"Nitrogen Constrains the Growth of Late Summer Cyanobacterial Blooms in Lake Erie"
written by Justin D. Chaffin, Thomas B. Bridgeman, Darren L. Bade,
published by Advances in Microbiology, Vol.3 No.6A, 2013
has been cited by the following article(s):
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[4] Effect of micronutrients on algae in different regions of Taihu, a large, spatially diverse, hypereutrophic lake
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[7] Mitigating a global expansion of toxic cyanobacterial blooms: confounding effects and challenges posed by climate change
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[8] Problem and Research Objectives
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[11] Effects of Detritivores on Nutrient Dynamics and Corn Biomass in Agroecosystems
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[12] Nitrous oxide in the Great Lakes: insights from two trophic extremes
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[13] Effects of Detritivores on Nutrient Dynamics and Corn Biomass in Mesocosms
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[14] Structural changes of the microplankton community following a pulse of inorganic nitrogen in a eutrophic river
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[15] The Oxidation of Fe (II), Fe (II) Mineral, and Rapid Denitrification under Cyanobacterial Interfacial Competition by Novel NDFe (II) OB, Pseudogulbenkiania …
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[16] Cyanobacterial blooms in the central basin of Lake Erie: Potentials for cyanotoxins and environmental drivers
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[17] Transitions in microbial communities along a 1600 km freshwater trophic gradient
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[18] Reduced forms of nitrogen are a driver of non-nitrogen-fixing harmful cyanobacterial blooms and toxicity in Lake Erie
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[19] Evaluating sediments as an ecosystem service in western Lake Erie through quantification of nitrogen cycling pathways
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[20] A Hybrid Lagrangian–Eulerian Particle Model for Ecosystem Simulation
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[21] Internal phosphorus loading from sediments causes seasonal nitrogen limitation for harmful algal blooms
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[22] Interactions between nitrogen form, loading rate, and light intensity on Microcystis and Planktothrix growth and microcystin production
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[23] The relative importance of anammox and denitrification to total N2 production in Lake Erie
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[24] Nitrogen limitation, toxin synthesis potential, and toxicity of cyanobacterial populations in Lake Okeechobee and the St. Lucie River Estuary, Florida, during …
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[25] Long-term Cropping Effects on Partitioning of Water Flow and Nitrate Loss between Surface Runoff and Tile Drainage
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[26] Accuracy of data buoys for measurement of cyanobacteria, chlorophyll, and turbidity in a large lake (Lake Erie, North America): implications for estimation of …
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[27] Early onset of a microcystin-producing cyanobacterial bloom in an agriculturally-influenced Great Lakes tributary
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[28] Effects of multiple stressors on primary production in Lake Erie
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[29] A Method for Assessing and Predicting Water Quality Status for Improved Decision-Making and Management
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[30] Effects of Nutrient Enrichment and Elevated Temperature on Cyanobacteria Bloom Diversity and Toxicity in Temperate Freshwater Lakes
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[31] Ecophysiological Examination of the Lake Erie Microcystis Bloom in 2014: Linkages between Biology and the Water Supply Shutdown of Toledo, OH
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[32] Phytoplankton nitrogen and phosphorus limitation and the N2-fixation potential of Nostocales at varying nitrogen supplies and light intensities in lakes
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[33] A Nitrogen Physical Input-Output Table (PIOT) model for Illinois
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[34] Multiple models guide strategies for agricultural nutrient reductions
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[35] 太湖西北湖区浮游植物和无机, 有机氮的时空分布特征
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[36] Seasonal Impacts and Regulation of Nitrogen Pollution in the Northern Great Plains Insights from Microcosm, Mesocosm, and Mensurative Scale Studies
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[37] Characterizing nutrient distributions and fluxes in a eutrophic reservoir, Midwestern United States
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[38] Impacts of the 2014 severe drought on the Microcystis bloom in San Francisco Estuary
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[39] Microcystis rising: why phosphorus reduction isn't enough to stop cyanoHABs
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[40] Tracking cyanobacteria blooms: Do different monitoring approaches tell the same story?
