atmospheric variability
DESCRIPTION
Atmospheric Variability. Why is it so cold winter 2010-2011? Why was it so hot summer 2010? Why was it so dry in 2007? Why was it so wet in 1998, 2009 (fall)? Are these extremes becoming more common? Why or why not? Does variability in atmospheric flow patterns fully answer these questions?. - PowerPoint PPT PresentationTRANSCRIPT
Atmospheric Variability
Why is it so cold winter 2010-2011? Why was it so hot summer 2010? Why was it so dry in 2007? Why was it so wet in 1998, 2009 (fall)? Are these extremes becoming more
common? Why or why not? Does variability in atmospheric flow patterns
fully answer these questions?
Atmospheric Variability
Temporal weekly, monthly, seasonal, annual, decadal
Spatial (x,y) Global, synoptic, regional, mesoscale,
microscale, sub-micro Vertical (z)
Surface, 1000mb, 925, 850, 700, 500, 300 Trends?
Natural or anomalous
What is a teleconnection
AMS: 1. A linkage between weather changes occurring in widely
separated regions of the globe. 2. A significant positive or negative correlation in the fluctuations of a field at widely separated points. Most commonly applied to variability on monthly and longer timescales, the name refers to the fact that such correlations suggest that information is propagating between the distant points through the atmosphere.”
Pressure fluctuations SST Height anomalies (700, 500mb) Associations with circulation indices
The North Atlantic Oscillation (NAO)
Pressure dipole in North Atlantic centered near Iceland/Greenland and over the Azores Icelandic Low vs Azores High Tendency for either both weak or both strong
Dominant mode of Variability in Atlantic Winter
The NAO index is obtained by projecting the NAO loading pattern to the daily anomaly 500 millibar height field over 0-90°N. The NAO loading pattern has been chosen as the first mode of a Rotated Empirical Orthogonal Function (EOF) analysis using monthly mean 500 millibar height anomaly data from 1950 to 2000 over 0-90°N latitude. (NCDC)
The North Atlantic Oscillation
Dec – March Temp correlations
Dec – March Precip correlations
The North Atlantic Oscillation
38.0
43.0
48.0
53.0
58.0
1949
1954
1959
1964
1969
1974
1979
1984
1989
1994
1999
2004
2009
Bama state averaged temp Dec-Feb
Arctic Oscillation (AO) or NHam
Cyclonic circulation of upper level winds around the Arctic Latitude poleward of 55°N
Positive = stronger winds- confines Arctic air More zonal
Negative = relaxed winds- Arctic air oozes southward
AO index is obtained by projecting the AO loading pattern to the daily anomaly 1000 millibar height field over 20°N-90°N latitude
Winter AO
38.0
43.0
48.0
53.0
58.0
1949
1954
1959
1964
1969
1974
1979
1984
1989
1994
1999
2004
2009
Bama state averaged temp Dec-Feb
Current Phase
Pacific North American (PNA) Quadripole pattern of 500mb height anomalies All months except June and July
winter Center locations
Similar signs south of Aleutians and over SE U.S. Hawaii and InterMountain U.S. and Canada
The PNA index is obtained by projecting the PNA loading pattern to the daily anomaly 500 millibar height field over 0-90°N. The PNA loading pattern has been chosen as the second mode of a Rotated EOF analysis using monthly mean 500 millibar height anomaly data from 1950 to 2000 over 0-90°N latitude.
