Redirigiendo al acceso original de articulo en 23 segundos...
Inicio  /  Atmosphere  /  Vol: 8 Núm: 8 Par: August (2017)  /  Artículo
ARTÍCULO
TITULO

Indian Summer Monsoon and El Niño Southern Oscillation in CMIP5 Models: A Few Areas of Agreement and Disagreement

Indrani Roy    

Resumen

Using the CMIP5 model outputs, a few characteristics of Indian Summer Monsoon (ISM) rainfall and Niño 3.4 temperature are analysed during June?July?August?September (JJAS). Focusing on specified regions around central-northeast India, some general characteristic features of ISM precipitation are studied, which are shown to be varying among models. The trend of decreasing rainfall in that region as noticed in observations suggests an inconsistency among models. The ENSO also shows variation, and its phasing indicates disagreement. Unlike other models, FGOALS-g2 is identified as not suggesting any trend in Niño 3.4 temperature and needs attention for model evaluation purposes. ISM and ENSO correlation in either historical or the RCP 8.5 scenario confirm a negative signature, agreeing with the usual ISM, ENSO connection. Precipitation over the globe shows a rising trend in an ensemble of CMIP5 model outputs for the RCP 8.5 scenario, though no consensus is reached for the Indian region. Precipitation time series around the Indian subcontinent vary widely among models. Analyses with various future scenarios indicate that the Indian subcontinent shows much larger uncertainty, in terms of precipitation, compared to that from the whole world. This study identifies a few areas where CMIP 5 models are in agreement or disagreement with each other. Such an analysis could be useful for understanding various processes in CMIP 5 models that involve ISM precipitation and can lead to improving the representation of processes in models.

Palabras claves

 Artículos similares

       
 
M. Amirul Islam, Andy Chan, Matthew J. Ashfold, Chel Gee Ooi and Majid Azari    
The Maritime Continent (MC) is positioned between the Asian and Australian summer monsoons zone. The complex topography and shallow seas around it are major challenges for the climate researchers to model and understand it. It is also the centre of the t... ver más
Revista: Atmosphere

 
Pankaj Bhardwaj,Omvir Singh     Pág. 255 - 284
Thunderstorms are one of the most devastating mesoscale severe weather phenomena, which play an important role in the occurrence of rainfall activity over a region. Therefore, in the present study an attempt has been made to identify the relationship bet... ver más
Revista: Atmósfera

 
Suman Maity, Manabottam Mandal, Sridhara Nayak, Rajeev Bhatla     Pág. 287 - 309
The Indian Summer Monsoon (ISM) is driven by organized large-scale convection; hence, its simulation is expected to depend on an appropriate representation of cumulus convection in the model. In the present study, the performance of different cumulus par... ver más
Revista: Atmósfera

 
Jasim Al-Khalidi, Mihai Dima, Petru Vaideanu and Sabina Stefan    
We investigate the connections of the North Atlantic and Indian Ocean sectors with Iraq winter/summer temperature and precipitation. Canonical Correlation Analyses (CCAs) are performed in order to identify potential links between Iraq climate and the atm... ver más
Revista: Atmosphere

 
K C Gouda, Sanjeeb Kumar Sahoo, Payoshni Samantray and Himesh Shivappa    
Indian summer monsoon (ISM) plays an important role in the weather and climate system over India. The rainfall during monsoon season controls many sectors from agriculture, food, energy, and water, to the management of disasters. Being a coastal province... ver más
Revista: Climate