Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection

In this study global wave climates for present and future climates are simulated with the WAM model, based on wind fields from the JMA/MRI-AGCM3.2 climate projection. The projected wave fields are analysed and compared for the two periods of 1979-2003 and 2075-2099, and climate change induced differ...

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Main Author: Ekstedt, Johanna
Format: Other/Unknown Material
Language:English
Published: Lunds universitet/Avdelningen för Teknisk vattenresurslära 2014
Subjects:
Technology and Engineering
Antarctic
The Antarctic
Pacific
Indian
Antarctic Ocean
Antarc*
Online Access:http://lup.lub.lu.se/student-papers/record/4618252
id ftulundlupsp:oai:lup-student-papers.lub.lu.se:4618252
record_format openpolar
spelling ftulundlupsp:oai:lup-student-papers.lub.lu.se:4618252 2023-07-30T03:59:21+02:00 Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection Ekstedt, Johanna 2014 application/pdf http://lup.lub.lu.se/student-papers/record/4618252 eng eng Lunds universitet/Avdelningen för Teknisk vattenresurslära http://lup.lub.lu.se/student-papers/record/4618252 ISSN: 1101-9824 Technology and Engineering H2 2014 ftulundlupsp 2023-07-11T20:07:44Z In this study global wave climates for present and future climates are simulated with the WAM model, based on wind fields from the JMA/MRI-AGCM3.2 climate projection. The projected wave fields are analysed and compared for the two periods of 1979-2003 and 2075-2099, and climate change induced differences are identified. It is found that the wave climate is strongly dependent on latitude, with the largest waves, as well as most significant seasonal variations, located at the mid to high latitude regions. These areas are also where the climate induced changes from present to future climate are most noteworthy. The largest increases of significant wave height of approximately +5%, is experienced in the southern parts of the Indian, Pacific and Atlantic Oceans as well as in the Antarctic Ocean. The largest decreases are of the same order, and found to the northern Atlantic Ocean. In addition, a slightly smaller but widespread decrease is seen in the tropical storm affected region around Japan, in the western Pacific Ocean. In contrast to this reduction of the everyday wave climate, an evaluation of the annual maximum waves at this location indicates that the extreme wave climate might become more severe due to the projected climate change. In the central and lower parts of the mid latitude regions the projected wave climate remain fairly stable and show only minor changes between present and future climates. It is noted that the processes behind the everyday wave climate differ significantly from those causing extreme events, and that the phenomena should therefore be evaluated separately. Since this study focuses on the climate change induced effects on the wave climate under normal weather conditions, it is recommended that in future research evaluate the extremes in a more thorough manner. For that analysis using the full potential of the JMA/MRI-AGCM high-resolution wind fields output is recommended. Other/Unknown Material Antarc* Antarctic Antarctic Ocean Lund University Publications Student Papers (LUP-SP) Antarctic The Antarctic Pacific Indian Antarctic Ocean
institution Open Polar
collection Lund University Publications Student Papers (LUP-SP)
op_collection_id ftulundlupsp
language English
topic Technology and Engineering
spellingShingle Technology and Engineering
Ekstedt, Johanna
Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
topic_facet Technology and Engineering
description In this study global wave climates for present and future climates are simulated with the WAM model, based on wind fields from the JMA/MRI-AGCM3.2 climate projection. The projected wave fields are analysed and compared for the two periods of 1979-2003 and 2075-2099, and climate change induced differences are identified. It is found that the wave climate is strongly dependent on latitude, with the largest waves, as well as most significant seasonal variations, located at the mid to high latitude regions. These areas are also where the climate induced changes from present to future climate are most noteworthy. The largest increases of significant wave height of approximately +5%, is experienced in the southern parts of the Indian, Pacific and Atlantic Oceans as well as in the Antarctic Ocean. The largest decreases are of the same order, and found to the northern Atlantic Ocean. In addition, a slightly smaller but widespread decrease is seen in the tropical storm affected region around Japan, in the western Pacific Ocean. In contrast to this reduction of the everyday wave climate, an evaluation of the annual maximum waves at this location indicates that the extreme wave climate might become more severe due to the projected climate change. In the central and lower parts of the mid latitude regions the projected wave climate remain fairly stable and show only minor changes between present and future climates. It is noted that the processes behind the everyday wave climate differ significantly from those causing extreme events, and that the phenomena should therefore be evaluated separately. Since this study focuses on the climate change induced effects on the wave climate under normal weather conditions, it is recommended that in future research evaluate the extremes in a more thorough manner. For that analysis using the full potential of the JMA/MRI-AGCM high-resolution wind fields output is recommended.
format Other/Unknown Material
author Ekstedt, Johanna
author_facet Ekstedt, Johanna
author_sort Ekstedt, Johanna
title Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
title_short Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
title_full Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
title_fullStr Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
title_full_unstemmed Evaluation of Global Wave Climate Based on the JMA/MRI-AGCM Climate Change Projection
title_sort evaluation of global wave climate based on the jma/mri-agcm climate change projection
publisher Lunds universitet/Avdelningen för Teknisk vattenresurslära
publishDate 2014
url http://lup.lub.lu.se/student-papers/record/4618252
geographic Antarctic
The Antarctic
Pacific
Indian
Antarctic Ocean
geographic_facet Antarctic
The Antarctic
Pacific
Indian
Antarctic Ocean
genre Antarc*
Antarctic
Antarctic Ocean
genre_facet Antarc*
Antarctic
Antarctic Ocean
op_relation http://lup.lub.lu.se/student-papers/record/4618252
ISSN: 1101-9824
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