Characteristics of winter precipitation variation over northern central eurasia and their connections to sea surface temperatures over the Atlantic and Pacific Oceans
Hc. Ye, Characteristics of winter precipitation variation over northern central eurasia and their connections to sea surface temperatures over the Atlantic and Pacific Oceans, J CLIMATE, 14(14), 2001, pp. 3140-3155
This study reveals spatial and temporal characteristics of precipitation va
riability and their teleconnections to sea surface temperatures (SSTs) over
the Atlantic and Pacific Oceans by analyzing 68 yr of recent precipitation
records over the former Soviet Union. In addition to a general increasing
trend of about 0.4 mm yr(-1) or 6% decade(-1) over much of the study region
, three major modes of precipitation variation are identified. A quasibienn
ial variation of 2-3 yr is found over the region surrounding the Caspian an
d Aral Seas. An El Nino timescale precipitation variation of 4-5 yr is pres
ent over southern central Siberia and is associated with eastern tropical P
acific SSTs. A quasi-decadal timescale variation of about 11-12 yr is evide
nt over central European Russia. This quasi-decadal precipitation variation
is closely linked to a major SST anomaly pattern of alternating latitudina
l belts over the Atlantic and SST variations over the equatorial Pacific Oc
ean. These associations to SSTs are stronger at the timescales identified i
n this study than at an interannual timescale.
The atmospheric west Atlantic pattern and atmospheric anomalies over the ea
stern tropical Pacific bridge the teleconnection between precipitation over
central European Russia and both oceans at quasi-decadal timescales. The a
tmospheric anomalies over the eastern Pacific coupled with eastern tropical
SST anomalies are teleconnected to those over northern Asia and, thus, are
responsible for the precipitation variation over southern central Siberia
at an El Nino timescale.