Relationships among vertical mixing, nitrate uptake, and phytoplankton growth during the spring bloom in the southeast Bering Sea middle shelf
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[1] Sharon L. Smith,et al. Biomass, growth, and development of populations of herbivorous zooplankton in the southeastern Bering Sea during spring , 1986 .
[2] A. R. Nowell,et al. The foraging strategy of a subtidal and deep-sea deposit feeder1 , 1984 .
[3] R. Sambrotto. Nitrogen utilization during spring phytoplankton bloom development in the southeast Bering Sea , 1983 .
[4] Ann E. Gargett,et al. Time and space scales of vertical mixing and advection of phytoplankton in the upper ocean , 1983 .
[5] J. Schumacher,et al. Low-Frequency Current Regimes over the Bering Sea Shelf , 1983 .
[6] H. J. Niebauer. Multiyear sea ice variability in the eastern Bering Sea: An update , 1983 .
[7] T. Platt,et al. Day‐to‐day variations in the spring‐summer photosynthetic parameters of coastal marine phytoplankton , 1983 .
[8] P. Falkowski,et al. Mesoscale response of diatom populations to a wind event in the plume of the Hudson River , 1983 .
[9] E. Cosper. Effects of diurnal fluctuations in light intensity on the efficiency of growth of Skeletonema costatum (Grev.) Cleve (Bacillariophyceae) in a cyclostat , 1982 .
[10] R. T. Cooney,et al. Trophic implications of cross-shelf copepod distributions in the Southeastern Bering Sea , 1982 .
[11] L. K. Coachman. Flow convergence over a broad, flat continental shelf , 1982 .
[12] G. Friederich,et al. Temporal changes in the inorganic carbon system of the southeastern Bering Sea during spring 1980 , 1982, Nature.
[13] D. Slagstad. A Model of Phytoplankton Growth - Effects of Vertical Mixing and Adaptation to Light , 1982 .
[14] C. McClain,et al. Role of Gulf Stream frontal eddies in forming phytoplankton patches on the outer southeastern shelf1 , 1981 .
[15] Vera Alexander,et al. Oceanography of the eastern Bering Sea ice‐edge zone in spring1 , 1981 .
[16] P. Falkowski,et al. A simulation model of the effects of vertical mixing on primary productivity , 1981 .
[17] L. Legendre,et al. Physical Control of Phytoplankton Production under Sea Ice (Manitounuk Sound, Hudson Bay) , 1981 .
[18] J. Kremer,et al. Origins of vertical patterns of phytoplankton and nutrients in the temperate, open ocean: a stratigraphic hypothesis , 1981 .
[19] Vera Alexander,et al. An analysis of the influence of ice on spring phytoplankton population structure in the southeast Bering Sea1 , 1981 .
[20] C. Sancetta. Oceanographic and ecologic significance of diatoms in surface sediments of the Bering and Okhotsk seas , 1981 .
[21] J. Walsh,et al. A diffusion model of cross-shelf exchange of nutrients in the southeastern Bering Sea , 1981 .
[22] P. Bienfang. Sinking rate dynamics of Cricosphaera carterae Braarud. II. Senescence response to various limiting substrates in non-steady state populations , 1981 .
[23] H. J. Niebauer. Sea ice and temperature variability in the eastern Bering Sea and the relation to atmospheric fluctuations , 1980 .
[24] J. Lindley,et al. Plankton of the fladen ground during FLEX 76 I. Spring development of the plankton community , 1980 .
[25] Charles R. Goldman,et al. Primary Productivity in Aquatic Environments , 1980 .
[26] B. Peterson,et al. Particulate organic matter flux and planktonic new production in the deep ocean , 1979, Nature.
[27] Max Ledbetter. Langmuir circulations and plankton patchiness , 1979 .
[28] F. D. King,et al. Estimates of vertical eddy diffusion through the thermocline from phytoplankton nitrate uptake rates in the mixed layer of the eastern tropical Pacific1 , 1979 .
[29] L. Ignatiades. The influence of water stability on the vertical structure of a phytoplankton community , 1979 .
[30] R. Eppley,et al. Nitrate and phytoplankton production in southern California coastal waters1 , 1979 .
[31] L. K. Coachman,et al. On Lateral Water Mass Interaction—A Case Study, Bristol Bay, Alaska , 1979 .
[32] T. G. Owens,et al. Effects of light intensity on photosynthesis and dark respiration in six species of marine phytoplankton , 1978 .
[33] P. Holligan,et al. The effects of vertical stability on phytoplankton distributions in the summer on the northwest European Shelf , 1978 .
[34] J. Marra. Phytoplankton photosynthetic response to vertical movement in a mixed layer , 1978 .
[35] W. Esaias,et al. Wind events and food chain dynamics within the New York Bight 1, 2 , 1978 .
[36] P. Koeller,et al. Stirring influences the phytoplankton species composition within enclosed columns of coastal sea water , 1978 .
[37] R. Houghton,et al. A Simple Model For Cross-Shelf Mixing on the Scotian Shelf , 1978 .
[38] J. McCarthy,et al. Nitrogenous nutrition of the plankton in the Chesapeake Bay. 1. Nutrient availability and phytoplankton preferences , 1977 .
[39] P. Holligan,et al. The vertical distribution and succession of phytoplankton in the western English Channel in 1975 and 1976 , 1977, Journal of the Marine Biological Association of the United Kingdom.
[40] John H. Steele,et al. The Structure of Plankton Communities , 1977 .
[41] J. Zaneveld,et al. Bottom nepheloid layers and bottom mixed layers observed on the continental shelf off Oregon , 1977 .
