The Extraordinary Drought of 2011/2012 in Iraq and its Possible Linkage to Large-Scale Atmospheric Circulation

Authors

  • Khamis Dahahm Muslih Al-Sabhany, Phd. University of Baghdad – College of Arts

DOI:

https://doi.org/10.31973/aj.v3i143.3978

Keywords:

drought, Iraq, standardized precipitation index, North Atlantic Oscillation

Abstract

This paper aims to analysis the drought of 2021-2022 over Iraq according to its historical context, and then tries to examining its possible connection with associated synoptic pressure patterns and the North Atlantic Oscillation (NAO). The Standard Precipitation Index (SPI) was used to exam drought severity and Mann-Kendall test used in order to compute drought trends. Three sets of data were used to achieve paper’s goal; related to annual participation from ten climatic stations in Iraq, NAO data for winter months (Dec, Jan, Feb and Mar) , and  the NCEP-NCAR Reanalysis Data. The result shows the 2021-2022 was exceptional in terms of the drought severity thought the climatic record periods, with percentage of dry years more than 60%. The most extreme droughts had happened during the last 22 years with more than 80% of them in the Baghdad station as drought years. The annual drought trends analysis revealed that there are general negative trends with the strongest trends identified in the Mosul station about -0.1205 per decade. It was also found that the sustainability of the tropical flow in the upper atmosphere level, represented by a deep ridge and retreat of the polar jet stream towards north, accompanied by a location far to the north of the polar front, was the main reason for severe drought occurrence during this year. These amplified synoptic patterns were a highly persistent as a result of the sustainability of the positive phase of the North Atlantic Oscillation.

Downloads

Download data is not yet available.

References

البديري ، احمد لفته حمد ، 2020، التباين الزماني والمكاني لاتجاهات وتكرارات الجفاف في منطقة الفرات الأوسط ، مجلة العميد، المجلد 10، العدد 40 ، ص 276- 317.

الدزيي ، سالار علي خضر ، الجفاف المناخي في العراق الماضي والحاضر، 2021، دار الاداب للطباعة والنشر، يغداد .

الشجيري ، عمر ، 2019 ، أثر الذبذبات الضغطية في تغير انماط الجو العليا وعلاقتها بالجفاف المناخي في العراق (دراسة في علم المناخ الشمولي والارتباط عن بعد) ، اطروحة دكتوراه "غير منشورة" ، قسم الجغرافية، كلية التربية- ابن رشد، جامعة بغداد.

هيئة الانواء الجوية والرصد الزلزالي في اقليم كردستان ، (بيانات غير منشورة) .

وزارة النقل، الهيئة العامة للأنواء الجوية والرصد الزلزالي، قسم المناخ، (بيانات غير منشورة(.

Ahmad HQ, Kamaruddin SA, Harun SB, Al-Ansari N, Shahid S and Jasim R M, 2021, Assessment of Spatiotemporal Variability of Meteorological Droughts in Northern Iraq Using Satellite Rainfall Data. KSCE J Civ Eng 25, 4481–4493 (2021).

Al-Kaisi M M, Elmore R W, Guzman J G, Hanna H M, Hart C E, Helmers M J, Hodgson E W, Lenssen A W, Mallarino A P, Robertson A E, and Sawyer J E, 2013, Drought impact on crop production and the soil environment: 2012 experiences from Iowa, J Soil Water Conserv, 68(1): A–24A19).

Alsubih M, Mallick J, Talukdar S, Salam R, AlQadhi S, Fattah M, and Thanh N V, 2021, An investigation of the short-term meteorological drought variability over Asir Region of Saudi Arabia. Theor. Appl. Climatol., 145, 597–617.

Al-Timimi, Y K, and Al-Jiboori M H, 2013, Assessment of Spatial and temporal drought in Iraq during the period 1980- 2010. Int. J. Energ. Environ, 4(2), 291–302.

Ansari Amoli A, Aghighi H, and Lopez-Baeza E, 2022, Drought Risk Evaluation in Iran by Using Geospatial Technologies. Remote Sens, 14, 3096.

Awchi T A, and Kalyana M M, 2017, Meteorological drought analysis in northern Iraq using SPI and GIS. Sustainable Water Resources Management, 3(4), 451–463.

Barlow M, Zaitchik B, Paz S, Black E, Evans J, and Hoell A, 2016, A Review of Drought in the Middle East and Southwest Asia, Journal of Climate, 29(23), 8547-8574

Cindrić K, Telišman Prtenjak M, Herceg-Bulić I et al, 2016, Analysis of the extraordinary 2011/2012 drought in Croatia. Theor Appl Climatol 123, 503–522 .

Cullen H, Kaplan A, Arkin P A, and Demenocal P, 2002, Impact of the north Atlantic oscillation on Middle eastern climate and stream flow, Climatic Change 55, P315–338.

Edossa D C, Babel M S, and Gupta A D, 2010, Drought analysis in the Awash river basin, Ethiopia,Water Resources Management, 24(7), 1441 –1460.

