Journal Reprint Catalog

Alaska Sea Grant funds research which helps bolster the long-term value of Alaska's marine resources. The journal reprints listed here are invaluable tools for fisheries managers and researchers. For details on a reprint, click on its title.

How to order our publications.

Contents

(1994–2006, alphabetical order by author)

  1. Adams, C.F., and A.J. Paul. 1999. Phototaxis and Geotaxis of Light-Adapted Zoeae of the Golden King Crab Lithodes aequispinus (Anomura: Lithodidae) in the Laboratory. Journal of Crustacean Biology 19(1):106-110. RP-99-03
    Zoeae I, II, III move upward and toward light.
  2. Baker, T.R., G.J. Doucette, C.L. Powell, G.L. Boyer, and F.G. Plumley. 2003. GTX4 imposters: Characterization of fluorescent compounds synthesized by Pseudomonas stutzeri SF/PS and Pseudomonas/alteromonas PTB-1, symbionts of saxitoxin-producing Alexandrium spp. Toxicon 41:339-347. RP-03-01
    Detection protocol for bacterial saxitoxin synthesis is altered.
  3. Battaile, B.C., and Quinn, T.J. 2004. Catch per unit effort standardization of the eastern Bering Sea walleye pollock (Theragra chalcogramma) fleet. Fisheries Research 70:161-177. RP-04-04
  4. Battaile, B., Quinn II, T.J., Ackley, D., and Tromble, G. 2005. Catch estimation algorithm for the walleye pollock Theragra chalcogramma fishery and comparison to similar national marine fisheries service databases. Alaska Fishery Research Bulletin 11(1):1-14. RP-05-04
  5. Bouwens, K.A., A.J. Paul, and R.L. Smith. 1999. Growth of Juvenile Arrowtooth Flounders from Kachemak Bay, Alaska. Alaska Fishery Research Bulletin 6:35-40. RP-00-03
    Reprint available in PDF format [53 KB].
    Arrowtooth flounder age, growth rate, weight, body length, and otolith length.
  6. Bouwens, K.A., R.L. Smith, A.J. Paul, and W. Rugen. 1999. Length and Timing of Hatching and Settlement for Arrowtooth Flounders in the Gulf of Alaska. Alaska Fishery Research Bulletin 6:41-48. RP-00-04
    Reprint available in PDF format [84 KB].
    Arrowtooth flounder otolith traits, length, plankton duration, reproduction, and growth rate.
  7. Brown, E.J., Finney, B., and Hills, S. 2005. Effects of Commercial Otter Trawling on Benthic Communities in the Southeastern Bering Sea. American Fisheries Science Symposium 41:439-460. RP-05-05
  8. Budsberg, K.J., C.F. Wimpee, and J.F. Braddock. 2003. Isolation and identification of Photobacterium phosphoreum from an unexpected niche: Migrating salmon. Applied and Environmental Microbiology 69:6938-6942. RP-03-04
    Electronic reprint available.
    Salmon carry luminous marine bacteria 1,200 km upriver.
  9. Carney, B.L., A.K. Gray, and A.J. Gharrett. 1997. Mitochondrial DNA Restriction Site Variation within and among Five Populations of Alaskan Coho Salmon (Oncorhynchus kisutch). Canadian Journal of Fisheries and Aquatic Sciences 54(4):940-949. RP-98-01
    Mitochondrial genome reflects geographic differences.
  10. Clayton, L.A., A.J. Paul, and J.M. Paul. 1997. Timing of Occurrence and Length Frequency Profiles of Walleye Pollock Larvae in Resurrection Bay, Alaska, Spring 1991. Fishery Research Bulletin 4(1):54-61. RP-97-07
    Extended spawning in walleye pollock enhances larvae survival.
  11. Criddle, K.R. 1996. Predicting the Consequences of Alternative Harvest Regulations in a Sequential Fishery. North American Journal of Fisheries Management 16(1):30-40. RP-96-04
    Recommends restricting catches in lower Yukon.
  12. Criddle, K.R., M. Herrmann, S.T. Lee, and C. Hamel. 2003. Participation decisions, angler welfare, and the regional economic impact of sportfishing. Marine Resource Economics 18:291-312. RP-04-01
    Economic models include Alaska recreational fisherman satisfaction.