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[41] Spatial and temporal variability in the nitrogen cyclers of hypereutrophic Lake Taihu
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[42] Phytoplankton blooms in Lake Erie impacted by both long-term and springtime phosphorus loading
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[43] Establishing Spatial and Temporal Patterns in Microcystis Sediment Seed Stock Viability and Their Relationship to Subsequent Bloom Development in Western Lake …
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[44] Characterization of the Cyanobacterial Harmful Algal Bloom Community in Hamilton Harbour, Lake Ontario
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[45] It Takes Two to Tango: When and Where Dual Nutrient (N & P) Reductions Are Needed to Protect Lakes and Downstream Ecosystems
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[46] Lake‐type‐specific seasonal patterns of nutrient limitation in German lakes, with target nitrogen and phosphorus concentrations for good ecological status
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[47] Winter–spring diatom production in Lake Erie is an important driver of summer hypoxia
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[48] The dual role of nitrogen supply in controlling the growth and toxicity of cyanobacterial blooms
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[49] Urea in Lake Erie: Organic nutrient sources as potentially important drivers of phytoplankton biomass
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[50] Probabilistically assessing the role of nutrient loading in harmful algal bloom formation in western Lake Erie
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[51] ENVIRONMENTAL, SPATIAL AND TEMPORAL EFFECTS ON MICROBIAL COMPOSITION IN LAKE ERIE
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[52] A cross‐scale view of N and P limitation using a Bayesian hierarchical model
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[53] Comparative bioavailability of ammonium, nitrate, nitrite and urea to typically harmful cyanobacterium Microcystis aeruginosa
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[54] Different seasonality of nitrate export from an agricultural watershed and an urbanized watershed in Midwestern USA
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[55] Internal loading of phosphorus in western Lake Erie
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[56] A multi-model approach to evaluating target phosphorus loads for Lake Erie
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[57] Characterizing limiting nutrient distributions and fluxes in a eutrophic Midwestern reservoir
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[58] HISTORICAL OCCURRENCE AND CURRENT STATUS OF HARMFUL ALGAL BLOOMS IN SUFFOLK COUNTY, NY, USA
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[59] Net-Pen Commercial Aquaculture: A Short Summary of the Science
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[60] Assessment of Water Quality in the Lakes Along Colentina River.
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[61] 湖光岩玛珥湖春季浮游植物对溶解态氮的吸收?
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[62] Assessment of Water Quality in the Lakes Along Colentina River
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[63] 湖光岩玛珥湖春季浮游植物对溶解态氮的吸收
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[64] Characterization of the Persistent Cyanobacterial Bloom, Planktothrix, in Sandusky Bay, Lake Erie
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[65] Dinâmica do fitoplâncton e assimilação de nitrato, amônio e ureia em reservatórios subtropicais com diferentes graus de trofia
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[66] Irreversible Collective Migration of Cyanobacteria in Eutrophic Conditions
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[67] Long-Term and Seasonal Trend Decomposition of Maumee River Nutrient Inputs to Western Lake Erie
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[68] Metatranscriptomic Evidence for Co-Occurring Top-Down and Bottom-Up Controls on Toxic Cyanobacterial Communities
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[69] Effects of increasing nitrogen and phosphorus concentrations on phytoplankton community growth and toxicity during Planktothrix blooms in Sandusky Bay, Lake Erie
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[70] Dynamic internal drivers of a historically severe cyanobacteria bloom in Lake Champlain revealed through comprehensive monitoring
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[71] Nutrient-controlled niche differentiation of western Lake Erie cyanobacterial populations revealed via metatranscriptomic surveys
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[72] Urea as a Nitrogen Source for Microcystis aeruginosa
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[73] Re-eutrophication of Lake Erie: Correlations between tributary nutrient loads and phytoplankton biomass
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[74] Connecting the blooms: tracking and establishing the origin of the record-breaking Lake Erie Microcystis bloom of 2011 using DGGE
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[75] Using artificial intelligence for CyanoHAB niche modeling: discovery and visualization of Microcystis–environmental associations within western Lake Erie
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[76] Status, causes and controls of cyanobacterial blooms in Lake Erie
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[77] Spatio-Temporal Distribution Of Microbial Communities In The Laurentian Great Lakes
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[78] Interactive Effects of Temperature, Nitrogen, and Zooplankton on Growth and Protein and Carbohydrate Content of Cyanobacteria from Western Lake Erie
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[79] Nitrogen availability increases the toxin quota of a harmful cyanobacterium, Microcystis aeruginosa
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[80] Algal blooms: Noteworthy nitrogen
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[81] Phylogenies of Microcystin-Producing Cyanobacteria in the Lower Laurentian Great Lakes Suggest Extensive Genetic Connectivity
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[82] Corrigendum to “Status, causes and controls of cyanobacterial blooms in Lake Erie”
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[83] Organic and inorganic nitrogen utilization by nitrogen-stressed cyanobacteria during bloom conditions
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[84] Ammonia-oxidizing bacteria and archaea across a freshwater trophic gradient
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[85] Using a Bayesian hierarchical model to improve Lake Erie cyanobacteria bloom forecasts
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[86] Using a B ayesian hierarchical model to improve L ake E rie cyanobacteria bloom forecasts
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