APA

Marangoni L. F. d. B., Mies M., Güth A. Z., Banha T. N. S., Inague A., Fonseca J. d. S., Dalmolin C., Faria S. C., Ferrier-Pagès C. & Bianchini A. (2019). Peroxynitrite Generation and Increased Heterotrophic Capacity Are Linked to the Disruption of the Coral-Dinoflagellate Symbiosis in a Scleractinian and Hydrocoral Species. : Microorganisms.

Chicago

Marangoni Laura Fernandes de Barros, Mies Miguel, Güth Arthur Z, Banha Thomás N S, Inague Alex, Fonseca Juliana da Silva, Dalmolin Camila, Faria Samuel Coelho, Ferrier-Pagès Christine and Bianchini Adalto. 2019. Peroxynitrite Generation and Increased Heterotrophic Capacity Are Linked to the Disruption of the Coral-Dinoflagellate Symbiosis in a Scleractinian and Hydrocoral Species. : Microorganisms.

Harvard

Marangoni L. F. d. B., Mies M., Güth A. Z., Banha T. N. S., Inague A., Fonseca J. d. S., Dalmolin C., Faria S. C., Ferrier-Pagès C. and Bianchini A. (2019). Peroxynitrite Generation and Increased Heterotrophic Capacity Are Linked to the Disruption of the Coral-Dinoflagellate Symbiosis in a Scleractinian and Hydrocoral Species. : Microorganisms.

MLA

Marangoni Laura Fernandes de Barros, Mies Miguel, Güth Arthur Z, Banha Thomás N S, Inague Alex, Fonseca Juliana da Silva, Dalmolin Camila, Faria Samuel Coelho, Ferrier-Pagès Christine and Bianchini Adalto. Peroxynitrite Generation and Increased Heterotrophic Capacity Are Linked to the Disruption of the Coral-Dinoflagellate Symbiosis in a Scleractinian and Hydrocoral Species. : Microorganisms. 2019.