgrano, A., Scharler, U. M., Dunne, J., and Ulanowicz, R. E. (eds.), Aquatic Food Webs: An Ecosystem Approach. Oxford, UK: Oxford University Press.CrossRefGoogle Scholar
Link, J. S., Overholtz, W., O'Reilly, J., et al. (2008). An overview of EMAX: the Northeast U.S. continental shelf ecological network. Journal of Marine Systems, 74:453–474.CrossRefGoogle Scholar
Link, J. S., Col, L., Guida, V., et al. (2009a). Response of balanced network models to large-scale perturbation: implications for evaluating the role of small pelagics in the Gulf of Maine. Ecological Modelling, 220:351–369.CrossRefGoogle Scholar
Link, J. S., Bogstad, B., Sparholt, H., and Lilly, G. R. (2009b). The role of cod in the ecosystem. Fish and Fisheries, 10:58–87.CrossRefGoogle Scholar
Link, J. S., Yemane, D., Shannon, L. J., et al. (2010). Relating marine ecosystem indicators to fishing and environmental drivers: an elucidation of contrasting responses. ICES Journal of Marine Science, 67:787–795.CrossRefGoogle Scholar
Livingston, P. (ed.) (2002). Ecosystem Considerations for 2003. Groundfish Plan Team Document. Anchorage, AK: Management Council North Pacific Fishery.Google Scholar
Livingston, P. and Jurado-Molina, J. (2000). A multispecies virtual population analysis of the eastern Bering Sea. ICES Journal of Marine Science, 57:294–299.CrossRefGoogle Scholar
Lotka, A. J. (1925). Elements of Physical Biology. Baltimore, MD: Williams and Wilkins.Google Scholar
Lotze, H. K. (2004). Repetitive history of resource depletion and mismanagement: the need for a shift in perspective. In Browman, H. I. and K. I. Stergiou (eds.) Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274: 282–285.
Lotze, H. K., Lenihan, H. S., Bourque, B. J., et al. (2006). Depletion, degradation, and recovery potential of estuaries and coastal seas. Science, 312:1806–1809.CrossRefGoogle ScholarPubMed
Loughlin, T. R. and Merrick, R. L. (1989). Comparison of commercial harvest of walleye pollock and northern sea lion abundance in the Bering Sea and Gulf of Alaska. In Proceedings of the International Symposium on the Biology and Management of Walleye Pollock, 14–16 November 1988, Anchorage, Alaska. Vol. AK-SG-89–01. Fairbanks, AK: Alaska Sea Grant Program.Google Scholar
Ludwig, D. and Walters, C. J. (1989). A robust method for parameter estimation from catch and effort data. Canadian Journal of Fisheries and Aquatic Science, 46:137–144.CrossRefGoogle Scholar
Ludwig, D., Mangel, M., and Haddad, B. (2001). Ecology, conservation and public policy. Annual Review of Ecology and Systematics, 32:481–517.CrossRefGoogle Scholar
Mace, G. M., Collar, N. J., Gaston, K. J., et al. (2008). Quantification of extinction risk: IUCN's system for classifying threatened species. Conservation Biology, 22:1424–1442.CrossRefGoogle ScholarPubMed
Mace, P. M. (2001). A new role for MSY in single-species and ecosystem approaches to fisheries stock assessment and management. Fish and Fisheries, 2:2–32.CrossRefGoogle Scholar
Mace, P. M. (2004). In defense of fisheries scientists, single-species models and other scapegoats: confronting the real problems. In Browman, H. I. and K. I. Stergiou (eds.), Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274:285–291.
Magnusson, K. G. (1995). An overview of the multispecies VPA – theory and applications. Reviews in Fish Biology and Fisheries, 5:195–212.CrossRefGoogle Scholar
Malone, C. R. (2000). Ecosystem management policies in state government of the USA. Landscape and Urban Planning, 48:57–64.CrossRefGoogle Scholar
Mangel, M. and Levin, P. S. (2005). Regime, phase and paradigm shifts: making community ecology the basic science for fisheries. Philosophical Transactions of the Royal Society B, 360:95–105.CrossRefGoogle ScholarPubMed
Mangel, M., Talbot, L. M., Meffe, G. K., et al. (1996). Principles for the conservation of wild living resources. Ecological Applications, 6:338–362.CrossRefGoogle Scholar
Marasco, R. J., Goodman, D., Grimes, C. B., et al. (2007). Ecosystem-based fisheries management: some practical suggestions. Canadian Journal of Fisheries and Aquatic Science, 64:928–939.CrossRefGoogle Scholar
May, R. M., Beddington, J. R., Clark, C. W., Holt, S. J., and Laws, R. M. (1979). Management of multispecies fisheries. Science, 205:267–277.CrossRefGoogle ScholarPubMed
McCall, A. D. (1996). Patterns of Low-frequency Variability in Fish Populations of the California Current. CalCOFI (California Cooperative Oceanic Fishery Investigations) Reports, 37:100–110.
