eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

eCoral: How Electrolysis Could Restore Seawater Conditions Ideal for Coral Reefs by Eric W. Lees (8946101)

“…We conclude that near the negative electrodes, the cathodes, seawater pH, supersaturation, and carbonate concentration all increase significantly. Electrolysis of seawater, therefore, can be used to restore preindustrial ocean conditions locally to save coral reefs, an approach termed eCoral here. …”

Madrasin decreases transcription of protein-coding genes. by Michael Tellier (8284752)

Oral (p.o.) administration of OX-201 significantly increased respiratory activity in free-moving mice. by Ryuji Yamada (2733214)

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Intravenous (i.v.) OX-201 administration significantly increased burst frequency of the diaphragm in anesthetized rats. by Ryuji Yamada (2733214)

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Diagram of a single copy gene (SCG) standard curve. by Raheleh Farahzadi (3860311)

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Significant GO terms for all genes/transcripts detected in rams’ sperm samples. by Irene Ureña (6665366)

Species accumulation curve. by Nguyen Thi Hai (12700147)

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Opposing trends in abundance of two genera, <i>Anaerostipes</i> and <i>Escherichia-Shigella</i>. by Nguyen Thi Hai (12700147)

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Comparisons of abundance (numbers of sequence reads) of some bacteria between Ss- and Ss+ group. by Nguyen Thi Hai (12700147)

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Alpha diversity of the gut microbiota in Ss- and Ss+ groups, calculated according to several indices. by Nguyen Thi Hai (12700147)

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