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Reduction in CO2 uptake rates of red tide dinoflagellates due to mixotrophy
Hae Jin Jeong, Kitack Lee, Yeong Du Yoo, Ja-Myung Kim, Tae Hoon Kim, Miok Kim, Ju-Hyoung Kim, Kwang Young Kim
ALGAE. 2016;31(4):351-362.   Published online 2016 December 15    DOI:

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Reduction in CO2 uptake rates of red tide dinoflagellates due to mixotrophy
ALGAE. 2016;31(4):351-362   Crossref logo
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Red tide due to dinoflagellates in the harbour of Pula
Toxicon. 1978;16(5):423   Crossref logo
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Ab Initio Molecular Dynamics Simulations on High-Temperature Reaction Rates of Reactions KO+CO==K+CO2, KO+C=K+CO, and K2O+CO2==K2CO3
Advanced Materials Research. 2014;875-877:1037-1041   Crossref logo

Mixotrophy in Red Tide Algae Raphidophytes1
Journal of Eukaryotic Microbiology. 2011;58(3):215-222   Crossref logo
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Giant Red Shift of Absorption Edge Due to Ferromagnetic Order in La0.9Sr0.1MnO3
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Photocatalytic Reduction of CO2 over CdxZn1-xS Photocatalysts
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