Variation in annual production of copepods, euphausiids, and juvenile walleye pollock in the southeastern Bering Sea

[1]  J. Hjort,et al.  Fluctuations in the Great Fisheries of Northern Europe: Viewed in the Light of Biological Research , 1914 .

[2]  Vera Alexander,et al.  Oceanography of the eastern Bering Sea ice‐edge zone in spring1 , 1981 .

[3]  R. T. Cooney,et al.  Trophic implications of cross-shelf copepod distributions in the Southeastern Bering Sea , 1982 .

[4]  S. Smith,et al.  Production and standing stock of copepod nauplii, food items for larvae of the walleye pollock Theragra chalcogramma in the southeastern Bering Sea , 1984 .

[5]  A. Bakun COMPARATIVE STUDIES AND THE RECRUITMENT PROBLEM: SEARCHING FOR GENERALIZATIONS , 1985 .

[6]  J. Overland,et al.  Ice drift and regional meteorology in the southern Bering Sea: Results from MIZEX West , 1985 .

[7]  J. Walsh,et al.  Ecosystem analysis in the southeastern Bering sea , 1986 .

[8]  R. Iverson,et al.  Relationships among vertical mixing, nitrate uptake, and phytoplankton growth during the spring bloom in the southeast Bering Sea middle shelf , 1986 .

[9]  G. Friederich,et al.  Variability in the inorganic carbon system over the southeastern Bering Sea shelf during spring 1980 and spring—summer 1981 , 1986 .

[10]  A. J. Paul,et al.  Effect of food intake and temperature on growth and conversion efficiency of juvenile walleye pollock (Theragra chalcogramma (Pallas)): a laboratory study , 1986 .

[11]  L. K. Coachman Circulation, water masses, and fluxes on the southeastern Bering Sea shelf , 1986 .

[12]  Sharon L. Smith,et al.  Variations in the distribution, abundance, and development of copepods in the southeastern Bering Sea in 1980 and 1981 , 1986 .

[13]  R. Ingram,et al.  Under-ice feeding and diel migration by the planktonic copepodsCalanus glacialis andPseudocalanus minutus in relation to the ice algal production cycle in southeastern Hudson Bay, Canada , 1991 .

[14]  Sharon L. Smith Growth, development and distribution of the euphausiids Thysanoessa raschi (M. Sars) and Thysanoessa inermis (Krøyer) in the southeastern Bering Sea , 1991 .

[15]  J. Runge,et al.  Reproduction ofCalanus glacialis under ice in spring in southeastern Hudson Bay, Canada , 1991 .

[16]  A. Springer A review: Walleye pollock in the North Pacific–how much difference do they really make? , 1992 .

[17]  S. Henrichs,et al.  A time-series study of the spring bloom at the Bering Sea ice edge I. Physical processes, chlorophyll and nutrient chemistry , 1995 .

[18]  Alan M. Springer,et al.  The Bering Sea Green Belt: shelf-edge processes and ecosystem production , 1996 .

[19]  Suam Kim,et al.  Walleye pollock recruitment in Shelikof Strait: applied fisheries oceanography , 1996 .

[20]  A. Hollowed,et al.  Contributions of FOCI research to forecasts of year-class strength of walleye pollock in Shelikof Strait, Alaska , 1996 .

[21]  B. L. Olla,et al.  Food deprivation affects vertical distribution and activity of a marine fish in a thermal gradient: potential energy-conserving mechanisms , 1996 .

[22]  George L. Hunt,et al.  Foraging ecology of short-tailed shearwaters near the Pribilof Islands, Bering Sea , 1996 .

[23]  S. Sogard Size-selective mortality in the juvenile stage of teleost fishes : A review , 1997 .

[24]  A. W. Kendall,et al.  The development of recruitment fisheries oceanography in the United States , 1998 .

[25]  S. Porter,et al.  The development of the digestive tract and eye in larval walleye pollock, Theragra chalcogramma* , 1999 .

[26]  S. Falk‐Petersen,et al.  Lipids, trophic relationships, and biodiversity in Arctic and Antarctic krill , 2000 .

[27]  Napp,et al.  A synthesis of biological and physical processes affecting the feeding environment of larval walleye pollock (Theragra chalcogramma) in the eastern Bering Sea , 2000 .

[28]  Susan M. Sogard,et al.  Endurance of simulated winter conditions by age‐0 walleye pollock: effects of body size, water temperature and energy stores , 2000 .