Merrick, R. L., Chumbley, M. K., and Byrd, G. V. (1997). Diet diversity of Steller sea lions (Eumetopias jubatus) and their population decline in Alaska: a potential relationship. Canadian Journal of Fisheries and Aquatic Science, 54:1342–1348.CrossRefGoogle Scholar
Methratta, E. T. and Link, J. S. (2006). Evaluation of quantitative indicators for marine fish communities. Ecological Indicators, 6:575–588.CrossRefGoogle Scholar
Milton, D. A. (2001). Assessing the susceptibility to fishing of populations of rare trawl bycatch: sea snakes caught by Australia's Northern Prawn Fishery. Biological Conservation, 101:281–290.CrossRefGoogle Scholar
Moustahfid, H., Link, J. S., Overholtz, W. J., and Tyrell, M. C. (2009). The advantage of explicitly incorporating predation mortality into age-structured stock assessment models: an application for Northwest Atlantic mackerel. ICES Journal of Marine Science, 66:445–454.CrossRefGoogle Scholar
Mueter, F. J. and Litzow, M. A. (2008). Sea ice retreat alters the biogeography of the Bering Sea continental shelf. Ecological Applications, 18:309–320.CrossRefGoogle ScholarPubMed
Mueter, F. J. and Megrey, B. A. (2006). Using multi-species surplus production models to estimate ecosystem-level maximum sustainable yields. Fisheries Research, 81:189–201.CrossRefGoogle Scholar
Mullon, C., Fréon, P., and Cury, P. (2005). The dynamics of collapse in world fisheries. Fish and Fisheries, 6:111–120.CrossRefGoogle Scholar
Murawski, S. A. (1984). Mixed-species yield per recruitment analyses accounting for technological interactions. Canadian Journal of Fisheries and Aquatic Science, 41:897–916.CrossRefGoogle Scholar
Murawski, S. A. (2000). Definitions of overfishing from an ecosystem perspective. ICES Journal of Marine Science, 57:649–658.CrossRefGoogle Scholar
Murawski, S. A. (2007). Ten myths concerning ecosystem approaches to marine resource management. Marine Policy, 31:681–690.CrossRefGoogle Scholar
Murawski, S. A., Brown, R., Lai, H.-L., Rago, P. J., and Hendrickson, L. (2000). Large-scale closed areas as a fishery-management tool in temperate marine systems: the Georges Bank experience. Bulletin of Marine Science, 66:775–798.Google Scholar
Murphy, B. R. and Willis, W. (eds.) (1996). Fisheries Techniques. Bethesda, MD: American Fisheries Society.Google Scholar
Musick, J. A. (1999). Criteria to define extinction risk in marine fishes. Fisheries, 24:6–14.2.0.CO;2>CrossRefGoogle Scholar
Myers, R. A. and Worm, B. (2003). Rapid worldwide depletion of predatory fish communities. Nature, 423:280–283.CrossRefGoogle ScholarPubMed
Myers, R. A., Hutchings, J. A., and Barrowman, N. J. (1997). Why do fish stocks collapse? The example of cod in Atlantic Canada. Ecological Applications, 7:91–106.CrossRefGoogle Scholar
Myers, R. A., Baum, J. K., Shepherd, T. D., Powers, S. P., and Peterson, C. H. (2007). Cascading effects of the loss of apex predatory sharks from a coastal ocean. Science, 315:1846–1850.CrossRefGoogle ScholarPubMed
,NEFSC (Northeast Fisheries Science Center) (2006). 42nd Northeast Regional Stock Assessment Workshop (42nd SAW) Stock Assessment Report. Part B: Expanded Multispecies Virtual Population Analysis (MSVPA-X) Stock Assessment Model. Northeast Fisheries Science Center Reference Document 06–09. Woods Hole, MA: NEFSC.Google Scholar
,NEFSC (Northeast Fisheries Science Center) (2008). Assessment of 19 Northeast Groundfish Stocks through 2007. In Report of the 3rd Groundfish Assessment Review Meeting (GARM III), Northeast Fisheries Science Center, Woods Hole, Massachusetts, August 4–8, 2008. Section 2.1. Northeast Fisheries Science Center Reference Document 08–1, pp. 855–865.Google Scholar
Nelson, G. A., Chase, B. C., and Stockwell, J. (2003). Food habits of striped bass (Morone saxatilis) in coastal waters of Massachusetts. Journal of Northwest Atlantic Fishery Science, 32:1–25.CrossRefGoogle Scholar
Nicholson, M. D. and Jennings, S. (2004). Testing candidate indicators to support ecosystem-based management: the power of monitoring surveys to detect temporal trends in fish community metrics. ICES Journal of Marine Science, 61:35–42.CrossRefGoogle Scholar
,NMFS (National Marine Fisheries Service) (1999). Ecosystem-based Fishery Management. A report to Congress by the Ecosystems Principles Advisory Panel. Silver Spring, MD: U.S. Department of Commerce.Google Scholar
,NOAA CBO (Chesapeake Bay Fisheries Ecosystem Advisory Panel) (2006). Fisheries Ecosystem Planning for Chesapeake Bay. Bethesda, MD: American Fisheries Society.Google Scholar
Norton, B. G. and Noonan, D. (2007). Ecology and valuation: big changes needed. Ecological Economics, 63:664–675.CrossRefGoogle Scholar
,NPFMC (North Pacific Fishery Management Council) (2008). Aleutian Islands Fishery Ecosystem Plan. Anchorage, AK: NPFMC.Google Scholar
,NRC (National Research Council) (1999). Sustaining Marine Fisheries. Washington, DC: National Academy Press.Google Scholar