  13. Criddle, K.R., and A.Y. Streletski. 2000. Multiple Criterion Management of a Sequential Fishery. Annals of Operations Research 94:259-273. RP-00-06
    Restriction of commercial salmon harvests in the Lower Yukon is recommended.
  14. Ebbesson, L.O.E., P. Deviche, and S.O.E. Ebbesson. 1996. Distribution and Changes in m- and k-Opiate Receptors During the Midlife Neurodevelopmental Period of Coho Salmon, (Oncorhynchus kisutch). Journal of Comparative Neurology 364:448-464. RP-96-05
    The first study of opioid receptor subtypes in salmonid brains.
  15. Ebbesson, S.O.E., J. Smith, C. Co, and L.O.E. Ebbesson. 1996. Transient Alterations in Neurotransmitter Levels during a Critical Period of Neural Development in Coho Salmon (Onchorhynchus kisutch). Brain Research 742:339-342. RP-97-02
    Brain neurotransmitters increase during parr-smolt in cohos.
  16. Finney, B.P., I. Gregory-Eaves, M.S.V. Douglas, and J.P. Smol. 2002. Fisheries Productivity in the Northeastern Pacific Ocean over the Past 2,200 Years. Nature 416:729-733. RP-02-08
    The large abundance shift seen over 2,200 years far exceeds any detected during the past 300 years.
  17. Finney, B.P., I. Gregory-Eaves, J. Sweetman, M.S.V. Douglas, and J.P. Smol. 2000. Impacts of Climatic Change and Fishing on Pacific Salmon Abundance over the Past 300 Years. Science 290:795-799. RP-01-02
    Sockeye productivity is impacted by variations in returns, due to climate or harvesting.
  18. Fu, C., and T.J. Quinn II. 2000. Estimability of Natural Mortality and Other Population Parameters in a Length-Based Model: Pandalus borealis in Kachemak Bay, Alaska. Canadian Journal of Fisheries and Aquatic Sciences 57:2420-2432. RP-01-03
    Catchability should be a fixed value in tested stock assessment models.
  19. Fu, C., T.J. Quinn II, and G.H. Kruse. 2000. Analyses of Harvest Strategies for Pandalid Shrimp Populations. Journal of Northwest Atlantic Fishery Science 27:247-260. RP-02-05
    Annual sampling and natural mortality knowledge are essential for effective fisheries management.
  20. Fu, C., T.J. Quinn II, and T.C. Shirley. 2001. The Role of Sex Change, Growth, and Mortality in Pandalus Population Dynamics and Management. ICES Journal of Marine Science 58:607-621. RP-01-06
    Sex change, growth, and mortality should be considered in shrimp fishery management.
  21. Fukushima, M., and W.W. Smoker. 1998. Spawning Habitat Segregation of Sympatric Sockeye and Pink Salmon. Transactions of the American Fisheries Society 127(2):253-260. RP-98-05
    Habitat overlap doesn't trigger interspecies competition.
  22. Geiger, H.J., W.L. Smoker, L.A. Zhivotovsky, and A.J. Gharrett. 1997. Variability of Family Size and Marine Survival in Pink Salmon (Oncorhynchus gorbuscha) Has Implications for Conservation Biology and Human Use. Canadian Journal of Fisheries and Aquatic Sciences 54(11):2684-2690. RP-98-03
    Population models should include genetic variability.
  23. Gharrett, A.J., S. Lane, A.J. McGregor, and S.G. Taylor. 2001. Use of a Genetic Marker to Examine Genetic Interaction among Subpopulations of Pink Salmon (Oncorhynchus gorbuscha). Genetica 111:259-267. RP-02-06
    Over 5 years salmon from different-time spawning runs were genetically separated.
  24. Gharrett, A.J., W.W. Smoker, R.R. Reisenbichler, and S.G. Taylor. 1999. Outbreeding Depression in Hybrids between Odd- and Even-Broodyear Pink Salmon. Aquaculture 173:117-129. RP-99-04
    Outbreeding depression is important if exposing wild fish to non-native salmon.
