Abstract
The present study is focused to see the performance of real-time extended range forecast (2–3 week forecast) of monsoon during the 2011 flood event over the eastern state of Odisha in India. The usefulness of such forecast in the management of reservoir flow in a way to reduce the risk of flood conditions is also discussed. This case study is carried out over the Mahanadi River basin situated in eastern region of India, which witnessed severe flood conditions during the late August and early part of September 2011 due to abnormally high rainfall over the Mahanadi River basins leading to simultaneous release of huge volume of water from the Hirakud reservoir. The forecasts are prepared based on the Bi-model average (BMA) of two coupled model outputs viz., the European Centre for Medium-Range Weather Forecasting (ECMWF) monthly forecast model and the National Centre for Environmental Prediction (NCEP) Climate Forecast System (CFS) coupled model. The synoptic analysis of the observed rainfall patterns demonstrated that the heavy rainfall is associated with active monsoon circulation during late August and early September, 2011 with the presence of low-pressure systems and anomalous cyclonic circulations at lower level. The extended range BMA forecast based on the initial condition of 25 August, 2011 valid for week 1 (days 5–11) and week 2 (days 12–18) indicate strong monsoon conditions associated with heavy rainfall over the Mahanadi River basins during the period from 29 August to 11 September 2011. With respect to individual model, the ECMWF model is better compared to NCEP CFS in capturing this rainfall episode, although it is much less compared to observed rainfall departure during the period. A mechanism to use such climate forecast along with the use of latest climatological information in the decision making process will be very useful for effective management of reservoir operation particularly during this difficult period.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Buizza R, Palmer TN (1995) The singular vector structure of the atmospheric global circulation. J Atmos Sci 52:1434–1456
Callahan B, Miles E, Fluharty D (1999) Policy implications of climate forecasts for water resources management in the Pacific northwest. Policy Sci 32(3):269–293
Central Water Commission (1997) Flood estimation report for Mahanadi sub zone-3-(d) (revised), report no. M-3(d)/R-3/25/1996. Hydrology (regional studies) Directorate, India, p.3
Frederic Vitart, Buizza R, Balmaseda MA, Balsamo G, Bidlot J-R, Bonet A, Fuentes M, Hofstadler A, Moleni F, Palmer TN (2008) The new VAREPS-monthly forecasting system: a first step towards seamless prediction. Q J R Meteorol Soc 134:1789–1799
Gadgil S (2000) Monsoon-ocean coupling. Curr Sci 78:309–332
Getnet YM (2010) Improving medium- and long-range hydrological forecasts with ensemble meteorological forecasts and climatic information. ETD Collection for McMaster University. Paper AAINR74030. http://digitalcommons.mcmaster.ca/dissertations/AAINR74030
India Meteorological Department (2012) Weather in India; Monsoon season 2011 (June to September). Compiled by Khole Medha and Devi Sunitha S. Mausam 63:511–528
Kalnay E et al (1996) The NCE/NCAR 40 year re-analysis project. Bull Am Meteorol Soc 77:437–471
Krishnan R, Sundaram S, Swapna P, Kumar V, Ayantika DC, Mujumdar M (2010) Crucial role of ocean-atmosphere coupling on the Indian monsoon anomalous response during dipole events. Clim Dyn. doi:10.1007/s00382-010-0830-2:1-17
Mahapatra R (2011) Why Hirakud dam failed to check flood. Down to Earth. http://www.downtoearth.org.in/content/why-hirakud-dam-failed-check-flood Accessed Sep 2011
Mavalankar D, Srivastava AK (2008) Lessons from massive floods of 2006 in Surat city: a framework for application of MS/OR techniques to improve dam management to prevent flood. Paper presented at: third national conference on management science and practices (MSP) 2008 held at IIM Ahmedabad, organized by ORSI Ahmedabad. Chapter (Available http://www.iimahd.ernet.in/publications/data/2008-07-06Mavalankar.pdf) Accessed Mar 22–24 2008
Mohapatra M, Mohanty UC (2005) Some characteristics of very heavy rainfall over Odisha during summer monsoon season. J Earth Syst Sci 114:17–36
Mohapatra M, Mohanty UC (2006) Spatio-temporal variability of summer monsoon rainfall over Odisha in relation to low pressure systems. J Earth Syst Sci 115:203–218
Mohapatra M, Mohanty UC (2009) Excess and deficient summer monsoon rainfall over Orissa in relation to low pressure systems. Mausam 60:25–38
Mohapatra M, Mohanty UC, Behera S (2003) Spatial variability of daily rainfall over Orissa, India, during the southwest summer monsoon season. Int J Climatol 23:1867–1887
Pattanaik DR (2007) Analysis of deficient and excess rainfall over different homogeneous regions of India in relation to variability in westward movement frequency of monsoon depressions. Nat Hazards 40:635–646