Ejaz N and Bahrawi J, 2022, Assessment of Drought Severity and Their Spatio-Temporal Variations in the Hyper Arid Regions of Kingdom of Saudi Arabia: A Case Study from Al-Lith and Khafji Watersheds, Atmosphere, 13, 1264.

Frierson D M W, Lu J, and Chen G, 2007, Width of the Hadley cell in simple and comprehensive general circulation models. Geophys. Res. Lett, 34, L18804.

Gilbert R O, 1987, Statistical methods for environmental pollution monitoring, Van Nostrand Reinhold, New York.

Hao Z, Singh VP, Xia Y. 2018, Seasonal drought prediction: advances, challenges, and future prospects. Rev Geophys. 56(1):108–141.

Hurrell J W and Deser C, 2009, North Atlantic climate variability: The role of the North Atlantic Oscillation, Journal of Marine Systems 78, P28- 41.

Hurrell J W, 1995, Decadal trends in the North Atlantic Oscillation: Regional Temperatures and Precipitation, Science 269, p. P 676-679.

IPCC, 2021: Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change[Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.

Jasim A I, and Awchi T A, 2020, Regional meteorological drought assessment in Iraq. Arabian Journal of Geosciences, 13(7), 1–16.

Kaniewski D, Van Campo E and Weiss H, 2012, Drought is a recurring challenge in the Middle East, P. Natl. Acad. Sci. USA 109, 3862–3867

Kelley CP, Mohtadi S, Cane MA, Seager R, Kushnir Y, 2015, Climate change in the Fertile Crescent and implications of the recent Syrian drought. Proc Natl Acad Sci U S A, 17;112(11), pp. 3241-6.

McKee TB, Doesken NJ, and Kleist J ,1993, The relationship of drought frequency and duration to time scale. Preprints, Eighth Conf. on Applied Climatology, Anaheim, CA, Amer. Meteor. Soc., 179–184.

Mohammad A H, Jung H C, Odeh T, Bhuiyan C, and Hussein H, 2018, Understanding the impact of droughts in the Yarmouk Basin, Jordan: monitoring droughts through meteorological and hydrological drought indices. Arabian Journal ofGeosciences, 11(5), 103.

Muslih K D, 2014. Identifying the Climatic Conditions in Iraq by Tracking Down Cooling Events in the North Atlantic Ocean in the Period 3000- 0 BC. Miscellanea Geographica 18, 40-46.

Nagarajan R, 2009, Drought Indices. In Drought Assessment; Springer: Berlin/Heidelberg, Germany, pp. 160–204.

National Intelligence Council (U.S.), 2021, Climate change and international responses increasing challenges to US national security through 2040.

Norwegian Refugee Council, 2021, Iraq’s drought crisis and the damaging effects on communities.

Omar M A Mahmood Agha, Yousif H, and Al-Aqeeli, 2021, Analysis of the Standardized Precipitation Evapotranspiration Index over Iraq and its relationship with the Arctic Oscillation Index, Hydrological Sciences Journal, 10.1080/02626667.2020.1854765, 66, 2, (278-288).

Önöz B, and Bayazıt M, 2003, The power of statistical tests for trend detection, Turkish Journal of Engineering and Environmental Sciences, Vol. 27, pp. 247-251.

Polonskii AB, Basharin DV, Voskresenskaya EN, and Worley S, 2004, North Atlantic Oscillation: description, mechanisms, and influence on the Eurasian climate. Physical Oceanography 15(2): 96–113.

Saadia Hina, Farhan Saleem, Arfan Arshad, Alina Hina and Irfan Ullah, 2021, Droughts over Pakistan: possible cycles, precursors and associated mechanisms, Geomatics, Natural Hazards and Risk, 12:1, 1638-1668.

Swain D L, Tsiang M, Haugen M, Singh D, Charland A, Rajaratnam B, and Diffenbaugh N , 2014, The extraordinary California drought of 2013/2014: Character, context, and the role of climate change, B. Am. Meteorol. Soc, 95, S3–S7.

Tabari H , and Willems P, 2018, More prolonged droughts by the end of the century in the Middle East. Environmental Research Letters, 13(10):104005

Wanner H, Bronnimann S, Casty C, Gyalisras D, Luterbacher J, Schmutz C, Stephenson D B and Xoplaki E, 2001, North Atlantic Oscillation- concepts and studies, Surveys in Geophysics 22, P321–382.

WMO 2012 Standardized Precipitation Index User Guide (Svoboda M, Hayes M, Wood D). WMO-No. 1090, Geneva.

Xian T, Xia J, Wei W, Zhang Z, Wang R, Wang L, Ma Y, 2021, Is Hadley Cell Expanding? Atmosphere. 12, 1699.

Downloads

Published

2022-12-15

How to Cite

Al-Sabhany, K. D. M. (2022). The Extraordinary Drought of 2011/2012 in Iraq and its Possible Linkage to Large-Scale Atmospheric Circulation. Al-Adab Journal, 3(143), 161-184. https://doi.org/10.31973/aj.v3i143.3978

Publication Dates

Similar Articles

21-30 of 395

You may also start an advanced similarity search for this article.