%0 Journal Article %1 Chen2012Possible %A Chen, Huo-Po %A Sun, Jian-Qi %A Fan, Ke %D 2012 %J Chinese Journal of Geophysics %K precip eastasianmonsoon MyMonsoonENSOwork ENSO China %N 3 %P 267--274 %R 10.1002/cjg2.1721 %T Possible Mechanism for the Interdecadal Change of Xinjiang Summer Precipitation %U http://dx.doi.org/10.1002/cjg2.1721 %V 55 %X Some studies have indicated that an abrupt climate change of Xinjiang summer precipitation has occurred in the late 1980s, changing from warm‐dry to warm‐wet condition. This study further investigates their corresponding atmospheric circulation anomalies of this interdecadal change based on NCEP/NCAR and ERA40 reanalysis datasets. The results demonstrate that the intensified and westward East Asian‐Pacific teleconnection (EAP) that locates along the East Asian coast shows a great contribution to the increase of Xinjiang summer precipitation after the late 1980s. Before this transition, the EAP was much weaker and located relatively to the east, and had no contribution to the variability of summer precipitation. The main system affecting that is the anomalous zonal wave train over the Eurasian continent. After this transition, the EAP pattern is observed to be much stronger and more westward than before. Accordingly, the water vapor flow anomalies associated with this intensified and westward EAP extend from the northwestern Pacific to inland China, implying significant increase of water vapor over Xinjiang region, which is partly responsible for the increased summer precipitation after the late 1980s.

@article{Chen2012Possible, abstract = {Some studies have indicated that an abrupt climate change of Xinjiang summer precipitation has occurred in the late 1980s, changing from warm‐dry to warm‐wet condition. This study further investigates their corresponding atmospheric circulation anomalies of this interdecadal change based on NCEP/NCAR and ERA40 reanalysis datasets. The results demonstrate that the intensified and westward East Asian‐Pacific teleconnection (EAP) that locates along the East Asian coast shows a great contribution to the increase of Xinjiang summer precipitation after the late 1980s. Before this transition, the EAP was much weaker and located relatively to the east, and had no contribution to the variability of summer precipitation. The main system affecting that is the anomalous zonal wave train over the Eurasian continent. After this transition, the EAP pattern is observed to be much stronger and more westward than before. Accordingly, the water vapor flow anomalies associated with this intensified and westward EAP extend from the northwestern Pacific to inland China, implying significant increase of water vapor over Xinjiang region, which is partly responsible for the increased summer precipitation after the late 1980s.}, added-at = {2018-06-18T21:23:34.000+0200}, author = {Chen, Huo-Po and Sun, Jian-Qi and Fan, Ke}, biburl = {https://www.bibsonomy.org/bibtex/213d429b79bdd0415cd4791cc4cb0ccc5/pbett}, citeulike-article-id = {14603687}, citeulike-linkout-0 = {http://dx.doi.org/10.1002/cjg2.1721}, doi = {10.1002/cjg2.1721}, interhash = {f9c2b49d21d2787b24d209619070da53}, intrahash = {13d429b79bdd0415cd4791cc4cb0ccc5}, issn = {08989591}, journal = {Chinese Journal of Geophysics}, keywords = {precip eastasianmonsoon MyMonsoonENSOwork ENSO China}, month = may, number = 3, pages = {267--274}, posted-at = {2018-06-14 16:14:38}, priority = {2}, timestamp = {2020-04-15T09:29:49.000+0200}, title = {Possible Mechanism for the Interdecadal Change of Xinjiang Summer Precipitation}, url = {http://dx.doi.org/10.1002/cjg2.1721}, volume = 55, year = 2012 }