PNA
38.0
43.0
48.0
53.0
58.0
1949
1954
1959
1964
1969
1974
1979
1984
1989
1994
1999
2004
2009
Bama state averaged temp Dec-Feb
Current Phase PNA
El Nino Southern Oscillation (ENSO)
Both a SST and pressure fluctuation in the tropical Pacific
~ 5-7 year periodicity Most significant atmospheric/oceanic coupling
in the world El Nino = warmer than normal SST La Nina = colder than normal SST Southern oscillation= pressure flip-flop
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_update/sstanim.shtml
Southern Oscillation Index (SOI)
Standardized difference in MSLP between Darwin Australia and Tahiti (T-D)
Pressure normally higher over Tahiti and lower over Darwin Slow east to west flow of tropical water
Nino Regions
Oceanic Nino Index
Running mean of the Nino 3.4 region At least 5 consecutive
overlapping months above (below) 0.5°C sst anomaly
Weak Mod Strong Weak Mod Strong1951 1986 1957 1950 1954 19551963 1987 1965 1956 1964 19731968 1994 1972 1962 1970 19751969 2002 1982 1967 1998 19881976 1991 1971 19991977 1997 1974 20072004 2009 1984 20102006 1995
2000
El Niño La Niña
ENSO Impacts
Alabama Impacts
http://www.cpc.ncep.noaa.gov/products/precip/CWlink/ENSO/box_whiskers/index.php
Projected ENSO November 2012 – April 2014
Time BELOW NORMAL ABOVE BELOW NORMAL ABOVE DEG ANOMALYNDJ 0 1 0 0 1 0 26.62 0.05DJ F 0.013 0.987 0 0.019 0.979 0.001 26.47 -0.16J FM 0.15 0.84 0.011 0.109 0.877 0.014 26.65 -0.18FMA 0.202 0.751 0.047 0.088 0.894 0.018 27.13 -0.12MAM 0.282 0.601 0.117 0.112 0.855 0.033 27.52 -0.1AMJ 0.352 0.444 0.204 0.178 0.738 0.085 27.67 -0.1MJ J 0.362 0.39 0.248 0.226 0.63 0.144 27.49 -0.09J J A 0.355 0.382 0.264 0.258 0.56 0.183 27.16 -0.08J AS 0.343 0.389 0.268 0.267 0.531 0.202 26.87 -0.07ASO 0.472 0.356 0.171 0.423 0.43 0.147 26.4 -0.35SON 0.432 0.354 0.214 0.414 0.385 0.201 26.4 -0.29OND 0.413 0.351 0.235 0.421 0.335 0.244 26.35 -0.28NDJ 0.497 0.328 0.175 0.514 0.297 0.189 26.03 -0.54DJ F 0.535 0.317 0.148 0.541 0.302 0.158 26.02 -0.61J FM 0.547 0.313 0.14 0.524 0.343 0.133 26.27 -0.56FMA 0.55 0.317 0.134 0.469 0.436 0.096 26.81 -0.44
Discovered 1996 (Hare and Mantua) Leading principal component of Northern
Pacific SST variability Similar to ENSO
Long-lived ENSO Greater SST variability in mid latitiude Pacific
Pacific Decadal Oscillation (PDO)
Pacific Decadal Oscillation (PDO)
Positive Negative
El Nino vs positive PDO
Table 1: summary of North American climate anomalies associated with extreme phases of the PDO.climate anomalies Warm Phase PDO Cool Phase PDO
Ocean surface temperatures in the northeastern and tropical Pacific
Above average Below average
October-March northwestern North American air temperatures
Above average Below average
October-March Southeastern US air temperatures
Below average Above average
October-March southern US/Northern Mexico precipitation
Above average Below average
October-March Northwestern North America and Great Lakes precipitation
Below average Above average
Northwestern North American spring time snow pack
Below average Above average
Winter and spring time flood risk in the Pacific Northwest
Below average Above average
Atlantic Multidecadal Oscillation (AMO) Fluctuation in detrended SST in north Atlantic (0 –
70°N) AMO index 10 year running mean
Relationships to speed of thermohaline circulation
Thermohaline Circulation
AMO and hurricane activity
AMO and hurricane activity
Quasi Biennial Oscillation (QBO)
Oscillating (E-W) stratospheric winds 10 – 100 mb above the equator
20 – 36 month periodicity Impacts
Spike in ATL hurricane activity during west (positive) zonal flow
May impact Asian monsoon and ENSO
Quasi Biennial Oscillation (QBO)
Madden Julian Oscillation 30 – 60 day oscillation, Tropical Indo-Pacific Eastward wave propagation of anomlaous rainfall low
OLR 4-8 m/s
Impacts trop and subtrop, precip, temp, and circulation
Most prominent NH winter U.S. Impacts
Increase frequency/intensity west coast precip Eastern cold air outbreaks
http://web.archive.org/web/20070612204448/http://www.apsru.gov.au/mjo/index.asp
Madden Julian Oscillation
MJO- OLR and pressure
MJO Phase Diagram
http://www.cpc.ncep.noaa.gov/products/precip/CWlink/MJO/Composites/Precipitation/
MJO and Atlantic Hurricanes
Phase 1 and 2 support a more active regime of Atlantic convection ACE > 76 91.5 major hurricane days (1974 – 2007)
Phase 6 and 7 less active ACE < 36 20.5 major hurricane days (1974 – 2007)
Others not discussed
ESRL Indices http://www.esrl.noaa.gov/psd/data/
climateindices/list/
Climate Prediction Center http://www.cpc.ncep.noaa.gov/