O'Boyle, R. and Jamieson, G. (2006). Observations on the implementation of ecosystem-based management: experiences on Canada's east and west coasts. Fisheries Research, 79:1–12.CrossRefGoogle Scholar
O'Boyle, R., Sinclair, M., Keizer, P., et al. (2005). Indicators for ecosystem-based management on the Scotian Shelf: bridging the gap between theory and practice. ICES Journal of Marine Science, 62:598–605.CrossRefGoogle Scholar
Odum, E. P. (1969). The strategy of ecosystem development. Science, 164:262–270.CrossRefGoogle ScholarPubMed
Odum, H. T. (1957). Trophic structure and productivity of Silver Springs, Florida. Ecological Monographs, 27:55–112.CrossRefGoogle Scholar
Orensanz, J. M. and Jamieson, G. S. (1998). The assessment and management of spatially explicit stocks: an overview of the North Pacific Symposium on Invertebrate Stock assessment and management. In Jamieson, G. S. and Campbell, A. (eds.), Proceedings of the North Pacific Symposium on Invertebrate Stock Assessment and Management. Canadian Special Publication in Fisheries and Aquatic Sciences, 125: 441–459.Google Scholar
Ostrom, E., Burger, J., Field, C. B., Norgaard, R. B., and Policansky, D. (1999). Revisiting the commons: local lessons, global challenges. Science, 284:278–282.CrossRefGoogle ScholarPubMed
Overholtz, W. J., Jacobson, L. D., and Link, J. S. (2008). Developing an ecosystem approach for assessment advice and biological reference points for the Gulf of Maine–Georges Bank herring complex: adding the impact of predation mortality. North American Journal of Fisheries Management, 28:247–257.CrossRefGoogle Scholar
Pascoe, S. (2006). Food for thought. ICES Journal of Marine Science, 63:1–3.CrossRefGoogle Scholar
Patrick, W. S. and Damon-Randall, K. (2008). Using a five-factored structured decision analysis to evaluate the extinction risk of Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus). Biological Conservation, 141:2906–2911.CrossRefGoogle Scholar
Patrick, W. S., Spencer, P., Ormseth, O., et al. (2009). Use of Productivity and Susceptibility Indices to Determine the Vulnerability of a Stock: With Example Applications to Six U.S. Fisheries. Final Report of the National Marine Fisheries Service Vulnerability Evaluation Work Group. Silver Spring, MD.Google Scholar
Pauly, D. (2003). Ecosystem impacts of the world's marine fisheries. Global Change Newsletter, 55:21–23.Google Scholar
Pauly, D. and Christensen, V. (1995). Primary production required to sustain global fisheries. Nature, 374:255–257.CrossRefGoogle Scholar
Pauly, D., Christensen, V., Dalsgaard, J., Froese, R., and Torres, F. C., Jr. (1998). Fishing down marine food webs. Science, 279:860–863.CrossRefGoogle ScholarPubMed
Pauly, D., Christensen, V., Guénette, S., et al. (2002). Towards sustainability in world fisheries. Nature, 418:689–695.CrossRefGoogle ScholarPubMed
Pauly, D., Alder, J., Bennett, E., et al. (2003). The future for fisheries. Science, 302:1359–1361.CrossRefGoogle ScholarPubMed
Pella, J. J. and Tomlinson, P. K. (1969). A generalized stock-production model. Bulletin of the Inter-American Tropical Tuna Commission, 13:419–496.Google Scholar
Perez, M. A. (1990). Review of Marine Mammal Population and Prey Information for Bering Sea Ecosystem Studies. NOAA Technical Memorandum NMFS F/NWC-186, 81 pp.Google Scholar
Perry, A. L., Low, P. J., Ellis, J. R., and Reynolds, J. D. (2005). Climate change and distribution shifts in marine fishes. Science, 308:1912–1915.CrossRefGoogle ScholarPubMed
Peterman, R. M. (1990). Statistical power analysis can improve fisheries research and management. Canadian Journal of Fisheries and Aquatic Science, 47:2–15.CrossRefGoogle Scholar
Peterman, R. M. (2004). Possible solutions to some challenges facing fisheries scientists and managers. ICES Journal of Marine Science, 61:1331–1343.CrossRefGoogle Scholar
Peterman, R. M. and Anderson, J. L. (1999). Decision analysis: a method for taking uncertainties into account in risk-based decision making. Human and Ecological Risk Assessment, 5:231–244.CrossRefGoogle Scholar
Peters, C. N. and Marmorek, D. R. (2001). Application of decision analysis to evaluate recovery actions for threatened Snake River spring and summer chinook salmon. Canadian Journal of Fisheries and Aquatic Science, 58:2431–2466.CrossRefGoogle Scholar
Pikitch, E. K., Santora, C., Babcock, E. A., et al. (2004). Ecosystem-based fishery management. Science, 305:346–347.CrossRefGoogle ScholarPubMed
Pitcher, T. J. (2001). Fisheries managed to rebuild ecosystems? Reconstructing the past to salvage the future. Ecological Applications, 11:601–617.CrossRefGoogle Scholar
Pitcher, T. J., Kalikoski, D., Short, K., Varkey, D., and Pramod, G. (2009). An evaluation of progress in implementing ecosystem-based management of fisheries in 33 countries. Marine Policy, 33:223–232.CrossRefGoogle Scholar
Plagányi, É. E. (2007). Models for an Ecosystem Approach to Fisheries. FAO Fisheries Technical Paper 477. Rome, Italy: FAO, 108 pp.Google Scholar
,POC (Pew Oceans Commission) (2004). America's Living Oceans: Charting a Course for Sea Change: A Report to the Nation. Arlington, VA: Pew Oceans Commission, 143 pp.Google Scholar
