Results of the second set of experiments. by Vasileios Mantas (16949352)

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Demographic data. by Vasileios Mantas (16949352)

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Fig 1 - by Vasileios Mantas (16949352)

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Gradation determined by the step-by-step filling test on the coarse aggregates. by Zhijun Liu (35566)

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Autophagy is significantly increased in the healthy older brains compared to the younger brains in post-mortem tissues. by Shreyasi Chatterjee (3531506)

Positional cloning of <i>qNN1</i> on chromosome 16. by Xinxin Li (281237)

Significant pathways detected. by Chiara Balestra (14769091)

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Algorithm operation steps. by Junyan Wang (4738518)

Data set. by Chen Deng (3111333)

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Time series data (<i>n</i> = 1). by Daisey Vega (12280397)

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<i>GmNN1/FT2a</i> expression analysis. by Xinxin Li (281237)

Overview of pipeline steps and study design. by Alireza Talesh Jafadideh (14227404)

Schematic of the multi-Step model. by Anshul Saini (11320669)

Overview of brain regions with significant Ketamine-induced increase in gamma-band power and aperiodic slope change. by Jessie Rademacher (21512686)

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. …”