Add to ORKGA decade-long time series recorded in southern Monterey Bay, California demonstrates that the shallow, near-shore environment (17 m depth) is regularly inundated with pulses of cold, hypoxic and low pH water. During these episodes, oxygen can drop to biologically threatening levels, and pH levels were lower than expected. Weekly water chemistry monitoring revealed that the saturation state of aragonite (the more soluble form of calcium carbonate) was often below saturation and had a moderate positive relationship with pH, however, analytical and human error could be high. Pulses of hypoxia and low pH water with the greatest intensity arise at the onset of the spring upwelling season, and fluctuations are strongly semidurnal (tidal) and diur...
Here we examine a 50+ yr data set from a regionally coordinated southern California water quality mo...
The magnitude of natural oceanic dissolved oxygen (DO) variability remains poorly understood due to ...
The combined effects of anthropogenic and biological CO2 inputs may lead to more rapid acidification...
A decade-long time series recorded in southern Monterey Bay, California demonstrates that the shallo...
Declining dissolved oxygen (DO) is emerging as an increasingly important stressor in nearshore ecosy...
Declining dissolved oxygen (DO) is emerging as an increasingly important stressor in nearshore ecosy...
Inorganic carbon chemistry data from the surface and subsurface waters of the West Coast of North Am...
Predicting consequences of ocean deoxygenation and ocean acidification for nearshore marine ecosyste...
The California Current System experiences seasonal ocean acidification and hypoxia (OAH) owing to wi...
A potential consequence of climate change is a global decrease in dissolved oxygen at depth due to c...
Coastal upwelling ecosystems around the world are defined by wind-generated currents that bring deep...
Eastern Boundary Upwelling Systems (EBUS) are highly productive biomes, which provide benefit to soc...
Eastern Boundary Upwelling Systems (EBUS) are highly productive biomes, which provide benefit to soc...
Understanding dissolved oxygen variability in the ocean is limited by the short duration of direct m...
Abstract. Hypoxia conditions are increasing throughout the world, influencing biogeochemical cycles ...
Here we examine a 50+ yr data set from a regionally coordinated southern California water quality mo...
The magnitude of natural oceanic dissolved oxygen (DO) variability remains poorly understood due to ...
The combined effects of anthropogenic and biological CO2 inputs may lead to more rapid acidification...
A decade-long time series recorded in southern Monterey Bay, California demonstrates that the shallo...
Declining dissolved oxygen (DO) is emerging as an increasingly important stressor in nearshore ecosy...
Declining dissolved oxygen (DO) is emerging as an increasingly important stressor in nearshore ecosy...
Inorganic carbon chemistry data from the surface and subsurface waters of the West Coast of North Am...
Predicting consequences of ocean deoxygenation and ocean acidification for nearshore marine ecosyste...
The California Current System experiences seasonal ocean acidification and hypoxia (OAH) owing to wi...
A potential consequence of climate change is a global decrease in dissolved oxygen at depth due to c...
Coastal upwelling ecosystems around the world are defined by wind-generated currents that bring deep...
Eastern Boundary Upwelling Systems (EBUS) are highly productive biomes, which provide benefit to soc...
Eastern Boundary Upwelling Systems (EBUS) are highly productive biomes, which provide benefit to soc...
Understanding dissolved oxygen variability in the ocean is limited by the short duration of direct m...
Abstract. Hypoxia conditions are increasing throughout the world, influencing biogeochemical cycles ...
Here we examine a 50+ yr data set from a regionally coordinated southern California water quality mo...
The magnitude of natural oceanic dissolved oxygen (DO) variability remains poorly understood due to ...
The combined effects of anthropogenic and biological CO2 inputs may lead to more rapid acidification...