الملامح السينوبتيكية للقبة الحرارية المؤثرة على شمال غرب ليبيا وطريقة تقييم آثارها البيئية
Keywords:
ظاهرة القبة الحرارية , المرتفع الجوي , نمط حاجز أوميجا , التيارات الهوائية الهابطةAbstract
During the period from June 19 to July 4, 2021, the regions of northwestern and central Libya were affected by a hot and exhausting heat atmosphere as a result of being affected by a summer weather phenomenon called the Heat Dome. This paper aims to diagnose the causes of its occurrence and how to assess its environmental effects, by following the methodology of Synoptic diagnosis and Integrated Environmental assessment. The results of the diagnosis showed that the occurrence of the phenomenon is due to the formation of a high atmospheric pressure system known as the Omega Block pattern (Ω), centered at the level of 500 hectopascals, This situation causes the activation of some influencing factors such as the emission of downdraft air currents that stimulate air compression and high temperature, a decrease in the stratospheric ozone concentration, the arrival of a large amount of ultraviolet radiation to the surface of the Earth, and increase of tropospheric ozone concentration. Climate changes affect the phenomenon and make it more frequent, longer visible, and hotter. Because the phenomenon is linked to a number of environmental impacts and negative consequences, the paper assures the importance of using the Integrated Environmental Assessment Framework model (DPSIR-Model), In order to arrange a series of stages of the development of the severity of the phenomenon, in addition to identifying risk-oriented response patterns to mitigate negative Impacts. The paper recommends Conducting a detailed study of the phenomenon, evaluating its environmental impacts, determining the effective path to guide mitigation measures, and working on issuing daily bulletins of the ultraviolet radiation intensity index during the summer period.
Downloads
Metrics
References
. Wallace, John M. and Peter V. Hobbs, (1977) : Atmospheric Science, An Introductory Survey, Academic Press INC, New York, pp. 55 – 58, 68 – 69.
. Walmsley, J. J., (2002) : Framework for measuring sustainable development in Catchment systems, Environmental Management, 29 (2), pp 195-206. DOI: https://doi.org/10.1007/s00267-001-0020-4
. George Zittis, and Others, (2021) : Business-as-usual will lead to super and ultra-extreme heat waves in the Middle East and North Africa, Nature npj Climate and Atmospheric Science, 4:20; https://doi.org/10.1038/ s41612-021-00178-7.
. R. Varela, L. Rodriguo-Diaz, and M. deCastro, (2020) : ersistent heat waves projected for Middle East and North Africa by the end of the 21st century, PLOS ONE, Environmental Physics Laboratory (Ephyslab)- CIM-UVIGO, Universidade de vigo, Ourense, Spain, Journal. Pone. 0242477, pp. 4-8. DOI: https://doi.org/10.1371/journal.pone.0242477
. Tom K. R. Matthews, Robert L. Wilby, and Conor Murply, (2017) : Communicating the deadly consequences of global warming for human heat stress, Geography, Meedicine, Proceeding of the National Academy of Sciences of the USA, 114 (15) 381, 1617526114. DOI: https://doi.org/10.1073/pnas.1617526114
. Kate Latimer, (2017) : Humidity may prove breaking point some areas as temp. rise, says study, Th Earth Institute at Columbia University, Science News.
. Barriopedro, D., Fischer, E. M., Luterbacher, J., Trigo, R. M., and García-Herrera, R. (2011) : Th hot summer of 2010:
redrawing the temperature record map of Europe, Science, 332, 220–224. DOI: https://doi.org/10.1126/science.1201224
. Palmen E. and Newton C. W., (1969) : Atmospheric Circulation System. Academic Press. New York, NY.
. Julian Kruger, (2020) : Caracteristic Jet Stream patterns related to European Heat Waves, Christian-Albrechts-Universitat
Zu Kiel, GEOMAR, Helmhltz-Zentrum Fur Ozeanforshung, Master Thsis, pp. 15-26. Kiel.
. Metaxas D. A. and Kallos G., (1980) : Heat waves from a synoptic point of view. Riv. Met. Aeron. XL, pp. 107-119.
. Conte M. , Short Lasting Heat wave in the central editerranean. WMO Long - Range Forecasting, Research Report, n.
, vol. 1. WMO/TD n. 87, pp. 146-152.
. K. Velchev, F. Cavalli, J. Hjorth, E. Marmer, E. Vignati, F. Dentener, and F. Raes, (2011) : Ozone over the Western
Mediterranean Sea – results from two years of shipborne measurements, J. of Atmospheric Chemistry and Physics, 11,
pp. 681- 683.
. Peter L. W., (2021) : https: Th Ozone Depletion Thory of Global Warming
. https://www.startimes.com/?t=29338598
. [IPCC (2021) : Climate Change 2021, Th Physical Science Basis, Sixth Assessment Report of the IPCC, AR6, Summary
for Policymakers, pp. 4-11.
. Robert Iris, INSEAD (2017) : CO₂ and its relation to climate change, Th Business School for the World.
. William Collins, and athers, (2008) : Natural Science Assessment of the Divers of Climate Change, Scientifi American,
Volume 24, No. 1/2 pp. 36-42.
. LNMC, (2013) : Climate Data Archive.
. A. H. Mohamed, (2018) : Synoptic features and characteristics of heat waves affcting the Tripoli region during the
period (1978-2013), LNMC, First Conference on Weather and Climate Extremes.
. Anthony R. Lupo, and others, (2019) : Changes in Global Blocking Character in Recent Decades, MDPI, Atmosphere, 10, DOI: https://doi.org/10.3390/atmos10020092
, doi. 10.3390/atmos 10020092.
. I. Mokhova, and others, (2013) : Blockings in the Northern Hemisphere and Euro-Atlantic Region: Estimates of Changes
from Reanalysis Data and Model Simulations, ISSN 1028334X, Doklady Earth Sciences, 2013, Vol. 449, Part 2, pp.
-433. Pleiades Publishing, Ltd., DOI: 10.1134/S1028334X13040144. DOI: https://doi.org/10.1134/S1028334X13040144
. Häkkinen, S.; Rhines, P.B.; Worthen, D.L. (2011) : Atmospheric Blocking and Atlantic Multidecadal Ocean Variability. DOI: https://doi.org/10.1126/science.1205683
Science pp. 334, 655-659.
. M. Colacino, M. Conte and E. Pievitali, (1997) : Heat Wave in the Central Mediterranean Basin, International
Symposium on Cyclones and Hazardous Weather in the Mediterranean, Spain, 14-17 April, pp. 563.
. WMO, (2021) : June Ends With Exceptional Heat, Public WMO INT, Climate Reanalyzer.Org, Climate Change Institute,
University of Maine, USA.
. KNMI and ESA, (2021) : Erythema UV Index, Clear Sky, 2021.
. TMS (2021) : Synoptic weather Charts, Turkish Meteorological Services.
. RFE/RL, (2018) : 53 And Counting Heat Wave Breaks Records Iran causing power-shortages, RFERL, Khouznews.Ir,
(https://www.rferl.org/ 29346342.html),
. Health Effcts Institute, (2019) : State of Global Air, Special Report, Boston: MA, https://www.stateofglobalair.org/sites/
default/fies/soga_2019_report.
. EEA (European Environmental Agency), (1995) : A Strategy for Integrated Environmental Assessment at the European
Environmental Agency, Discussion Paper. EEA/064195. Copenhagen.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2022 Solar Energy and Sustainable Development Journal
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