[29]  K. Bailey Shifting control of recruitment of walleye pollock Theragra chalcogramma after a major climatic and ecosystem change , 2000 .

[30]  Richard J. Beamish,et al.  A critical size and period hypothesis to explain natural regulation of salmon abundance and the linkage to climate and climate change , 2001 .

[31]  P. Stabeno,et al.  Overview of the Inner Front and Southeast Bering Sea Carrying Capacity Programs , 2002 .

[32]  Elizabeth H. Sinclair,et al.  Climate change and control of the southeastern Bering Sea pelagic ecosystem , 2002 .

[33]  J. Napp,et al.  Interannual and decadal variability in zooplankton communities of the southeast Bering Sea shelf , 2002 .

[34]  D. Blood Low-temperature incubation of walleye pollock (Theragra chalcogramma) eggs from the southeast Bering Sea shelf and Shelikof Strait, Gulf of Alaska , 2002 .

[35]  J. Napp,et al.  Climate-induced variability in Calanus marshallae populations , 2003 .

[36]  Paul Morris,et al.  Net community production and metabolic balance at the oligotrophic ocean site, station ALOHA , 2004 .

[37]  R. Brodeur Prey selection by age-0 walleye pollock, Theragra chalcogramma, in nearshore waters of the Gulf of Alaska , 1998, Environmental Biology of Fishes.

[38]  Nicholas A. Bond,et al.  The Aleutian Low and Winter Climatic Conditions in the Bering Sea. Part I: Classification* , 2005 .

[39]  Kung-Sik Chan,et al.  Environmental factors influencing larval walleye pollock Theragra chalcogramma feeding in Alaskan waters , 2005 .

[40]  J. Grebmeier,et al.  Ecosystem dynamics of the Pacific-influenced Northern Bering and Chukchi Seas in the Amerasian Arctic , 2006 .

[41]  George L. Hunt,et al.  Interplay between top-down, bottom-up, and wasp-waist control in marine ecosystems , 2006 .

[42]  E. Durbin,et al.  Estimating potential diapause duration in Calanus finmarchicus , 2006 .

[43]  T. Hurst Causes and consequences of winter mortality in fishes , 2007 .

[44]  N. Bond,et al.  On the recent warming of the southeastern Bering Sea shelf , 2007 .

[45]  T. Whitledge,et al.  Characteristics of seasonal and spatial variations of primary production over the southeastern Bering Sea shelf , 2007 .

[46]  N. Bond,et al.  The Aleutian Low, storm tracks, and winter climate variability in the Bering Sea , 2007 .

[47]  O. Yamamura,et al.  Optimum temperature for growth of juvenile walleye pollock Theragra chalcogramma , 2007 .

[48]  P. Stabeno,et al.  Physical forcing and nutrient conditions associated with patterns of Chl a and phytoplankton productivity in the southeastern Bering Sea during summer , 2008 .

[49]  J. Napp,et al.  Zooplankton species composition, abundance and biomass on the eastern Bering Sea shelf during summer: The potential role of water-column stability and nutrients in structuring the zooplankton community , 2008 .

[50]  C. Mordy,et al.  Sea ice‐derived dissolved iron and its potential influence on the spring algal bloom in the Bering Sea , 2008 .

[51]  F. Mueter,et al.  Sea ice retreat alters the biogeography of the Bering Sea continental shelf. , 2008, Ecological applications : a publication of the Ecological Society of America.

[52]  J. Sarmiento,et al.  Projecting global marine biodiversity impacts under climate change scenarios , 2009 .

[53]  J. Ianelli,et al.  Spatial Distribution, Energetic Status, and Food Habits of Eastern Bering Sea Age‐0 Walleye Pollock , 2009 .

[54]  M. Poulin,et al.  The pan-Arctic biodiversity of marine pelagic and sea-ice unicellular eukaryotes: a first-attempt assessment , 2011, Marine Biodiversity.

[55]  R. Heintz,et al.  Influence of size on the sources of energy consumed by overwintering walleye pollock (Theragra chalcogramma) , 2010 .

[56]  J. Napp,et al.  Factors influencing physical structure and lower trophic levels of the eastern Bering Sea shelf in 2005: Sea ice, tides and winds , 2010 .

[57]  J. Berge,et al.  Timing of blooms, algal food quality and Calanus glacialis reproduction and growth in a changing Arctic , 2010 .

[58]  M. Lomas,et al.  Seasonal distribution of dissolved inorganic carbon and net community production on the Bering Sea shelf , 2010 .

