What can O 2 tell us about the climate change in the oceans? Taka Ito School of Earth and Atmospheric Sciences Georgia Institute.

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Presentation transcript:

What can O 2 tell us about the climate change in the oceans? Taka Ito School of Earth and Atmospheric Sciences Georgia Institute of Technology

Global oxygen cycle How would CO 2 respond to these processes?

CO 2 and O 2 : Yin and Yang Between ocean and atmosphere, which one is the dominant reservoir of oxygen? – O 2 : 0.5% ocean vs 99.5% atmosphere How about carbon dioxide? – CO 2 : 98% ocean vs 2% atmosphere

Why study oxygen cycling? O 2 controls many chemical reactions in the seawater and seafloor sediment O 2 is essential for life O 2 may inform us about changes in ecosystem and ocean circulation

Photosynthesis and respiration In a very approximate form, – Photosynthesis: Sun-lit surface ocean Sink for carbon, source for oxygen – Respiration: Happening throughout water column Sink for oxygen, source for carbon

Global ocean circulation Sarmiento and Gruber (2006)

Inter-basin contrast “Young” North Atlantic Deep Water is high in O 2 and low in DIC “Old” North Pacific Deep Water is low in O 2 and high in CO 2 Upwelling regions have particularly low O 2 and high CO 2 Sarmiento and Gruber (2006)

Tropical Pacific Oxygen Minimum Zone Upwelling region - Transport of low O 2 water from below - Upwelling provides nutrients for photosynthesis - Biological O 2 consumption in the thermocline

Aug 2006 Image from an ROV off the Oregon coastFraction of living organisms Vacquer-Sunyer and Duarte [2008] Impacts on coastal ecosystems Mortality rapidly increases at the hypoxic condition (Hypoxic = 60  mol/kg)

Hypoxic event in Oregon coast, 2002 Grantham et al (2004) What are the possible causes of low oxygen events?

Is the ocean losing oxygen? Last 30 years in California coast – Reason for the growing low O 2 region is not fully Understood – Expansion of low-O 2 habitat a concern Bograd et al. (2008)

July 2005 Tracy Arm (Sitka), AK An example: Expansion of Dosidicus gigas habitat in 2000s British Columbia Sept Long Beach, WA Oct Outer Coast, BC La Jolla Cove, CA. July,

Global changes in oceanic O 2 Gruber et al. (2007) NPIW A global change: “ocean deoxygenation”

PDO Once every 2-8 years Once every years Impact of climate variability Tropical Pacific - Enhanced ocean color (chlorophyll) variability - Size of OMZ is correlated with PDO (Deutsch et al 2011)

A conceptual model for sub-surface O 2 Air-sea gas exchange (O 2,sfc, set to a constant) Ocean circulation (W) O 2 loss by respiration (R) Depth of the thermocline (H)

Steady solution Long-term change can be explained by the steady state solution – Set RHS = 0 and solve for O 2 Decreasing oxygen can be explained by – Increasing sea surface temperature (smaller O 2,sfc ) – Increasing biological O 2 consumption (R) – Decreasing transport supply of O 2 (W)

A possible mechanism for PDO-O 2 relationship Deutsch et al (2011) +PDO and high O 2 -PDO and low O 2

Summary Yin & Yang: CO 2 and O 2 often show opposite tendency – Photosynthesis and respiration – “Aging” of ocean water masses What can O 2 tell us about climate and oceans? – Multiple controls: T, circulation and biology – Global de-oxygenation? – Modes of climate variability?