210 likes | 502 Views
Ocean-Atmosphere Interaction. Review of last lecture. Large spread in projected temperature change comes from uncertainties in climate feedbacks Main climate feedbacks for global warming: albedo, lapse rate, water vapor, cloud, aerosol, carbon cycle
E N D
Review of last lecture • Large spread in projected temperature change comes from uncertainties in climate feedbacks • Main climate feedbacks for global warming: albedo, lapse rate, water vapor, cloud, aerosol, carbon cycle • Feedback strength in climate models: cloud feedback causes the largest uncertainty
Global Climate System Spatial Scale Glacial cycles Global warming Whole globe Radiation feedback (T, q, cloud, aerosol, carbon) AMO/PDO ENSO AO/AAO Ocean-atmosphere interaction Half globe Monsoon Land-atmosphere interaction Madden-Julian Oscillation Convectvely coupled waves Convection feedback Diurnal variation 103 km Extratropical cyclone Heat wave Tropical cyclone Global model grid 102 km Mesoscale convective system Tornado/Thunderstorm Regional model grid 1 km Shallow convection Boundary layer turbulence 1 mm Cloud/precip 1 m Radiation 10-4m Chemistry 10-15sec 1sec 1min 1day 1mon 1yr 10yr 102yr 105yr Time Scale
Key regions for ocean-atmosphere interaction North Atlantic North Pacific Indo-Pacific warm pool Eastern Pacific cold tongue
Tropical mean state: Precipitation Inter-tropical convergence zone (ITCZ) Strong rainfall (heating) Weak rainfall GPCP Annual Mean Precipitation for 1979-2005 (mm/day)
Tropical mean State: Walker Circulation • The SST contrast between warm pool and cold tongue leads to an atmospheric circulation cell oriented along the equator with rising motion in the west and sinking motion in the east, which is induced by • Interacts with underlying Pacific Ocean with stronger upwelling (cooling) in the east, leading to a positive feedback.
Theories of tropical mean climate: Ocean-atmosphere feedback mechanisms SST - SWF feedback (e.g. Ramanathan and Collins 1991) SST gradient - trade wind (Bjerknes) feedback (e.g. Bjerknes 1969, Neelin and Dijkstra 1995; Pierrehumbert 1995; Sun and Liu 1996; Jin 1996; Clement et al. 1996; Liu 1997; Cai 2003) SST - LHF feedback (e.g. Wallace 1992; Liu et al 1994; Zhang et al. 1995)
Movie time! Chasing El Nino
El Nino/Southern Oscillation (ENSO): The 4-year oscillation • El Nino: Very warm sea surface temperature over central and eastern tropical Pacific, which occurs every 3-7 years. The Walker Circulation becomes disrupted during El Niño events, which weakens upwelling in eastern Pacific. • La Nina: the opposite condition to El Nino • Southern Oscillation: The atmospheric oscillation associated with the El Nino-La Nina cycle. • The whole phenomena is now called El Nino/Southern Oscillation (ENSO)
Typical ENSO period is 3-7 years, but with significant irregularity
Existing ENSO theories (6) Stochastic forcing theory (McWilliams and Gent 1978, Lau 1985, Penland and Sardeshmukh 1995, Blanke et al. 1997, Kleeman and Moore 1997, Eckert and Latif 1997) (1) Slow coupled mode theory (Philander et al. 1984, Gill 1985, Hirst 1986, Neelin 1991, Jin and Neelin 1993, Wang and Weisberg 1996) (2) Delayer oscillator theory (Suarez and Schopf 1988, Battisti and Hirst 1989) (3) Advective-reflective oscillator theory (Picaut et al 1997) (4) Western Pacific oscillator theory (Weisberg and Wang 1997) (5) Recharge oscillator theory (Jin 1997a,b)
Atlantic Multi-decadal Oscillation (AMO) • The Atlantic Multidecadal Oscillation (AMO) is a 60yr oscillation in water temperatures and is a major factor in the increase in Atlantic hurricane activity.
An theory involving atmosphere-ocean-ice interactions (Dima and Lohmann 2007)
Summary • Mean state: The two basic regions of SST? Which region has stronger rainfall? What is the Walker circulation? Two types of ocean upwelling • Mean state: ocean-atmosphere feedback • ENSO: Which region has warm SST anomaly during El Nino? 4-year period. • Existing ENSO theories • AMO and thermohaline circulation
Works cited • http://www.jpl.nasa.gov/images/earth/20100325/atlantic20100325-full.jpg