Pattanaik DR (2012) Performance of extended range forecast during southwest monsoon 2011. In: Tyagi A, Pai DS (eds) Monsoon 2011—a report. IMD Met. Monograph. Synoptic meteorology no. 1/2012, pp 106–128
Pattanaik DR (2014) Meteorological subdivisional-level extended range forecast over India during southwest monsoon 2012. DOI, Meteorol Atmos Phys. doi:10.1007/s00703-014-0308-6
Pattanaik DR, Thapliyal V (2004) Analysis of cyclonic disturbances crossing Odisha coast and its associated rainfall variability. In: Proceedings of TROPMET-2002. Bhubaneswar, India Meteorological Society, pp 135–146
Pattanaik DR, Kumar A (2010) Prediction of summer monsoon rainfall over India using the NCEP climate forecast system. Clim Dyn 34:557–572
Pattanaik DR, Kumar A (2013) Comparison of intra-seasonal forecast of Indian summer monsoon between two versions of NCEP coupled models. Theor Appl Climatol. doi:10.1007/s00704-013-1071-1
Pattanaik DR, Rathore LS, Kumar A (2013) Observed and forecasted intra-seasonal activity of southwest monsoon rainfall over India during 2010, 2011 and 2012. Pure appl Geophys 170:2305–2328. doi:10.1007/s00024-013-0670-1
Pearson C (2008) Short- and medium-term climate information for water management. World Meteorol Organ (WMO) Bull 57(3):173–177
Rao YP (1976) Southwest monsoon. Meteorological monograph. No. 1. India Meteorological Dept, New Delhi, p 366
Saha S, Nadiga S, Thiaw C, Wang J, Wang W, Zhang Q, Van den Dool HM, Pan HL, Moorthi S, Behringer D, Stokes D, Pena M, Lord S, White G, Ebisuzki W, Peng P, Xie P (2006) The NCEP climate forecast system. J Clim 19:3483–3517
Sahai AK, Sharmila S, Abhilash S, Chattopadhyay R, Borah N, Krishna RPM, Joseph S, Roxy M, De S, Pattnaik S, Pillai PA (2014) Simulation and extended range prediction of monsoon intraseasonal oscillations in NCEP CFS/GFS version 2 framework. Curr Sci 104:1394–1408
Shim KC, Darrell GF, John WL (2002) Spatial decision support system for integrated river basin flood control. J Water Resour Plan Manag 128:190–201
Sikka DR (2006) A study on the monsoon low pressure systems over the Indian region and their relationship with drought and excess monsoon seasonal rainfall. COLA technical report 217, p 61
Soman MK, Kumar K (1990) Some aspects of daily rainfall distributions over India during southwest monsoon season. Int J Climatol 10:299–311
Terray L, Sevault E, Guilyardi E, Thual O (1995) The OASIS coupler user guide version 2.0. CERFACS technical report TR/CMGC/95-46, pp 123
Tyagi A, Pattanaik DR (2012) Real time extended range forecast activities in IMD—performance assessment and future prospects. IMD Met. Monograph. Extended range forecast. No. ERF 01/2012, pp 1–132
Vitart F (2004) Monthly forecasting at ECMWF. Mon Weather Rev 132:2761–2779
Wang B, Lee JY, Kang IS, Shukla J, Park CK, Kumar A, Schemn J, Cocke S, Kug JS, Luo JJ, Zhou T, Wang B, Fu X, Yun WT, Alves O, Jin EK, Kinter J, Kirtman B, Krishnamurti TN, Lau NC, Lau W, Liu P, Pegion P, Rosati T, Schubert S, Stern W, Suarez M, Yamagata T (2008) Advance and prospects of seasonal prediction : assessment of the APCC/CliPAS 14-model ensemble retrospective seasonal prediction (1980–2004). Clim Dyn 33:93–117
Wang W, Chen M, Kumar A (2009) Impacts of ocean surface on the northward propagation of the boreal summer intraseasonal oscillation in the NCEP climate forecast system. J Clim 22:6561–6576
Water Initiatives Odisha (2011) Special note III on Odisha floods 2011
Webster PJ, Jun Jian, Hopson MT, Hoyos CD, Agudelo AP, Hai-Ru Chang, Curry AJ, Grossman LR, Palmer NT, Subbiah AR (2010) Extended-range probabilistic forecasts of Ganges and Brahmaputra floods in Bangladesh. Bull Am Meteorol Soc 91:1493–1514
Acknowledgments
The authors are thankful to the Director General of Meteorology for providing all facilities to carry out this work. We sincerely acknowledge the ECMWF and NCEP for providing the real-time forecast products of their coupled models, which have been used for preparing the multi-model ensemble forecast of Indian monsoon rainfall during the southwest monsoon seasons. The first author is thankful to Dr. R. K. Kolli, World Meteorological Organization (WMO); Dr. Ajit Tyagi and Dr. K. J. Ramesh, Earth System Science Organization (ESSO); and Dr. A. K. Sahai, Indian Institute of Tropical Meteorology (IITM) for valuable discussion to take up this application oriented work for Indian region. Thanks are also due to the anonymous reviewers for valuable comments.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Pattanaik, D.R., Das, A.K. Prospect of application of extended range forecast in water resource management: a case study over the Mahanadi River basin. Nat Hazards 77, 575–595 (2015). https://doi.org/10.1007/s11069-015-1610-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11069-015-1610-4