Polovina, J. J. (1984). Model of a coral reef ecosystem. I. The ECOPATH model and its application to French Frigate Shoals. Coral Reefs, 3:1–11.CrossRefGoogle Scholar
Pope, J. G. (1979). A Modified Cohort Analysis in which Constant Mortality is Replaced by Estimates of Predation Levels. ICES Document CM 1979/H:16, 8 pp.Google Scholar
Pope, J. G., MacDonald, D. S., Daan, N., Reynolds, J. D., and Jennings, S. (2000). Gauging the impact of fishing mortality on non-target species. ICES Journal of Marine Science, 57:689–696.CrossRefGoogle Scholar
Prager, M. H. (1994). A suite of extensions to a nonequilibrium surplus–production model. Fishery Bulletin, 92:374–389.Google Scholar
Punt, A. and Butterworth, D. (1995). The effects of future consumption by the Cape fur seal on catches and catch rates of the Cape hakes. 4. Modelling the biological interaction between Cape fur seals Arctocephalus pusillus pusillus and the Cape hakes Merluccius capensis and M. paradoxis. South African Journal of Marine Science, 16:255–285.CrossRefGoogle Scholar
Punt, A. E. and Hilborn, R. (1997). Fisheries stock assessment and decision analysis: the Bayesian approach. Reviews in Fish Biology and Fisheries, 7:35–63.CrossRefGoogle Scholar
Punt, A. E. and Smith, A. D. M. (2001). The gospel of maximum sustainable yield in fisheries management: birth, crucifixion and reincarnation. In Reynolds, J. D., Mace, G. M., Redford, K. R., and Robinson, J. R. (eds.), Conservation of Exploited Species. Cambridge, UK: Cambridge University Press, pp. 41–66.Google Scholar
Purcell, J. E. C., Graham, W. M. C., and Dumont, H. J. C. (2001). Proceedings of the International Conference on Jellyfish Blooms. Hydrobiologia, 451:333.Google Scholar
Quinn, T. J. and Deriso, R. B. (1999). Quantitative Fish Dynamics. Oxford, UK: Oxford University Press.Google Scholar
Rabalais, N. N. and Turner, R. E. (2006). Oxygen depletion in the Gulf of Mexico adjacent to the Mississippi River. In Neretin, L. N. (ed.), Past and Present Marine Water Column Anoxia. NATO Science Series IV: Earth and Environmental Sciences. Dordrecht, the Netherlands: Kluwer, pp. 225–245.Google Scholar
Rabalais, N. N.Turner, R. E., Wiseman, W. J., Jr., and Boesch, D. F. (1991). A brief summary of hypoxia on the northern Gulf of Mexico continental shelf: 1985–1988. In Tyson, R. V. and Pearson, T. H. (eds.), Modern and Ancient Continental Shelf Anoxia. Geological Society Special Publication 58. London: The Geological Society.Google Scholar
Rabalais, N. N., Turner, R. E., Justić, D., Dortch, Q., and Wiseman, W. J., Jr. (1999). A Characterization of Hypoxia: Topic 1. Report for the Integrated Assessment on Hypoxia in the Gulf of Mexico. NOAA Coastal Ocean Program Decision Analysis Series 15. Silver Spring, MD: NOAA Coastal Ocean Program. 167 pp.Google Scholar
Rabalais, N. N., Turner, R. E., and Wiseman, W. J., Jr. (2001). Hypoxia in the Gulf of Mexico. Journal of Environmental Quality, 30:320–329.CrossRefGoogle ScholarPubMed
Rabalais, N. N., Turner, R. E., and Scavia, D. (2002a). Beyond science into policy: Gulf of Mexico hypoxia and the Mississippi River. BioScience, 52:129–142.CrossRefGoogle Scholar
Rabalais, N. N., Turner, R. E., and Wiseman, W. J., Jr. (2002b). Gulf of Mexico hypoxia, a.k.a., “The Dead Zone”. Annual Review of Ecology and Systematics, 33:235–263.CrossRefGoogle Scholar
Ragnarsson, S. Á., Jaworski, A., Paramor, O. A. L., et al. (2003). European Fisheries Ecosystem Plan: The North Sea Significant Web. EU Project number Q5RS-2001–016585. Reykjavik, Iceland: Marine Research Institute.Google Scholar
Restrepo, V. R. (1999). Proceedings of the Fifth National NMFS Stock Assessment Workshop: Providing Scientific Advice to Implement the Precautionary Approach Under the Magnuson-Stevens Fishery Conservation and Management Act. NOAA Technical Memorandum NMFS-F/SPO 40, 161 pp.Google Scholar
Restrepo, V. R., Thompson, G. G., Mace, P. M., et al. (1998). Technical Guidance on the Use of Precautionary Approaches to Implementing National Standard 1 of the Magnuson-Stevens Fishery Conservation and Management Act. NOAA Technical Memorandum NMFS-F/SPO 31, 54 pp.Google Scholar
Rice, J. C. (2000). Evaluating fishery impacts using metrics of community structure. ICES Journal of Marine Science, 57:682–688.CrossRefGoogle Scholar
Rice, J. C. (2003). Environmental health indicators. Ocean and Coastal Management, 46:235–259.CrossRefGoogle Scholar
Rice, J. C. and Rochet, M. -J. (2005). A framework for selecting a suite of indicators for fisheries management. ICES Journal of Marine Science 53:1214–1225.CrossRefGoogle Scholar
Richards, R. A. and Rago, P. J. (1999). A case history of effective fishery management: Chesapeake Bay striped bass. North American Journal of Fisheries Management, 19:356–375.2.0.CO;2>CrossRefGoogle Scholar
Ricker, W. E. (1954). Stock and recruitment. Journal of the Fisheries Research Board of Canada, 11:559–623.CrossRefGoogle Scholar
