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Interdecadal Changes in Ocean Teleconnections with the Sahel: Implications in Rainfall Predictability: Springer Theses

Autor Roberto Suárez Moreno
en Limba Engleză Hardback – 7 dec 2018
In tropical latitudes, monsoons trigger regimes of strong seasonal rainfall over the continents. Over the West African region, the rainfall has shown a strong variability from interannual to decadal time scales. The atmospheric response to global sea surface temperatures is the leading cause of rainfall variability in the West African Sahel. This thesis explores changes in the leading ocean forcing of Sahelian rainfall interannual variability. It anaylzes the dynamical mechanisms at work to explain the non-stationary sea surface temperature-forced response of anomalous rainfall. The underlying multidecadal sea surface temperature background is raised as a key factor that favors some interannual teleconnections and inhibits others. Results of this thesis are relevant for improving the seasonal predictability of summer rainfall in the Sahel.
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Specificații

ISBN-13: 9783319994499
ISBN-10: 3319994492
Pagini: 292
Ilustrații: XXIII, 185 p. 73 illus., 70 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.48 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Seria Springer Theses

Locul publicării:Cham, Switzerland

Cuprins

Preface.- Chapter 1: Motivation.- Chapter 2: State-of-the-Art.- Chapter 3: Objectives.- Chapter 4: Physical Background.- Chapter 5: Data.- Chapter 6: Methodology.- Chapter 7: A Statistical Model based on Non-stationary Predictors.- Chapter 8: Interdecadal changes in the SST-driven teleconnections with the Sahel.- Chapter 9: Modulation of the non-stationary Mediterranean-Sahel teleconnection.- Chapter 10: Concluding Remarks.- Glossary.- References.

Notă biografică

Roberto Suárez has been a postdoctoral researcher at University Complutense of Madrid since July 2017. He received his bachelor’s degree in physics from the University Autónoma of Madrid in September 2010 and completed his master’s degree in Meteorology and Geophysics at the University Complutense of Madrid in June 2012. He received his doctorate from University Complutense of Madrid in June 2017 for his research on climate variability in the West African Sahel, conciliating both statistical methods and numerical models to improve rainfall predictability in this region. He recently investigated the potential modulations of interannual sea surface temperature-forced teleconnections of Sahelian rainfall by the global ocean background state, using observations and general circulation models. He has found how the Mediterranean Sea is becoming a leading factor due to its growing impact on monsoonal Sahelian rainfall during recent decades. In this framework, he is currently studying the underlying causes for the strengthening of the Mediterranean-Sahel atmospheric teleconnection,in which the inter-tropical convergence zone plays a fundamental role.

Textul de pe ultima copertă

In tropical latitudes, monsoons trigger regimes of strong seasonal rainfall over the continents. Over the West African region, the rainfall has shown a strong variability from interannual to decadal time scales. The atmospheric response to global sea surface temperatures is the leading cause of rainfall variability in the West African Sahel. This thesis explores changes in the leading ocean forcing of Sahelian rainfall interannual variability. It analyzes the dynamical mechanisms at work to explain the non-stationary sea surface temperature-forced response of anomalous rainfall. The underlying multidecadal sea surface temperature background is raised as a key factor that favors some interannual teleconnections and inhibits others. Results of this thesis are relevant for improving the seasonal predictability of summer rainfall in the Sahel.

Caracteristici

Nominated as an outstanding PhD thesis by the University Complutense of Madrid, Madrid, Spain Demonstrates for the first time the unstable behavior of the sea surface temperature-forced response of monsoonal rainfall in the Sahel Provides key findings in the field of atmospheric teleconnections Bases its results on observational data, in-situ rainfall measurements and reanalysis data combining both statistical methods and atmospheric general circulation models