  25. Gharrett, A.J., W.W. Smoker, H.J. Geiger, A. Wang, K.P. Hebert, P.L. Goddard, A.J. McGregor, S. Lane, J. Joyce, and S.G. Taylor. 1999. Genetic Structure in Auke Creek Pink Salmon and Its Role in Productivity. Bulletin of the National Research Institute of Aquaculture 1999(Supplement 1):19-26. RP-00-12
    Outbreeding depression can be important in aquaculture and harvest management decisions.
  26. Hamel, C., M. Herrmann, S.T. Lee, K.R. Criddle, and H.T. Geier. 2002. Linking Sportfishing Trip Attributes, Participation Decisions, and Regional Economic Impacts in Lower and Central Cook Inlet, Alaska. The Annals of Regional Science 36:247-264. RP-02-09
    Economic impacts of spending related to saltwater sportfisheries in Cook Inlet, Alaska.
  27. Hanselman, D.H., Quinn II, T.J., Lunsford, C., Heifetz, J., and Clausen, D. 2003. Applications in adaptive cluster sampling of Gulf of Alaska rockfish. Fishery Bulletin 101:501-513. RP-03-07
  28. Hebert, K.P., P.L. Goddard, W.W. Smoker, and A.J. Gharrett. 1998. Quantitative Genetic Variation and Genotype by Environment Interaction of Embryo Development Rate in Pink Salmon (Oncorhynchus gorbuscha). Canadian Journal of Fisheries and Aquatic Sciences 55(9):2048-2057. RP-98-07
    Adaptation for developing in different water temperatures.
  29. Henderson, M.M., K.R. Criddle, and S.T. Lee. 1999. The Economic Value of Alaska's Copper River Personal Use and Subsistence Fisheries. Alaska Fishery Research Bulletin 6:63-69. RP-00-10
    Reprint available in PDF format [44 KB].
    Alternative fishery allocations have economic consequences important to policy makers.
  30. Herrmann, M., S.T. Lee, K.R. Criddle, and C. Hamel. 2001. A Survey of Participants in the Lower and Central Cook Inlet Halibut and Salmon Sport Fisheries. Alaska Fishery Research Bulletin 8(2):107-117. RP-02-04
    Reprint available in PDF format [20 KB].
    In 1997 $34.1 million was spent in the Cook Inlet, Alaska, sport fisheries.
  31. Himelbloom, B.H., C.A. Crapo, E.K. Brown, and J.P. Doyle. 1994. Factors Affecting Quality of Rock Sole Fillets. Journal of Aquatic Food Product Technology 3(2):45-56. RP-95-03
    Study on improving the quality of rock sole handling.
  32. Holladay, B.A., and B.L. Norcross. 1995. August Diet of Age-0 Pacific Halibut in Nearshore Waters of Kodiak Island, Alaska. Environmental Biology of Fishes 44:403-416. RP-96-02
    Predominant prey was crustaceans for age-0 halibut.
  33. Horner, R.A., D.L. Garrison, and F.G. Plumley. 1997. Harmful Algal Blooms and Red Tide Problems on the U.S. West Coast. Limnology and Oceanography 42(5 part 2):1076-1088. RP-00-08
    Review of harmful algal blooms on U.S. West Coast.
  34. Kline, T.C., J.J. Goering, and R.J. Piorkowski. 1997. The Effect of Salmon Carcasses on Alaskan Freshwaters. Freshwaters of Alaska: Ecological Synthesies. Ecological Studies 119:179-204, chapter 7. RP-97-01
    Decomposing salmon provide important nutrients to lakes and streams.
  35. McLaughlin, P.A., and J.M. Paul. 2001. Abdominal Tergite and Pleopod Changes in Lithodes aequispinus Benedict, 1895 (Crustacea: Decapoda: Anomura: Lithodidae) from Megalopa to Juvenile. Proceedings of the Biological Society of Washington 115(1):138-147. RP-02-07
    Describes and illustrates abdominal tergite and pleopod changes in Lithodes aequispinus.
  36. Milner, L.M., M. Herrmann, K. Giraud, M. Skogen Baker, and R.F. Hiser. 2003. International sport fishing: The case of the German angler in Alaska. Tourism Analysis 8:89-94. RP-03-02
    Economic survey of German sportfishers in Alaska.