Roberts, C. M. and Hawkins, J. P. (1999). Extinction risk in the sea. TRENDS in Ecology and Evolution, 14:241–248.CrossRefGoogle Scholar
Rochet, M. -J. and Rice, J. C. (2009). Simulation-based management strategy evaluation: ignorance disguised as mathematics?ICES Journal of Marine Science, 66:754–762.CrossRefGoogle Scholar
Rochet, M. -J. and Trenkel, V. M. (2003). Which community indicators can measure the impact of fishing?Canadian Journal of Fisheries and Aquatic Sciences, 60:86–99.CrossRefGoogle Scholar
Rose, K. A. (2000). Why are quantitative relationships between environmental quality and fish populations so elusive?Ecological Applications, 10:367–385.CrossRefGoogle Scholar
Rosen, D. A. S. and Trites, A. W. (2000). Pollock and the decline of Steller sea lions: testing the junk-food hypothesis. Canadian Journal of Zoology, 78:1243–1250.CrossRefGoogle Scholar
Rosenberg, A. A. (2003). Managing to the margins: the overexploitation of fisheries. Frontiers in Ecology and the Environment, 1:102–106.CrossRefGoogle Scholar
Rosenberg, A. A. (2007). Fishing for certainty. Nature, 449:989.CrossRefGoogle ScholarPubMed
Rosenberg, A. A., Fogarty, M. J., Sissenwine, M. P., Beddington, J. R., and Shepherd, J. G. (1993). Achieving sustainable use of renewable resources. Science, 262:828–829.CrossRefGoogle ScholarPubMed
Rosenzweig, M. L. and MacArthur, R. H. (1963). Graphical representation and stability conditions of predator-prey interactions. American Naturalist, 97:209–223.CrossRefGoogle Scholar
Sainsbury, K. J. (1988). The ecological basis of multispecies fisheries and management of a demersal fishery in tropical Australia. In Gulland, J. A. (ed.), Fish Population Dynamics. London: John Wiley, pp. 349–382.Google Scholar
Sainsbury, K. J. (1991). Application of an experimental approach to management of a tropical multispecies fishery with highly uncertain dynamics. International Council for the Exploration of the Sea Marine Science Symposium, 193:301–320.Google Scholar
Sainsbury, K. J. (1998). Living marine resource assessment for the 21st Century: what will be needed and how will it be provided? In Funk, F., Quinn, I. T. J., Heifetz, J., et al. (eds.), Fishery Stock Assessment Models. Alaska Sea Grant College Program Report AK-SG-98–01. Fairbanks, AK: University of Alaska, pp. 1–40.Google Scholar
Sainsbury, K. J. and Sumaila, U. R. (2003). Incorporating ecosystem objectives into management of sustainable marine fisheries, including “best practice” reference points and use of marine protected areas. In Sinclair, M. and Valdimarson, G. (eds.), Responsible Fisheries in the Marine Ecosystem. Wallingford, UK: CAB International, pp. 343–361.CrossRefGoogle Scholar
Sainsbury, K. J., Campbell, R. A., Lindholm, R., and Whitelaw, A. W. (1997). Experimental management of an Australian multispecies fishery: examining the possibility of trawl induced habitat modification. In Pikitch, E. K., Huppert, D. D., and Sissenwine, M. P. (eds.), Global Trends: Fisheries Management. American Fisheries Society Symposium 20. Washington, DC: AFS, pp. 107–112.Google Scholar
Sainsbury, K. J., Punt, A. E., and Smith, A. D. M. (2000). Design of operational management strategies for achieving fishery ecosystem objectives. ICES Journal of Marine Science, 57:731–741.CrossRefGoogle Scholar
Schaefer, M. B. (1954). Some aspects of the dynamics of populations important to the management of commercial marine fisheries. Bulletin of the Inter-American Tropical Tuna Commission, 1:27–56.Google Scholar
Schaefer, M. B. (1956). The scientific basis for a conservation program. In Papers presented at the International Technical Conference on the Conservation of the Living Resources of the Sea. United Nations Publication 1956.II.B.1. New York: United Nations, pp. 15–55.Google Scholar
Schaefer, M. B. (1957). A study of the dynamics of the fishery for yellowfin tuna in the eastern tropical Pacific Ocean. Bulletin of the Inter-American Tropical Tuna Commission, 2:247–285.Google Scholar
Scheffer, M., Carpenter, S., and Young, B. (2005). Cascading effects of overfishing marine systems. TRENDS in Ecology and Evolution, 20:579–581.CrossRefGoogle Scholar
Schiller, A., Hunsaker, C. T., Kane, M. A., et al. (2001). Communicating ecological indicators to decision makers and the public. Conservation Ecology, 5:1–19.CrossRefGoogle Scholar
Schnute, J. T. and Haigh, R. (2006). Reference points and management strategies: lessons from quantum mechanics. ICES Journal of Marine Science, 63:4–11.CrossRefGoogle Scholar
Schnute, J. T., Maunder, M. N., and Ianelli, J. N. (2007). Designing tools to evaluate fishery management strategies: can the scientific community deliver?ICES Journal of Marine Science, 64:1077–1084.Google Scholar
Scott, A. D. (1989). Conceptual origins of rights based fishing. In Neher, P. A., Arnason, R. and Mollett, N. (eds.), Rights Based Fishing. Boston, MA: Kluwer Academic Publishers, pp. 11–38.CrossRefGoogle Scholar