[42] J. Walsh,et al. Further transition states of the Baja California upwelling ecosystem1,2 , 1977 .
[43] A. Jassby,et al. THE RELATIONSHIP BETWEEN PHOTOSYNTHESIS AND LIGHT FOR NATURAL ASSEMBLAGES OF COASTAL MARINE PHYTOPLANKTON 1 , 1976 .
[44] J. Beardall,et al. The concept of light intensity adaptation in marine phytoplankton: Some experiments with Phaeodactylum tricornutum , 1976 .
[45] K. Banse,et al. The dynamics of phytoplankton blooms in puget sound a fjord in the Northwestern United States , 1975 .
[46] A. Ōkubo. Diffusion-Induced Instability in Model Ecosystems: Another Possible Explanation of Patchiness. , 1974 .
[47] R. Iverson,et al. Summer phytoplankton blooms in Auke Bay, Alaska, driven by wind mixing of the water column1 , 1974 .
[48] D. Hood,et al. Bristol Bay: Model Contemporary Graded Shelf , 1972 .
[49] C. Lorenzen. Extinction of Light in the Ocean by Phytoplankton , 1972 .
[50] R. Dugdale,et al. Interactions of light and inorganic nitrogen in controlling nitrogen uptake in the sea , 1972 .
[51] J. Lund. An Artificial Alteration of the Seasonal Cycle of the Plankton Diatom Melosira Italica Subsp. Subarctica in an English Lake , 1971 .
[52] J. Ryther,et al. Nitrogen, Phosphorus, and Eutrophication in the Coastal Marine Environment , 1971, Science.
[53] P. Burkholder,et al. Studies of primary productivity in coastal waters of southern Long Island, New York , 1970 .
[54] J. Goering,et al. Nitrogen Uptake by Phytoplankton in the Discontinuity Layer of the Eastern Subtropical Pacific OCEAN1 , 1970 .
[55] D. M. Ellis,et al. Applied Regression Analysis , 1968 .
[56] J. Goering,et al. UPTAKE OF NEW AND REGENERATED FORMS OF NITROGEN IN PRIMARY PRODUCTIVITY1 , 1967 .
[57] Richard C. Dugdale,et al. NUTRIENT LIMITATION IN THE SEA: DYNAMICS, IDENTIFICATION, AND SIGNIFICANCE1 , 1967 .
[58] K. Hunkins. Tide and Storm Surge Observations in Tiie Chukchi SEA1 , 1965 .
[59] D. Cushing. An Alternative Method of Estimating the Critical Depth , 1962 .
[60] John H. Steele,et al. ENVIRONMENTAL CONTROL OF PHOTOSYNTHESIS IN THE SEA , 1962 .
[61] Gordon A. Riley,et al. Phytoplankton of the North Central Sargasso Sea, 1950–521 , 1957 .
[62] Walter Munk,et al. Notes on a theory of the thermocline , 1948 .
[63] P. Jenkin. Oxygen Production by the Diatom Coscinodiscus Excentricus Ehr. in Relation to Submarine Illumination in the English Channel , 1937, Journal of the Marine Biological Association of the United Kingdom.
[64] T. Braarud,et al. A Quantitative Study of the Phytoplankton in the Bay of Fundy and the Gulf of Maine (including Observations on Hydrography, Chemistry and Turbidity) , 1935 .
[65] L. K. Coachman. Circulation, water masses, and fluxes on the southeastern Bering Sea shelf , 1986 .
[66] J. Walsh,et al. Ecosystem analysis in the southeastern Bering sea , 1986 .
[67] Sharon L. Smith,et al. Spatial and temporal effects of salinity, temperature and chlorophyll on the communities of zooplankton in the southeastern Bering Sea. , 1984 .
[68] R. Iverson,et al. The feeding, respiration, and excretion of zooplankton in the Bering Sea during a spring bloom , 1982 .
[69] T. Platt,et al. Phytoplankton production and water motion in surface mixed layers , 1982 .
[70] L. Legendre. Hydrodynamic Control of Marine Phytoplankton Production: The Paradox of Stability+ , 1981 .
[71] C. Yentsch. Vertical Mixing, A Constraint to Primary Production: An Extension of the Concept Of an Optimal Mixing Zone , 1981 .
[72] P. Falkowski. Light-Shade Adaptation in Marine Phytoplankton , 1980 .
[73] R. T. Cooney,et al. Ecological Significance of Fronts in the Southeastern Bering Sea , 1979 .
[74] R. Margalef. Life-forms of phytoplankton as survival alternatives in an unstable environment , 1978 .
[75] G. Hitchcock,et al. The importance of light in the initiation of the 1972‐1973 winter‐spring diatom bloom in Narragansett Bay1 , 1977 .
[76] John J. Walsh,et al. Herbivory as a factor in patterns of nutrient utilization in the sea1 , 1976 .
[77] Donald R. Johnson. The Seasonal Density Structure And Circulation On The Continental Shelf , 1974 .
[78] W. Richard,et al. TEMPERATURE AND PHYTOPLANKTON GROWTH IN THE SEA , 1972 .
[79] Gerhard Neumann,et al. Principles of Physical Oceanography , 1966 .
[80] O. Phillips. The dynamics of the upper ocean , 1966 .
[81] J. Steele,et al. Conditions for maximum primary production in the mixed layer , 1962 .
[82] H. J. Semina. The Influence OP Vertical Circulation on the Phytoplankton in the Bering Sea , 1960 .
[83] H. Sverdrup,et al. On Conditions for the Vernal Blooming of Phytoplankton , 1953 .