References

References
  • Anderson, P. J. and J. F. Piatt. 1999. Community reorganization in the Gulf of Alaska following ocean climate regime shift. Marine Ecology Progress Series. 189: 117-123.
  • Armstrong, D. A., W. C. Long, J. Armstrong, S. McDonald, and J. Kvistad. 2015. The Condor of commercial crabs: Collapse of the blue king. In: Abstracts of Technical Papers, Presented at the 107th Annual Meeting, National Shellfisheries Association, Monterey, California, March 22–26, 2015. Journal of Shellfish Research 34(2): 606.
  • Armstrong, D. A., J. L. Armstrong, R. Palacios, and G. Williams. 1987. Distribution, abundance, and biology of blue king and Korean hair crabs around the Pribilof Islands. Final Report. Outer Continental Shelf Environmental Assessment Program (OCSEAP). Research Unit 638. Minerals Management Service. Department of Interior.
  • Armstrong, D. A., J. L. Armstrong, R. Palacios, and G. Williams. 1987. Distribution, abundance, and biology of blue king and Korean hair crabs around the Pribilof Islands. Final Report. Outer Continental Shelf Environmental Assessment Program (OCSEAP). Research Unit 638. Minerals Management Service. Department of Interior.
  • Armstrong, D. A., J. L. Armstrong, R. Palacios, and G. Williams. 1987. Distribution, abundance, and biology of blue king and Korean hair crabs around the Pribilof Islands. Final Report. Outer Continental Shelf Environmental Assessment Program (OCSEAP). Research Unit 638. Minerals Management Service. Department of Interior.
  • Beck, M. W. 2000. Separating the elements of habitat structure: Independent effects of habitat complexity and structural components on rocky intertidal gastropods. Journal of Experimental Marine Biology and Ecology. 249(1): 29-49.
  • Blau, S. F. 2000. Nearshore Blue King Crab Survey St. Matthew Island, 1999. Alaska Department of Fish and Game. Division of Commercial Fisheries. Regional Information Report No. 4K00-42. Kodiak, Alaska.
  • Blau, S. F., S. C. Byersdorfer, D. C. Schmidt, W. E. Donaldson, and B. A. Johnson. 1992. First-Year Indexing of Post-Larval Red King Crab Abundance by use of Sausage-Shaped Artificial Collectors in Chiniak Bay, Alaska, 1990. Alaska Department of Fish and Game. Division of Commercial Fisheries. Technical Fishery Report 92-09. Juneau, Alaska.
  • Bond, N. A., J. E. Overland, M. Spillane, and P. Stabeno, 2003. Recent shifts in the state of the North Pacific. Geophysical Research Letters 30(23): 4.
  • Burnham, K. P. and Anderson, D. R. 2002. Model selection and multimodel inference: A practical information-theoretic approach, Springer Science + Business Media, New York.
  • Coyer, J. and J. Witman. 1990. The underwater catalog: A guide to methods in underwater research. Ithaca, New York, New York Sea Grant Program.
  • Criddle, K. R., D. Evans, and D. Stram. 2011. Marine Fisheries off Alaska. In: Lovecraft, A. L. and H. Eicken (Eds). North by 2020: Perspective on Alaska’s Changing Social-Ecological Systems. University of Alaska Press. Fairbanks, Alaska. p. 305-328.
  • Daly, B. J., C. E. Armistead, and R. J. Foy. 2015. The 2015 Eastern Bering Sea Continental Shelf Bottom Trawl Survey: Results for Commercial Crab Species. Draft NOAA Technical Memorandum NMFS-AFSC. U.S. Department of Commerce. National Oceanic and Atmospheric Administration. National Marine Fisheries Service. Alaska Fisheries Science Center. Kodiak Laboratory. Alaska. http://www.afsc.noaa.gov/Kodiak/shellfish/crabebs/2015EBSSurveyTechMemoDraft.pdf
  • Daly, B. and W. C. Long 2014a. Intra-guild predation among early benthic phase red and blue king crabs: Evidence for a habitat-mediated competitive advantage. Journal of Experimental Marine Biology and Ecology 451: 98-104.
  • Daly, B. and W. C. Long. 2014b. Inter-cohort cannibalism of early benthic phase blue king crabs (Paralithodes platypus): Alternate foraging strategies in different habitats lead to different functional responses. PLoS ONE 9(2).
  • Daly, B., G. L. Eckert, and T. D. White. 2013. Predation of hatchery-cultured juvenile red king crabs (Paralithodes camtschaticus) in the wild. Canadian Journal of Fisheries and Aquatic Sciences, 70: 358-366.
  • Falconer, K. 2003. Fractal Geometry: Mathematical Foundations and Applications. Second Edition. John Wiley & Sons Lt. West Sussux, England.
  • Foy, R., C. Parada, B. Ernst, D. Armstrong, S. Hinkley, and G. Gibson. 2013. Population connectivity via larval drift of Pribilof Islands blue king crab in the eastern Bering Sea. Fisheries and the Ecosystem Grant.