[59]  Jinlun Zhang,et al.  Sea Ice Response to Atmospheric and Oceanic Forcing in the Bering Sea , 2010 .

[60]  James N. Ianelli,et al.  Evaluating management strategies for eastern Bering Sea walleye pollock (Theragra chalcogramma) in a changing environment , 2011 .

[61]  K. Arrigo,et al.  A reassessment of primary production and environmental change in the Bering Sea , 2011 .

[62]  L. Eisner,et al.  Climate change in the southeastern Bering Sea: impacts on pollock stocks and implications for the oscillating control hypothesis , 2011 .

[63]  J. Napp,et al.  Climate impacts on eastern Bering Sea foodwebs: a synthesis of new data and an assessment of the Oscillating Control Hypothesis , 2011 .

[64]  Yvette H. Spitz,et al.  Impacts of biological parameterization, initial conditions, and environmental forcing on parameter sensitivity and uncertainty in a marine ecosystem model for the Bering Sea , 2011 .

[65]  James N. Ianelli,et al.  Expected declines in recruitment of walleye pollock (Theragra chalcogramma) in the eastern Bering Sea under future climate change , 2011 .

[66]  M. Sigler,et al.  Fluxes, Fins, and Feathers: Relationships Among the Bering, Chukchi, and Beaufort Seas in a Time of Climate Change , 2011 .

[67]  P. Wassmann,et al.  Future Arctic Ocean Seasonal Ice Zones and Implications for Pelagic-Benthic Coupling , 2011 .

[68]  R. Heintz,et al.  Seasonal cycles in whole-body proximate composition and energy content of forage fish vary with water depth , 2010, Marine biology.

[69]  E. Sherr,et al.  Microzooplankton grazing impact in the Bering Sea during spring sea ice conditions , 2013 .

[70]  Christopher D. Wilson,et al.  Effects of climate variations on pelagic ocean habitats and their role in structuring forage fish distributions in the Bering Sea , 2012 .

[71]  E. Cokelet,et al.  Distribution of fish and macrozooplankton in ice-covered and open-water areas of the eastern Bering Sea , 2012 .

[72]  M. Lomas,et al.  Seasonal succession of net primary productivity, particulate organic carbon export, and autotrophic community composition in the eastern Bering Sea , 2012 .

[73]  T. V. Pelt,et al.  Bering Sea linkages , 2012 .

[74]  E. Curchitser,et al.  Wind‐induced reorganization of the Bering shelf circulation , 2012 .

[75]  Jinlun Zhang,et al.  Circulation on the central Bering Sea shelf, July 2008 to July 2010 , 2012 .

[76]  M. Sigler,et al.  A comparison of the physics of the northern and southern shelves of the eastern Bering Sea and some implications for the ecosystem , 2012 .

[77]  H. Harvey,et al.  Physical and biochemical properties of the euphausiids Thysanoessa inermis, Thysanoessa raschii, and Thysanoessa longipes in the eastern Bering Sea , 2012 .

[78]  N. Bates,et al.  Hydrographic controls on net community production and total organic carbon distributions in the eastern Bering Sea , 2012 .

[79]  D. Percival,et al.  Recent Bering Sea warm and cold events in a 95-year context , 2012 .

[80]  P. Stabeno,et al.  Future climate of the Bering and Chukchi Seas projected by global climate models , 2012 .

[81]  M. Lomas,et al.  Spatial and seasonal variability of primary production on the Eastern Bering Sea shelf , 2012 .

[82]  H. H. Stokes,et al.  Use of juvenile salmon growth and temperature change indices to predict groundfish post age-0 yr class strengths in the Gulf of Alaska and eastern Bering Sea , 2012 .

[83]  Stan Kotwicki,et al.  Developing an acoustic survey of euphausiids to understand trophic interactions in the Bering Sea ecosystem , 2012 .

[84]  M. Sigler,et al.  Comparison of warm and cold years on the southeastern Bering Sea shelf and some implications for the ecosystem , 2012 .

[85]  P. Stabeno,et al.  Net community production on the middle shelf of the eastern Bering Sea , 2012 .

[86]  K. Bailey Billion-Dollar Fish: The Untold Story of Alaska Pollock , 2013 .

[87]  K. Arrigo,et al.  Sea ice impacts on spring bloom dynamics and net primary production in the Eastern Bering Sea , 2013 .

[88]  K. Coyle,et al.  Emergence of the Arctic Themisto libellula (Amphipoda: Hyperiidae) on the southeastern Bering Sea shelf as a result of the recent cooling, and its potential impact on the pelagic food web , 2013 .