  37. Ostholm, T., and R. Elsner. 1999. Regulation of Coronary Blood Flow in Ringed Seals: The Histochemical Evidence. Marine Mammal Science 15:1365-1370. RP-00-01
    Coronary blood flow may allow switching between oxidative and anaerobic metabolism.
  38. Paul, A.J. 1997. The Use of Bioenergetic Measurements to Estimate Prey Consumption, Nutritional Status and Thermal Habitat Requirements for Marine Organisms Reared in the Sea. Bulletin of the National Research Institute of Aquaculture 1997 (Supplement 3):59-68. RP-00-16
    A review of physiological methods to evaluate species for mass culture.
  39. Paul, A.J., and J.M. Paul. 1995. Changes in Chela Heights and Carapace Lengths in Mature Male Red King Crabs Paralithodes camtschaticus After Molting in the Laboratory. Alaska Fishery Research Bulletin 2(2):164-167. RP-96-06
    Shows magnitude of changes in chela allometry for individuals.
  40. Paul, A.J., and J.M. Paul. 1995. Molting of Functionally Mature Male Chionoecetes bairdi Rathbun (Decapoda: Majidae) and Changes in Carapace and Chela Measurements. Journal of Crustacean Biology 15(4):686-692. RP-95-12
    Smaller Tanner males can mate.
  41. Paul, A.J., and J.M. Paul.1996. Male Tanner Crab Carapace Widths at Previous Intermolt Estimated from Laboratory Growth, Kachemak Bay, Alaska. Alaska Fishery Research Bulletin 3(2):132-135. RP-97-03
    Tanner crab carapace can go from 119 mm to 140 mm in a single molt.
  42. Paul, A.J., and J.M. Paul. 1996. Observations on Mating of Multiparous Chionoecetes bairdi Rathbun (Decapoda: Majidae) Held with Different Sizes of Males and One-clawed Males. Journal of Crustacean Biology 16(2):295-299. RP-96-08
    Males can breed before reaching legal size in North Pacific fishery.
  43. Paul, A.J., and J.M. Paul. 1997. Breeding Success of Large Male Red King Crab Paralithodes camtschaticus with Multiparous Mates. Journal of Shellfish Research 16(2):379-381. RP-98-02
    Male crabs fertilize 3 mates in a breeding period.
  44. Paul, A.J., and J.M. Paul. 1998. Respiration Rate and Thermal Tolerances of Pinto Abalone Haliotis kamtschatkana. Journal of Shellfish Research 17(3):743-745. RP-99-01
    South-central Gulf of Alaska too cold for commercial culture.
  45. Paul, A.J., and J.M. Paul. 1999. Development of Larvae of the Golden King Crab Lithodes aequispinus (Anomura: Lithodidae) Reared at Different Temperatures. Journal of Crustacean Biology 19(1):42-45. RP-99-02
    Temperatures in benthic and pelagic layers suitable for larvae.
  46. Paul, A.J., and J.M. Paul. 1999. Changes in Chela Heights and Carapace Lengths in Male and Female Golden King Crabs Lithodes aequispinus after Molting in the Laboratory. Alaska Fishery Research Bulletin 6:70-77. RP-00-11
    Reprint available in PDF format [88 KB].
    Male crab maturity status can be accurately determined by measurement.
  47. Paul, A.J., and J.M. Paul. 2001. Size of Maturity in Male Golden King Crab, Lithodes aequispinus (Anomura: Lithodidae). Journal of Crustacean Biology 21(2):384-387. RP-01-07
    Male hardshell golden king crabs of 107 mm or more carapace length are mature.
  48. Paul, A.J., and J.M. Paul. 2001. Intermolt Durations of Captive Juvenile and Adolescent Male Tanner Crabs Chionoecetes bairdi. Journal of Shellfish Research 20(1):373-376. RP-02-01
    A male Tanner crab with spermatophore took 2.5 times longer to molt than a juvenile.
  49. Paul, A.J., and J. M. Paul. 2001. The Reproductive Cycle of Golden King Crab Lithodes aequispinus (Anomura: Lithodidae). Journal of Shellfish Research 20(1):369-371. RP-02-02
    Duration of hatching, molting, egg extrusion, incubation, and time between clutches for golden king crab.