Selgeby, J. H., Eshenroder, R. L., Krueger, C. C., Marsden, J. E., and Pycha, R. L. (1995). International conference on restoration of lake trout in the Laurentian Great Lakes. Journal of Great Lakes Research, 21 (Suppl. 1).CrossRefGoogle Scholar
Sette, O. E. (1943). Studies on the Pacific pilchard or sardine (Sardinops caerulea). In Structure of a Research Program to Determine How Fishing Affects the Resources. Special Scientific Report 19. Washington, DC: U.S. Fish and Wildlife Service.Google Scholar
Shiganova, T. A., Mirzoyan, Z. A., Studenikina, E. A., Volovick, S. P., et al. (2001). Population development of the invader ctenophore Mnemiopsis leidyi, in the Black Sea and in other seas of the Mediterranean basin. Marine Biology, 139:431–445.Google Scholar
Sibert, J., Hampton, J., Kleiber, P., and Maunder, M. (2006). Biomass, size, and trophic status of top predators in the Pacific Ocean. Science, 314:1773–1776.CrossRefGoogle ScholarPubMed
Sissenwine, M. P. (1978). Is MSY an adequate foundation for optimum yield?Fisheries, 3:22–42.2.0.CO;2>CrossRefGoogle Scholar
Sissenwine, M. P. and Mace, P. M. (2003). Governance for responsible fisheries: an ecosystem approach. In Sinclair, M. and Valdimarsson, G. (eds.), Responsible Fisheries in the Marine Ecosystem. Wallingford, UK: CAB International, pp. 363–390.CrossRefGoogle Scholar
Sissenwine, M. P. and Murawski, S. (2004). Moving beyond “intelligent tinkering”: advancing an ecosystem approach to fisheries. In Browman, H. I. and Stergiou, K. I. (eds.), Perspectives on ecosystem-based approaches to the management of marine resources. Marine Ecology Progress Series, 274: 291–295.Google Scholar
Sissenwine, M. P. and Shepherd, J. G. (1987). An alternate perspective on recruitment overfishing and biological reference points. Canadian Journal of Fisheries and Aquatic Science, 44:913–918.CrossRefGoogle Scholar
Skud, B. E. (1975). Revised Estimates of Halibut Abundance and the Thompson–Burkenroad Debate. Report of the International North Pacific Halibut Commission, Seattle, WA, 56 pp.Google Scholar
Slocombe, D. S. (1993). Implementing ecosystem-based management. BioScience, 43:612–622.CrossRefGoogle Scholar
Smith, A. D. M., Sainsbury, K. J., and Stevens, R. A. (1999). Implementing effective fisheries management systems: management strategy evaluation and the Australian partnership approach. ICES Journal of Marine Science, 56:967–979.CrossRefGoogle Scholar
Smith, A. D. M., Fulton, E. J., Hobday, A. J., Smith, D. C., and Shoulder, P. (2007). Scientific tools to support the practical implementation of ecosystem-based fisheries management. ICES Journal of Marine Science, 64:633–639.CrossRefGoogle Scholar
Smith, A. D. M., Smith, D. C., Tuck, G. N., et al. (2008). Experience in implementing harvest strategies in Australia's south-eastern fisheries. Fisheries Research, 94:373–379.CrossRefGoogle Scholar
Smith, T. D. (1994). Scaling Fisheries: The Science of Measuring the Effects of Fishing, 1855–1955. New York: Cambridge University Press.CrossRefGoogle Scholar
Smith, T. D. (1998). “Simultaneous and complementary advances": mid-century expectations of the interaction of fisheries science and management. Reviews in Fish Biology and Fisheries, 8:335–348.CrossRefGoogle Scholar
Smith, T. D. (2002). The Woods Hole bottom-trawl resource survey: development of fisheries-independent multispecies monitoring. In Anderson, E. D. (ed.), 100 Years of Science under ICES: Papers from a Symposium Held in Helsinki. ICES Marine Science Symposia 215. Copenhagen, Denmark: ICES, pp. 474–482.Google Scholar
Smith, T. D. and Link, J. S. (2005). Autopsy your dead…and living: a proposal for fisheries science, fisheries management and fisheries. Fish and Fisheries, 6:73–87.CrossRefGoogle Scholar
Solow, R. (1991). Sustainability: an economist's perspective. In Dorfman, R. and Dorfman, N. (eds.), Economics of the Environment. New York: W. W. Norton.Google Scholar
Steele, J. H. (1985). A comparison of terrestrial and marine ecological systems. Nature, 313:355–358.CrossRefGoogle Scholar
Steele, J. H. (1991). Can ecological theory cross the land-sea boundary?Journal of Theoretical Biology, 153:425–436.CrossRefGoogle Scholar
Stefánsson, G. and Pálsson, Ó. K. (1998). A framework for multispecies modelling of Boreal systems. Reviews in Fish Biology and Fisheries, 8:101–104.CrossRefGoogle Scholar
Stenson, G. B. and Hammill, M. O. (2006). Quantifying Uncertainty in Estimates of Atlantic Cod (Gadus morhua) Consumption by Harp Seals (Phoca groenlandica). Canadian Science Advisory Secretariat (CSAS) Research Document 2004/089. Ottawa, Canada: DFO, CSAS, 32 pp.Google Scholar
Stenson, G. B. and Perry, E. A. (2001). Incorporating Uncertainty into Estimates of Atlantic Cod (Gadus morhua), Capelin (Mallotus villosus) and Arctic Cod (Boreogadus saida) Consumption by Harp Seals (Pagophilus groenlandicus) in NAFO Divisions 2J3KL. Canadian Science Advisory Secretariat (CSAS) Research Document, 2001/074. Ottawa, Canada: DFO, CSAS, pp. 1–34.Google Scholar
