Induced Allelopathic Effects of <i>Thalassiosira weissflogii</i> on Colony Formation in <i>Phaeocystis globosa</i> by Xiaodong Wang, Yiping Huo, Fan Yang, Yan Wang

“…Co-culturing and using cell-free filtrates are common methods for investigating allelopathy of marine phytoplankton; however, these methods often yield inconsistent or even contradictory results. …”
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Coccolithophore Growth and Calcification in an Acidified Ocean: Insights From Community Earth System Model Simulations by K. M. Krumhardt, N. S. Lovenduski, M. C. Long, M. Levy, K. Lindsay, J. K. Moore, C. Nissen

“…Abstract Anthropogenic CO2 emissions are inundating the upper ocean, acidifying the water, and altering the habitat for marine phytoplankton. These changes are thought to be particularly influential for calcifying phytoplankton, namely, coccolithophores. …”
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Variability in DMS in the East China Sea and its response to different ENSO categories by Siyu Li, Qun Sun, Wenning Guo

“…Dimethylsulfide (DMS) produced by marine phytoplankton is the most important volatile sulfur compound in ocean surface seawater and has a distinct contribution to global climate change. …”
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Metabarcoding analysis identifies high diversity of harmful algal bloom species in the coastal waters of the Beibu Gulf by Liyan He, Zhiming Yu, Xin Xu, Jianan Zhu, Yongquan Yuan, Xihua Cao, Xiuxian Song

“…In this study, to investigate their potential impact in the Beibu Gulf, short‐read and long‐read metabarcoding analyses were combined for annual marine phytoplankton community and HAB species identification. …”
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Influence of GEOTRACES data distribution and misfit function choice on objective parameter retrieval in a marine zinc cycle model by C. Eisenring, S. E. Oliver, S. E. Oliver, S. Khatiwala, G. F. de Souza

“…Here, we assess the influence of data distribution, model uncertainty, and the misfit function on objective parameter optimisation in a model of the oceanic cycle of zinc (Zn), an essential micronutrient for marine phytoplankton with a long whole-ocean residence time. …”
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The Macromolecular Basis of Phytoplankton C:N:P Under Nitrogen Starvation by Liefer, Justin D., Garg, Aneri, Fyfe, Matthew H., Irwin, Andrew J., Benner, Ina, Brown, Christopher M., Follows, Michael J, Omta, Anne Willem, Finkel, Zoe V.

“…This quantitative assessment of macromolecular and elemental content spanning several marine phytoplankton species can be used to develop physiological models for ecological and biogeochemical applications.…”
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Exploring biogeochemical and ecological redundancy in phytoplankton communities in the global ocean by Dutkiewicz, Stephanie, Boyd, Philip W, Riebesell, Ulf

“…Climate-change-induced alterations of oceanic conditions will lead to the ecological niches of some marine phytoplankton species disappearing, at least regionally. …”
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Metatranscriptome analyses indicate resource partitioning between diatoms in the field by Alexander, Harriet, Jenkins, Bethany D., Rynearson, Tatiana A., Dyhrman, Sonya T.

“…Diverse communities of marine phytoplankton carry out half of global primary production. …”
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Temporal dynamics of Prochlorococcus cells with the potential for nitrate assimilation in the subtropical Atlantic and Pacific oceans by Berube, Paul M., Coe, Allison, Chisholm, Sallie (Penny), Roggensack, Sara

“…Utilization of nitrate as a nitrogen source is broadly conserved among marine phytoplankton, yet many strains of Prochlorococcus lack this trait. …”
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Distribution and Drivers of Marine Isoprene Concentration across the Southern Ocean by Pablo Rodríguez-Ros, Pau Cortés, Charlotte Mary Robinson, Sdena Nunes, Christel Hassler, Sarah-Jeanne Royer, Marta Estrada, M. Montserrat Sala, Rafel Simó

“…Isoprene is a biogenic trace gas produced by terrestrial vegetation and marine phytoplankton. In the remote oceans, where secondary aerosols are mostly biogenic, marine isoprene emissions affect atmospheric chemistry and influence cloud formation and brightness. …”
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Physiological responses and altered halocarbon production in Phaeodactylum tricornutum after exposure to polystyrene microplastics by Xiao-Ping Lang, Zhen He, Gui-Peng Yang, Ge Dai