  50. Paul, A.J., J.M. Paul, and E.D. Brown. 1996. Ovarian Energy Content of Pacific Herring from Prince William Sound, Alaska. Alaska Fishery Research Bulletin 3(2):103-111. RP-97-04
    Herring have decreased in Prince William Sound since 1989 oil spill.
  51. Paul, A.J., J.M. Paul, and W.E. Donaldson. 1995. Shell Condition and Breeding Success in Tanner Crabs. Journal of Crustacean Biology 15(3):476-480. RP-95-11
    Old-shell male Tanner crabs have more breeding success.
  52. Paul, J.M., A.J. Paul, and A. Kimker. 1994. Compensatory Feeding Capacity of 2 Brachyuran Crabs, Tanner and Dungeness, after Starvation Periods like Those Encountered in Pots. Alaska Fishery Research Bulletin 1:184-187. RP-00-15
    Reprint available in PDF format [93.5 KB].
    Tested crabs do not increase eating rate after period of starvation.
  53. Paul, A.J., J.M. Paul, and R.L. Smith. 1995. Compensatory Growth in Alaska Yellowfin Sole, Pleuronectes asper, Following Food Deprivation. Journal of Fish Biology 46:442-448. RP-95-09
    Yellowfin sole has limited compensatory growth.
  54. Paul, A.J., J.M. Paul, R.L. Smith, and K.A. Bouwens. 1999. Food Consumption and Growth of Juvenile Arrowtooth Flounders. Alaska Fishery Research Bulletin 6:104-107. RP-00-05
    Reprint available in PDF format [32.5 KB].
    Do juvenile arrowtooth flounders prey on commercially important fish species?
  55. Plumley, F.G. 1997. Marine Algal Toxins: Biochemistry, Genetics, and Molecular Biology. Limnology and Oceanography 42(5 part 2):1252-1264. RP-00-09
    A review of biochemistry and genetics of toxin production by harmful algal bloom species.
  56. Plumley, F.G. 2001. Purification of an Enzyme Involved in Saxitoxin Synthesis. Journal of Phycology 37:926-931. RP-02-03
    HABs saxitoxin enzyme purification opens door for gene identification.
  57. Plumley, F.G., Z. Wei, T.B. Toivanen, G.J. Doucette, and S. Franca. 1999. Tn5 Mutagenesis of Pseudomonas stutzeri SF/PS, a Bacterium Associated with Alexandrium lusitanicum (Dinophyceae) and Paralytic Shellfish Poisoning. Journal of Phycology 35:1390-1396. RP-00-07
    Transposon mutagenesis may identify genes involved in harmful algal blooms.
  58. Quinn, T.J., II, and H.J. Niebauer. 1995. Relation of Eastern Bering Sea Walleye Pollock (Theragra chalcogramma) Recruitment to Environmental and Oceanographic Variables. Climate Change and Northern Fish Populations, R.J. Beamish, ed., Canadian Special Publication of Fisheries and Aquatic Sciences 121:497-507. RP-95-10
    Pollock populations reflect physical environment.
  59. Rea, L.D., M.A Castellini, B.S. Fadley, and T.R. Loughlin. 1998. Health Status of Young Alaska Steller Sea Lion Pups (Eumetopias jubatus) as Indicated by Blood Chemistry and Hematology. Comparative Biochemistry and Physiology 120 (Part A): 617-623. RP-98-06
    Pups from decline areas are healthy at one month old.
  60. Sathivel, S. 2005. Chitosan and protein coatings affect yield, moisture loss, and lipid oxidation of pink salmon (Oncorhynchus gorbuscha) fillets during frozen storage Journal of Food Science 70:455-458. RP-05-03
  61. Schizas, N.V., and T.C. Shirley. 1994. Acrenhydrosoma macalli, a New Species from Auke Bay, Alaska (Copepoda, Harpacticoida). Crustaceana 67(3):329-340. RP-96-01
    New harpacticoid copepod from meiobenthic intertidal community.
  62. Schizas, N.V., and T.C. Shirley. 1996. Seasonal Changes in Structure of an Alaskan Intertidal Meiofaunal Assemblage. Marine Ecology Progress Series 133:115-124. RP-96-07
    Nematodes and harpacticoid copepods predominate throughout year.
