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Home / On Future Changes in Mediterranean Winter Temperatures, Precipitation and Relative Humidity
 
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On Future Changes in Mediterranean Winter Temperatures, Precipitation and Relative Humidity

Tim Sperzel
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Bachelor Thesis from the year 2017 in the subject Geography / Earth Science - Meteorology, Aeronomy, Climatology, grade: 3,0, Justus-Liebig-University Giessen, language: English, abstract: This thesis is going to identify the differences for the Representative Concentration Pathway (RCP) 2.6 W/m (2) scenario of the 2 meter temperature, daily precipitation and relative humidity in the Mediterranean area (30 degreesN - 50 degreesN and 10 degreesW - 45 degreesE) compared to the reference period 1971 - 2000; and also the development and main characteristics of the RCPs especially for the chosen RCP 2.6 scenario. All four RCPs deal with the time lapse from the year 1850 to 2100 and expect a continuous radiative forcing, except RCP 2.6, which is also called RCP 3-P.D. that means peak and decline. The chosen data is from the CORDEX project being part of the CMIP5, has a EUR-11 resolution (0.11 degrees) with EC-Earth as driving GCM and RCA4 as RCM and also r12i1p1 ensemble in RCP 2.6 scenario with the periods 1971 - 2000 (reference period) and 2021 - 2050; 2071 - 2100 (experiment period). This thesis considers the Paris Agreement, which targets a maximum global warming of 1.5 degreesC. Under the RCP 2.6 conditions the first target of the Paris Agreement, maximum 1.5 degreesC global warming, will be achieved in the Mediterranean area compared to the chosen reference period. The Mediterranean area is characterized by mild and wet winters and also by hot and dry summers. Moreover, in the Mediterranean north the climate is arid and temperate whilst in its south it is rainy. Geographically, the Mediterranean area counts 21 countries and lies between the subtropical and temperate climate zone. This supports the evaporation along with the decreasing of soil moisture and the flow of rivers. Such a development may produce a greater risk of future droughts and heatwaves. Very strong summers in the Mediterranean area are associated with Asian and African monsoons and a strong geopotential blocking. In the future, annual mean temperat

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MORE INFO
Format
Paperback
Publisher
Grin Verlag
Date
20 March 2019
Pages
50
ISBN
9783668887749

Bachelor Thesis from the year 2017 in the subject Geography / Earth Science - Meteorology, Aeronomy, Climatology, grade: 3,0, Justus-Liebig-University Giessen, language: English, abstract: This thesis is going to identify the differences for the Representative Concentration Pathway (RCP) 2.6 W/m (2) scenario of the 2 meter temperature, daily precipitation and relative humidity in the Mediterranean area (30 degreesN - 50 degreesN and 10 degreesW - 45 degreesE) compared to the reference period 1971 - 2000; and also the development and main characteristics of the RCPs especially for the chosen RCP 2.6 scenario. All four RCPs deal with the time lapse from the year 1850 to 2100 and expect a continuous radiative forcing, except RCP 2.6, which is also called RCP 3-P.D. that means peak and decline. The chosen data is from the CORDEX project being part of the CMIP5, has a EUR-11 resolution (0.11 degrees) with EC-Earth as driving GCM and RCA4 as RCM and also r12i1p1 ensemble in RCP 2.6 scenario with the periods 1971 - 2000 (reference period) and 2021 - 2050; 2071 - 2100 (experiment period). This thesis considers the Paris Agreement, which targets a maximum global warming of 1.5 degreesC. Under the RCP 2.6 conditions the first target of the Paris Agreement, maximum 1.5 degreesC global warming, will be achieved in the Mediterranean area compared to the chosen reference period. The Mediterranean area is characterized by mild and wet winters and also by hot and dry summers. Moreover, in the Mediterranean north the climate is arid and temperate whilst in its south it is rainy. Geographically, the Mediterranean area counts 21 countries and lies between the subtropical and temperate climate zone. This supports the evaporation along with the decreasing of soil moisture and the flow of rivers. Such a development may produce a greater risk of future droughts and heatwaves. Very strong summers in the Mediterranean area are associated with Asian and African monsoons and a strong geopotential blocking. In the future, annual mean temperat

Read More
Format
Paperback
Publisher
Grin Verlag
Date
20 March 2019
Pages
50
ISBN
9783668887749

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