“…Hence, we suggest that the widespread microplastics in the ocean may be partly responsible for the increase in the emission of VHCs by marine phytoplankton, thereby affecting the ozone layer recovery in the future.…”
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Responses of Primary Productivity and Phytoplankton Community to the Atmospheric Nutrient Deposition in the East China Sea by Qingwei Ma, Ying Chen, Fanghui Wang, Haowen Li

“…Atmospheric deposition of nutrients to the surface seawater may significantly affect marine phytoplankton growth. Two in situ bioassay experiments were performed in the East China Sea (ECS) by adding nutrients (N, P, and Si) and atmospheric aerosols into the surface seawater. …”
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Variation in calcification of <i>Reticulofenestra</i> coccoliths over the Oligocene–Early Miocene by J. Guitián, J. Guitián, M. Á. Fuertes, J.-A. Flores, I. Hernández-Almeida, H. Stoll

“…<p>Coccolithophores are calcifying marine phytoplankton whose intracellularly produced calcite plates, coccoliths, have been the dominant source of calcium carbonate in open-ocean settings since the Cretaceous. …”
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Development of a TaqMan qPCR assay for detection of Alexandrium spp and application to harmful algal bloom monitoring by Robert G. Hatfield, Timothy Bean, Andrew D. Turner, David N. Lees, James Lowther, Adam Lewis, Craig Baker-Austin

“…The Genus Alexandrium is a widespread dinoflagellate marine phytoplankton that is the primary causative organism causing Paralytic Shellfish Poisoning (PSP) intoxications in European waters. …”
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Remote sensing of phytoplankton community composition in the northern Benguela upwelling system by Tebatso M. Moloto, Tebatso M. Moloto, Sandy J. Thomalla, Sandy J. Thomalla, Marie E. Smith, Marie E. Smith, Bettina Martin, Deon C. Louw, Rolf Koppelmann

“…Marine phytoplankton in the northern Benguela upwelling system (nBUS) serve as a food and energy source fuelling marine food webs at higher trophic levels and thereby support a lucrative fisheries industry that sustain local economies in Namibia. …”
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The Macromolecular Basis of Phytoplankton C:N:P Under Nitrogen Starvation by Justin D. Liefer, Aneri Garg, Matthew H. Fyfe, Andrew J. Irwin, Ina Benner, Christopher M. Brown, Michael J. Follows, Anne Willem Omta, Zoe V. Finkel

“…This quantitative assessment of macromolecular and elemental content spanning several marine phytoplankton species can be used to develop physiological models for ecological and biogeochemical applications.…”
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MAREL Carnot data and metadata from the Coriolis data center by R. Halawi Ghosn, É. Poisson-Caillault, G. Charria, A. Bonnat, M. Repecaud, J.-V. Facq, L. Quéméner, V. Duquesne, C. Blondel, A. Lefebvre

“…We also demonstrate that the MAREL Carnot dataset can be used to assess environmental or ecological statuses and conduct research in the field of marine phytoplankton ecology and oceanography. In addition, we show that this dataset may indirectly aid in improving European environmental management strategies. …”
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Defining the ecological and physiological traits of phytoplankton across marine ecosystem by Alexander, Harriet, Ph. D. Massachusetts Institute of Technology

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Phytoplankton can actively diversify their migration strategy in response to turbulent cues by Sengupta, Anupam, Carrara, Francesco, Stocker, Roman

“…Marine phytoplankton inhabit a dynamic environment where turbulence, together with nutrient and light availability, shapes species fitness, succession and selection. …”
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Tracing the evolution of the plastome and mitogenome in the Chloropicophyceae uncovered convergent tRNA gene losses and a variant plastid genetic code by Turmel, Monique, Lopes dos Santos, Adriana, Otis, Christian, Sergerie, Roxanne, Lemieux, Claude

“…The tiny green algae belonging to the Chloropicophyceae play a key role in marine phytoplankton communities; this newly erected class of prasinophytes comprises two genera (Chloropicon and Chloroparvula) containing each several species. …”
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