  63. Schmidt, D.C., S.R. Carlson, G.B. Kyle, and B.P. Finney. 1998. Influence of Carcass-Derived Nutrients on Sockeye Salmon Productivity of Karluk Lake, Alaska: Importance in the Assessment of an Escapement Goal. North American Journal of Fisheries Management 18:743-763. RP-00-14
    An escapement goal of one million fish may optimize salmon production.
  64. Shirley, T.C., and S. Zhou. 1997. Lecithotrophic Development of the Golden King Crab Lithodes aequispinous (Anomura: Lithodidae). Journal of Crustacean Biology 17:207-216. RP-97-06
    Golden king crab larvae can become juveniles without eating.
  65. Smoker, W.W., A.J. Gharrett, and M.S. Stekoll. 1998. Genetic Variation of Return Date in a Population of Pink Salmon: A Consequence of Fluctuating Environment or Dispersive Selection? Alaska Fishery Research Bulletin 5:46-54. RP-00-02
    Reprint available in PDF format [67 KB].
    Salmon managers must preserve variability of return timing in order to conserve fitness.
  66. Smoker, W.W., A.J. Gharrett, M.S. Stekoll, and S.G. Taylor. 2000. Genetic Variation of Fecundity and Egg Size in Anadromous Pink Salmon Oncorhynchus gorbuscha Walbaum. Alaska Fishery Research Bulletin 7:44-50. RP-01-01
    Reprint available in PDF format [170 KB].
    Genetic variation allows fitness trait fluctuations.
  67. Springer, A.M. 1996. Prerecruit Walleye Pollock, Theragra chalcogramma, in Seabird Food Webs of the Bering Sea. U.S. Dept. of Commerce NOAA Technical Report NMFS 126:198-201. RP-97-05
    Young walleye pollock are important food for seabirds in the Bering Sea.
  68. Springer, A.M., J.F. Piatt, and G. Van Vliet. 1996. Sea Birds as Proxies of Marine Habitats and Food Webs in the Western Aleutian Arc. Fisheries Oceanography 5(1):45-55. RP-96-03
    Seabirds are indicators of marine habitats and food web types.
  69. Su, Z., and T.J. Quinn II. 2003. Estimator bias and efficiency for adaptive cluster sampling with order statistics and a stopping rule. Environmental and Ecological Statistics 10:17-41. RP-02-10
    Simulation experiments and adaptive sampling.
  70. Sweetman, J.N., and B.P. Finney. 2003. Differential responses of zooplankton populations (Bosmina longirostris) to fish predation and nutrient-loading in an introduced and natural sockeye salmon nursery lake on Kodiak Island, Alaska, USA. Journal of Paleolimnology 30:183-193. RP-03-03
    Lakebed cores show past salmon-zooplankton trophic structure.
  71. Wessel, M.L., Smoker, W.W., Fagen, R.M., and Joyce, J. 2006. Variation of agonistic behavior among juvenile Chinook salmon (Oncorhynchus tshawytscha) of hatchery, hybrid, and wild origin. Canadian Journal of Fisheries and Aquatic Sciences 63:438-447. RP-06-01
  72. Williams, E.H., and T.J. Quinn II. 1997. Age-Structured Analysis of Pacific Herring from Norton Sound, Alaska. Alaska Fishery Research Bulletin 4(2):87-109. RP-98-04
    Age-structure herring assessment model as management tool.
  73. Williams, E.H., and T.J. Quinn II. 2000. Pacific Herring, Clupea pallasi, Recruitment in the Bering Sea and North-east Pacific Ocean, I: Relationships among Different Populations. Fisheries Oceanography 9(4):285-299. RP-01-04
    Large year classes occur synchronously among several Pacific herring populations.
  74. Williams, E.H., and T.J. Quinn II. 2000. Pacific Herring, Clupea pallasi, Recruitment in the Bering Sea and North-east Pacific Ocean, II: Relationships to Environmental Variables and Implications for Forecasting. Fisheries Oceanography 9(4):300-315. RP-01-05
    Analysis of forecasting models that use air and sea surface temperature.

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