Page Properties |
---|
1.Poster Title | Tele-connections of Precipitation Extremes: ACME v0 ne30 and ne120 FAMIP simulations |
---|
2.Authors | |
---|
3.Group | Atmosphere |
---|
4.Experiment | |
|
---|
5.Poster Category | Early Result |
---|
6.Submission Type | Poster |
---|
7.Poster Link | ACME_NAO_Extremes_48x48.pdf |
---|
8.Lightning Talk Slide | Mahajan_NAO_extremes.pdf |
---|
|
View file |
---|
name | ACME_NAO_Extremes_48x48.pdf |
---|
page | 2016-06-07 ACME Project All-Hands Meeting Posters |
---|
height | 400 |
---|
|
Abstract
...
We evaluate the statistics of global precipitation extremes of an ensemble (4 realizations) of low resolution (ne30) and high-resolution (ne120) ACME v0 FAMIP simulations (1979-2005). A regionalization framework is applied to improve the sample size of extreme events by using data from neighboring regions with a homogeneous climate. The generalized extreme value theory is used to quantify the statistics and non-stationary (tele-connections here) behavior of precipitation extremes and validated against the global land NOAA Climate Prediction Center (CPC) gauge-based analysis data. While the high-resolution model generally produces stronger extremes improving upon the low-resolution model, it also generates excessive extremes as compared to CPC data. The high-resolution model also improves the simulation of tele-connections of extremes with low-frequency phenomenon like the North Atlantic Oscillation (NAO) as compared to its low-resolution counterpart. These diagnostics for climate extremes are part of ACME Tier1b atmospheric diagnostics package and follow a software design similar to the ACME coupled diagnostics package.