[89]  J. Napp,et al.  Correlation between recruitment and fall condition of age-0 pollock (Theragra chalcogramma) from the eastern Bering Sea under varying climate conditions , 2013 .

[90]  E. Curchitser,et al.  A modeling study to explore on-shelf transport of oceanic zooplankton in the Eastern Bering Sea , 2013 .

[91]  N. Bond,et al.  A multivariate analysis of observed and modeled biophysical variability on the Bering Sea shelf: Multidecadal hindcasts (1970–2009) and forecasts (2010–2040) , 2013 .

[92]  J. Berge,et al.  Timing of reproductive events in the marine copepod Calanus glacialis: a pan-Arctic perspective , 2013 .

[93]  Kirstin K. Holsman,et al.  Spatial Match-Mismatch between Juvenile Fish and Prey Provides a Mechanism for Recruitment Variability across Contrasting Climate Conditions in the Eastern Bering Sea , 2013, PloS one.

[94]  R. Lauth,et al.  Detecting temporal trends and environmentally-driven changes in the spatial distribution of bottom fishes and crabs on the eastern Bering Sea shelf , 2013 .

[95]  R. Heintz,et al.  Conceptual model of energy allocation in walleye pollock (Theragra chalcogramma) from age-0 to age-1 in the southeastern Bering Sea , 2013 .

[96]  A. Yamaguchi,et al.  Interannual changes in the zooplankton community structure on the southeastern Bering Sea shelf during summers of 1994–2009 , 2013 .

[97]  L. Eisner,et al.  Summer distributions of forage fish in the eastern Bering Sea , 2013 .

[98]  M. Lomas,et al.  234Th balance and implications for seasonal particle retention in the eastern Bering Sea , 2013 .

[99]  F. Mueter,et al.  Feeding ecology of age-0 walleye pollock (Gadus chalcogrammus) and Pacific cod (Gadus macrocephalus) in the southeastern Bering Sea , 2014 .

[100]  J. Napp,et al.  Climate-mediated changes in zooplankton community structure for the eastern Bering Sea , 2014 .

[101]  M. Sigler,et al.  Spring and fall phytoplankton blooms in a productive subarctic ecosystem, the eastern Bering Sea, during 1995–2011 , 2014 .

[102]  C. Ladd Seasonal and interannual variability of the Bering Slope Current , 2014 .

[103]  Stan Kotwicki,et al.  The spatial distribution of euphausiids and walleye pollock in the eastern Bering Sea does not imply top-down control by predation , 2014 .

[104]  J. Hare Vadimus The future of fisheries oceanography lies in the pursuit of multiple hypotheses , 2014 .

[105]  M. Lomas,et al.  Integrated assessment of the carbon budget in the southeastern Bering Sea , 2014 .

[106]  E. Durbin,et al.  Early reproduction by Calanus glacialis in the Northern Bering Sea: the role of ice algae as revealed by molecular analysis , 2014 .

[107]  Microzooplankton grazing in the Eastern Bering Sea in summer , 2014 .

[108]  K. Aydin,et al.  Summer diet composition of walleye pollock and predator–prey relationships with copepods and euphausiids in the eastern Bering Sea, 1987–2011 , 2016 .

[109]  H. Harvey,et al.  Lipid markers of diet history and their retention during experimental starvation in the Bering Sea euphausiid Thysanoessa raschii , 2016 .

[110]  P. Stabeno,et al.  Currents and transport on the Eastern Bering Sea shelf: An integration of over 20 years of data , 2016 .

[111]  K. Aydin,et al.  Euphausiids in the eastern Bering Sea: A synthesis of recent studies of euphausiid production, consumption and population control , 2016 .

[112]  M. Lomas,et al.  Mesozooplankton grazing during spring sea-ice conditions in the eastern Bering Sea , 2016 .

[113]  L. Eisner,et al.  Late summer/early fall phytoplankton biomass (chlorophyll a) in the eastern Bering Sea: Spatial and temporal variations and factors affecting chlorophyll a concentrations , 2016 .

[114]  R. Heintz,et al.  The critical first year of life of walleye pollock (Gadus chalcogrammus) in the eastern Bering Sea: Implications for recruitment and future research , 2016 .

[115]  M. Lomas,et al.  Seasonal and geographic variations in modeled primary production and phytoplankton losses from the mixed layer between warm and cold years on the eastern Bering Sea shelf , 2016 .