  • Francis, R. C., S. R. Hare, A. B. Hollowed, and W. S. Wooster. 1998. Effects of interdecadal climate variability on the oceanic ecosystems of the NE Pacific. Fisheries Oceanography 7: 1-21.
  • Francis, R. C. and S. R. Hare. 1994. Decadal-scale regime shifts in the large marine ecosystems of the Northeast Pacific: A case for historical science. Fisheries Oceanography 3:279-291.
  • Hare, S. R. and N. J. Mantua. 2000. Empirical evidence for North Pacific [climatic] regime shifts in 1977 and 1989. Progress in Oceanography 47: 2-4.
  • Halley, J. M., S. Hartley, A. S. Kallimanis, W. E. Kunin, J. J. Lennon, and S. P. Sgardelis. 2004. Uses and abuses of fractal methodology in ecology. Ecology Letters 7(3): 254-271.
  • Hollowed, A. B., B. Planque, and H. Loeng. 2013. Potential movement of fish and shellfish stocks from the sub-Arctic to the Arctic Ocean. Fisheries Oceanography 22(5): 355-370.
  • Hollowed, A. B., S. J. Barbeaux, E. D. Cokelet, E. Farley, S. Kotwicki, P. H. Ressler, C. Spital, and C. D. Wilson. 2012. Effects of climate variations on pelagic ocean habitats and their role in structuring forage fish distributions in the Bering Sea. Deep Sea Research Part II: Topical Studies in Oceanography 65–70: 230-250.
  • Kowalik, Z. and P. Stabeno. 1999. Trapped motion around the Pribilof Islands in the Bering Sea. Journal of Geophysical Research-Oceans 104(C11): 25667-25684.
  • Loher, T. and D. A. Armstrong. 2000. Effects of habitat complexity and relative larval supply on the establishment of early benthic phase red king crab (Paralithodes camtschaticus Tilesius, 1815) populations in Auke Bay, Alaska. Journal of Experimental Marine Biology and Ecology. 245(1): 83-109.
  • Long, W. C. and B. Daly. 2015. Upper thermal tolerances for red and blue king crabs. Alaska Marine Science Symposium. Anchorage, Alaska, January.
  • Long, W. C., S. B. Van Sant, and J. A. Haaga. 2015. Habitat, predation, growth, and coexistence: Could interactions between juvenile red and blue king crabs limit blue king crab productivity? Journal of Experimental Marine Biology and Ecology. 464: 58-67.
  • Long, W. C. and A. H. Hines 2012. Scale and the guild functional response: Density-dependent predation varies with plot size. Journal of Experimental Marine Biology and Ecology 413: 50-55.
  • Lyons, C., G. Eckert, and A. W. Stoner. 2015. Influence of temperature and congener presence on blue (Paralithodes platypus Brandt, 1850) and red (Paralithodes camtschaticus Tilesius, 1815) king crabs habitat preference and fish predation. Journal of Crustacean Biology 35(7): 741-752.
  • Miller, A. J., D. R. Cayan, T. P. Barnett, N. E. Graham, and J. M. Oberhuber. 1994. The 1976-77 climate shift of the Pacific Ocean. Oceanography 7:21-26.
  • Mueter, F. J. and M. A. Litzow. 2008. Sea ice retreat alters the biogeography of the Bering Sea continental shelf. Ecological Applications 18(2): 309-320.
  • NFMS (National Marine Fisheries Service). 2015. NOAA Fisheries. Stock status updates as of September 30, 2015 Stocks 2013. U.S. Department of Commerce, Washington D.C.http://www.fisheries.noaa.gov/sfa/fisheries_eco/status_of_fisheries/archive/2015/third/final_fssi_quarterly_map_q3_2015.pdf
  • NPFMC (North Pacific Fisheries Management Council). 2015. Stock assessment and fishery evaluation report for the king and Tanner fisheries of the Bering Sea and Aleutian Islands Regions: 2015 Final Crab SAFE. North Pacific Fisheries Management Council. 605 W. 4th Ave., #306, Anchorage, Alaska 99501.
  • NPFMC. 2014. Final environmental assessment for proposed amendment 43 to the Fishery Management Plan for Bering Sea/Aleutian Islands King and Tanner Crabs and proposed amendment 103 to the Fishery Management Plan for Groundfish of the Bering Sea and Aleutian Islands to prevent overfishing and rebuild Pribilof Islands blue king crab. North Pacific Fisheries Management Council. 605 W. 4th Ave., #306, Anchorage, Alaska 99501.
  • Orensanz, J., J. Armstrong, D. Armstrong, and R. Hilborn. 1998. Crustacean resources are vulnerable to serial depletion–the multifaceted decline of crab and shrimp fisheries in the Greater Gulf of Alaska. Reviews in Fish Biology and Fisheries, 8: 117-176.
  • Pirtle, J. L., G. L. Eckert, and A. W. Stoner. 2012. Habitat structure influences the survival and predator-prey interactions of early juvenile red king crab Paralithodes camtschaticus. Marine Ecology Progress Series 465: 169-184.