Stenson, G. B., Hammill, M. O., and Lawson, J. W. (1997). Predation by harp seals in Atlantic Canada: preliminary consumption estimates for Arctic cod, capelin and Atlantic cod. Journal of Northwest Atlantic Fishery Science, 22:137–154.CrossRefGoogle Scholar
Stobutzki, I. C., Miller, M. J., Jones, P., and Salini, J. P. (2001a). Bycatch diversity and variation in a tropical Australian penaeid fishery: the implications for monitoring. Fisheries Research, 53:283–301.CrossRefGoogle Scholar
Stobutzki, I. C., Miller, M. J., and Brewer, D. (2001b). Sustainability of fishery bycatch: a process for assessing highly diverse and numerous bycatch. Environmental Conservation, 28:167–181.CrossRefGoogle Scholar
Stobutzki, I. C., Miller, M. J., Heales, D. S., and Brewer, D. T. (2002). Sustainability of elasmobranchs caught as bycatch in a tropical prawn (shrimp) trawl fishery. Fishery Bulletin, 100:800–821.Google Scholar
Suter, G. W. (1993). Ecological Risk Assessment. Boca Raton, FL: Lewis Publishers.Google Scholar
Symes, D. and Phillipson, J. (2009). Whatever became of social objectives in fisheries policy?Fisheries Research, 95:1–5.CrossRefGoogle Scholar
Tasker, M. L., Camphuysen, C. J., Cooper, J., et al. (2000). The impacts of fishing on marine birds. ICES Journal of Marine Science, 57:531–547.CrossRefGoogle Scholar
Thomas, J. W. (2000). From managing a deer herd to moving a mountain: one pilgrim's progress. Journal of Wildlife Management, 64:1–10.CrossRefGoogle Scholar
Thomas, J. W. (2004). The Journals of a Forest Service Chief. University of Washington Press.Google Scholar
Thompson, W. F. (1922). The marine fisheries, the state and the biologist. Scientific Monthly, 15:542–550.Google Scholar
Tjelmeland, S. and Bogstad, B. (1998). MULTSPEC: a review of a multispecies modelling project for the Barents Sea. Fisheries Research, 37:127–142.CrossRefGoogle Scholar
Townsend, H. M., Link, J. S., Osgood, K. E., et al. (2008). Report of the NEMoW (National Ecosystem Modeling Workshop). NOAA Technical Memorandum NMFS-F/SPO-87, 93 pp.Google Scholar
Trenkel, V. M. and Rochet, M.-J. (2003). Performance of indicators derived from abundance estimates for detecting the impact of fishing on a community. Canadian Journal of Fisheries and Aquatic Sciences, 60:67–85.CrossRefGoogle Scholar
Trites, A. W., Livingston, P. A., Mackinson, S., et al. (1999). Ecosystem Change and the Decline of Marine Mammals in the Eastern Bering Sea: Testing the Ecosystem Shift and Commercial Whaling Hypotheses. Fisheries Centre Research Reports 7(1). Vancouver, Canada: University of British Columbia, 106 pp.Google Scholar
Tsou, T. S. and Collie, J. (2001a). Predation-mediated recruitment in the Georges Bank fish community. ICES Journal of Marine Science, 58:994–1001.CrossRefGoogle Scholar
Tsou, T. S. and Collie, J. (2001b). Estimating predation mortality in the Georges Bank fish community. Canadian Journal of Fisheries and Aquatic Science, 58: 908–922.CrossRefGoogle Scholar
Tudela, S., Coll, M., and Palomera, I. (2005). Developing an operational reference framework for fisheries management on the basis of a two-dimensional index of ecosystem impact. ICES Journal of Marine Science, 62:585–591.CrossRefGoogle Scholar
Tyrrell, M. C., Link, J. S., Moustahfid, H., and Overholtz, W. J. (2009). Evaluating the effect of predation mortality on forage species population dynamics in the Northwest Atlantic continental shelf ecosystem: an application using multispecies virtual population analysis. ICES Journal of Marine Science, 65:1689–1700.CrossRefGoogle Scholar
Tyrrell, M. C., Link, J. S., and Moustahfid, H. (2010). The importance of including predation in some fish population models: implications for biological reference points. Fisheries, in press.Google Scholar
Turner, R. E. and Rabalais, N. N. (1994). Coastal eutrophication near the Mississippi river delta. Nature, 368:619–621.CrossRefGoogle Scholar
Ulanowicz, R. E. (1986). Growth and Development: Ecosystem Phenomenology. New York: Springer.CrossRefGoogle Scholar
Ulanowicz, R. E. (1997). Ecology: The Ascendant Perspective. New York: Columbia University Press.Google Scholar
Ulanowicz, R. E. (2004). Quantitative methods for ecological network analysis. Computational Biology and Chemistry, 28:321–339.CrossRefGoogle ScholarPubMed
Ulanowicz, R. E. and Kay, J. J. (1991). A package for the analysis of ecosystem flow networks. Environmental Modelling and Software, 6:131–142.CrossRefGoogle Scholar
Ulanowicz, R. E. and Norden, J. S. (1990). Symmetrical overhead in flow and networks. International Journal of Systems Science, 21:429–437.CrossRefGoogle Scholar
Ulanowicz, R. E. and Puccia, C. J. (1990). Mixed trophic impacts in ecosystems. Coenoses, 5:7–16.Google Scholar
,USCOP (U.S. Commission on Ocean Policy) (2004). An Ocean Blueprint for the 21st Century. Washington, DC: U.S. Commission on Ocean Policy.Google Scholar
,USDA (U.S. Department of Agriculture) (2009). Census of Agriculture 2007. Geographic Area Series, Part 51, Vol. 1 AC-07-A-51. Washington, DC: USDA, 739 pp.Google Scholar
Utne, I. B. (2006). Systems engineering principles in fisheries management. Marine Policy, 30:624–634.CrossRefGoogle Scholar