  • Pirtle, J. L. and A. W. Stoner. 2010. Red king crab (Paralithodes camtschaticus) early post-settlement habitat choice: Structure, food, and ontogeny. Journal of Experimental Marine Biology and Ecology. 393(1-2): 130-137.
  • Rooper, C. 2008. Underwater video sleds: Versatile and cost effective tools for habitat mapping. In: Marine Habitat Mapping Technology for Alaska. Eds. J. R. Reynolds and H. G. Greene. Anchorage, Alaska, Alaska Sea Grant for North Pacific Research Board: 99-107.
  • Schmidt, V. E. and Y. Rzhanov. 2012 Measurement of micro-bathymetry with a GoPro underwater stereo camera pair. Center for Coastal and Ocean Mapping. University of New Hampshire. Durham, NH.
  • Seuront. L. 2010. Fractals and multifractals in ecology and aquatic science. CRC Press. Taylor and Francis Group. Boca Raton, Florida, USA.
  • Somerton, D. A. and R. A. Macintosh. 1985. Reproductive biology of the female blue king crab (Paralithodes platypus) near the Pribilof Islands, Alaska. Journal of Crustacean Biology 5(3): 365-376.
  • Stabeno, P. J., N. Kachel, C. Mordy, D. Righi, and S. Salo. 2008. An examination of the physical variability around the Pribilof Islands in 2004. Deep-Sea Research Part II-Topical Studies in Oceanography 55(16-17): 1701-1716.
  • Stevens, B. G., K. M. Swiney, and L. Buck. 2008. Thermal effects on embryonic development and hatching for blue king crab Paralithodes platypus (Brant, 1850) held in the laboratory, and a method for predicting dates of hatching. Journal of Shellfish Research 27(5): 1255-1263.
  • Stevens, B. G. 2006. Timing and duration of larval hatching for blue king crab (Brandt, 1850) held in the laboratory. Journal of Crustacean Biology 26(4): 495-502.
  • Stevens, B. G. and K. M. Swiney 2005. Post-settlement effects of habitat type and predator size on cannibalism of glaucothoe and juveniles of red king crab Paralithodes camtschaticus. Journal of Experimental Marine Biology and Ecology 321(1): 1-11.
  • Stoner, A. W., Copeman, L. A., and Ottmar, M. L. 2013. Molting, growth, and energetics of newly-settled blue king crab: Effects of temperature and comparisons with red king crab. Journal of Experimental Marine Biology and Ecology, 442: 10-21.
  • Struthers, D. P., A. J. Danylchuk, A. D. M. Wilson, and S. J. Cooke. 2015. Action cameras: Bringing aquatic and fisheries research into view. Fisheries 40:10, 502-512.
  • Tapella, F., M. C. Romero, B. G. Stevens, and C. L. Buck. 2009. Substrate preferences and redistribution of blue king crab Paralithodes platypus glaucothoe and first crab on natural substrates in the laboratory. Journal of Experimental Marine Biology and Ecology. 372(1-2): 31-35.
  • Tyler, A.V. and G. C. Kruse. 1996. Conceptual modeling of brood strength of red king crabs in the Bristol Bay region of the Bering Sea. In: High Latitude Crabs: Biology, Management and Economics. Fairbanks, Alaska: University of Alaska Sea Grant Program Report 96-02: 511-544.
  • Tyler, A. V. and G. H. Kruse. 1997. Modeling workshop on year-class strength of Tanner crabs, Chionoecetes bairdi. Alaska Department of Fish and Game, Division of Commercial Fisheries, Regional Information Report 5J97-02, Juneau.
  • Wainwright, T. C., Armstrong, D. A., Andersen, H., Dinnel, P. A., Herren, D., Jensen, G. C., and Orensanz, J. M. 1992. Port Moller king crab studies. FRI-UW-9203. 38 pp.
  • Williams, K., C. Rooper, and T. Towler. 2010. Use of stereo camera systems for assessment of rockfish abundance in untrawlable areas for recording pollock behavior during midwater trawls. Fish. Bull. 108: 352-362.
  • Yarram, A., W. D. Coffey, B. Matoke, W. C. Long, K. Swiney, R. Foy, and G. H. Dickinson. 2015. Ocean acidification leads to altered mirco-mechanical properties of the mineralized cuticle of juvenile red and king crabs. In: Abstracts of Technical Papers, Presented at the 107th Annual Meeting, National Shellfisheries Association, Monterey, California, March 22–26, 2015. Journal of Shellfish Research 34(2): 585-694.
  • Zheng, J. and G. H. Kruse, 2006. Recruitment variation of eastern Bering Sea crabs: Climate-forcing or top-down effects? Progress in Oceanography 68, 184-204.
  • Zheng, J. and G. H. Kruse. 2000. Recruitment patterns of Alaskan crabs in relation to decadal shifts in climate and physical oceanography. ICES Journal of Marine Science 57:438-451.