Vézina, A. F. and Pahlow, M. (2003). Reconstruction of ecosystem flows using inverse methods: how well do they work?Journal of Marine Systems, 40–41:55–77.CrossRefGoogle Scholar
Viaroli, P., Lasserre, P., and Campostrini, P. (eds.) (2007). Lagoons and Coastal Wetlands in the Global Change Context: Impacts and Management Issues. Dordrecht, The Netherlands: Springer.CrossRefGoogle Scholar
Vinther, M. (2001). Ad hoc multispecies tuning applied for the Baltic and the North Sea fish stocks. ICES Journal of Marine Science, 58:311–320.CrossRefGoogle Scholar
Volterra, V. (1926). Fluctuations in the abundance of a species considered mathematically. Nature, 118:558–560.CrossRefGoogle Scholar
Walters, C. (1986). Adaptive Management of Renewable Resources. Caldwell, NJ: The Blackburn Press.Google Scholar
Walters, C. J. and Collie, J. S. (1988). Is research on environmental factors useful to fisheries management?Canadian Journal of Fisheries and Aquatic Science 45:1848–1854.CrossRefGoogle Scholar
Walters, C. J. and Kitchell, J. F. (2001). Cultivation/depensation effects on juvenile survival and recruitment: implications for the theory of fishing. Canadian Journal of Fisheries and Aquatic Science, 58:39–50.CrossRefGoogle Scholar
Walters, C. J., Christensen, V., and Pauly, D. (1997). Structuring dynamic models of exploited ecosystems from trophic mass-balance assessments. Reviews in Fish Biology and Fisheries, 7:139–172.CrossRefGoogle Scholar
Walters, C. J., Christensen, V., Martell, S. J., and Kitchell, J. F. (2005). Possible ecosystem impacts of applying MSY policies from single-species assessment. ICES Journal of Marine Science, 62:558–568.CrossRefGoogle Scholar
Ward, T., Tarte, D., Hegerl, E., and Short, K. (2002). Ecosystem-based Management of Marine Capture Fisheries. Sydney, Australia: World Wide Fund for Nature.Google Scholar
Ware, D. M. and Thomson, R. E. (2005). Bottom-up ecosystem trophic dynamics determine fish production in the Northeast Pacific. Science, 308:1280–1284.CrossRefGoogle ScholarPubMed
Waskow, A. (1995). Down to Earth Judaism. New York: Morrow.Google Scholar
,WCED (United Nations World Commission on Environment and Development). (1987). Our Common Future: Report of the World Commission on Environment and Development (a.k.a. Brundtland Report). Published as Annex to General Assembly Document A/42/427, Development and International Co-operation: Environment. Oxford, UK: Oxford University Press.Google Scholar
Whipple, S., Link, J. S., Garrison, L. P., and Fogarty, M. J. (2000). Models of predation and fishing mortality in aquatic ecosystems. Fish and Fisheries, 1:22–40.CrossRefGoogle Scholar
Wicklum, D. and Davies, R. W. (1995). Ecosystem health and integrity?Canadian Journal of Botany, 73:997–1000.CrossRefGoogle Scholar
Witherell, D., Pautzke, C., and Fluharty, D. (2000). An ecosystem-based approach for Alaska groundfish fisheries. ICES Journal of Marine Science, 57:771–777.CrossRefGoogle Scholar
Worm, B. and Myers, R. A. (2003). Meta-analysis of cod-shrimp interactions reveals top-down control in oceanic food webs. Ecology, 84:162–173.CrossRefGoogle Scholar
Worm, B., Sandow, M., Oschlies, A., Lotze, H. K., and Myers, R. A. (2005). Global patterns of predator diversity in the open oceans. Science, 309:1365–1369.CrossRefGoogle ScholarPubMed
Yaffee, S. L. (1996). Ecosystem management in practice: the importance of human institutions. Ecological Applications, 6:724–727.CrossRefGoogle Scholar
Yaffee, S. L. (1999). Three faces of ecosystem management. Conservation Biology, 13:713–725.CrossRefGoogle Scholar
Yaffee, S. L., Phillips, A. F., Frentz, I. C., et al. (1996). Ecosystem Management in the United States: An Assessment of Current Experience. Washington, DC: Island Press.Google Scholar
Yodzis, P. (1994). Predator-prey theory and management of multispecies fisheries. Ecological Applications, 4:51–58.CrossRefGoogle Scholar
Yodzis, P. (2000). Diffuse effects in food webs. Ecology, 81:261–266.CrossRefGoogle Scholar
Yodzis, P. (2001). Must top predators be culled for the sake of fisheries?TRENDS in Ecology and Evolution, 16:78–84.CrossRefGoogle ScholarPubMed
Zhou, S. and Griffiths, S. P. (2008). Sustainability assessments for fishing effects (SAFE): a new quantitative ecological risk assessment method and its application to elasmobranch bycatch in an Australian trawl fishery. Fisheries Research, 91:56–68.CrossRefGoogle Scholar

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

  • References
  • Jason Link
  • Book: Ecosystem-Based Fisheries Management
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511667091.018
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Jason Link
  • Book: Ecosystem-Based Fisheries Management
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511667091.018
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Jason Link
  • Book: Ecosystem-Based Fisheries Management
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511667091.018
Available formats
×