Progress in Tropical Cyclone Predictability and Present Status in the North Indian Ocean Region

Singh, Kasturi; Panda, Jagabandhu; Osuri, Krishna K.; Vissa, Naresh Krishna

doi:10.5772/64333

Cited by 21 publications

(14 citation statements)

References 69 publications

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“…The possible reasons could be weakening of CDs after making landfall because they move away from their oceanic heat source, and possibly because of the reason that rainfall intensity tends to coincide with storm intensity (Knight and Davis, 2009). As a greater number of severe storms form during post-monsoon (Singh et al, 2016 and2019a), more rainfall is observed during this season in comparison to pre-monsoon months over India. The percentage contribution is higher over AP, northeast TN, GJ (highest percentage of~70), west RJ and coastal MH during pre-monsoon season.…”

Section: Discussionmentioning

confidence: 99%

A study on variability in rainfall over India contributed by cyclonic disturbances in warming climate scenario

Singh

Panda

Kant

2019

Intl Journal of Climatology

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Every year cyclonic disturbances (CDs) cause destructions along the coastal areas of the designated world basins. Apart from strong winds generated by CDs, torrential rain causes flood and landslides over the places of landfall. By using high-quality daily rainfall data, the contribution of rainfall by the North Indian Ocean (NIO) CDs over India is investigated in this study. Eastern Indian states suffer landfalling CDs from the Bay of Bengal and the western coastal states experience the influence from those formed over the Arabian Sea. Among eastern coastal states, the accumulated rainfall is higher over Andhra Pradesh (AP), Tamil Nadu (TN), Odisha and southern West Bengal during pre-monsoon season. Among western coastal states, Karnataka and Kerala suffer maximum rainfall from CDs. During post-monsoon season, coastal AP, TN, Odisha, Karnataka and coastal Kerala received higher accumulated rainfall. Gujarat received~70% and both AP and TN received up to 20-30% of rainfall by CDs during pre-monsoon months. During post-monsoon season, Gujarat, Odisha and AP received maximum rainfall contribution up to 50%. In most of the states, the overall rainfall contribution by CDs is observed to have a decreasing trend during both seasons. Owning to the stable average rainfall trend over India along with decreasing CD frequency during the postmonsoon season, the results indicate an increased amount of rainfall by CDs. CDs contribute a considerable amount of rainfall to central and northern India during the post-monsoon season, which is helpful for agricultural purpose. K E Y W O R D S cyclonic disturbances, North Indian Ocean, rainfall, warming climate

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Section: Discussionmentioning

confidence: 99%

A study on variability in rainfall over India contributed by cyclonic disturbances in warming climate scenario

Singh

Panda

Kant

2019

Intl Journal of Climatology

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“…Notice that large number of CS formation is observed during the months of October and November in BOB and AS. A maximum of 72 [20] SCS events is observed during November [May] in BOB [AS] (see also Singh et al 2016). The larger number of TCs in BOB is possibly due to prevalence of upper-ocean warm stratification and higher sea-surface temperatures (SSTs) as compared to AS.…”

Section: Historical Changesmentioning

confidence: 99%

“…The extreme weather events over the Indian region have profound socio-economic implications (e.g., De et al 2005). The North Indian Ocean (NIO) rim countries (India, Bangladesh, Myanmar, Sri Lanka, Oman; countries within the Equator region-30°N; 50-100°E) comprising large coastal areas are severely affected by tropical cyclones (TCs) every year (see Singh et al 2016;Ramsay 2017;Mohapatra et al 2014Mohapatra et al , 2017. For example, the year 2018 witnessed four very severe TCs over this region during the pre-monsoon (March-May) and post-monsoon (October-December) seasons of India [Mekunu and Luban over the Arabian Sea (AS) in May and October 2018, Titli and Gaja in October and November 2018 over the Bay of Bengal (BOB); Source: Annual cyclone review report, India Meteorological Department (IMD); see also Table 8.2].…”

Section: Introductionmentioning

confidence: 99%

Extreme Storms

Vellore

Deshpande

Priya

et al. 2020

Assessment of Climate Change Over the Indian Region

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“…Ensemble prediction system (EPS) is found to provide reasonably good probabilistic forecast for evolution of CS, which is a merit for operational forecast of storm tracks (Kotal & Roy Bhowmik, ; Majumdar & Finocchio, ). Despite some progress, there exists need for improvements as reliable track forecast requires accurate representation of cyclonic‐vortex in the model initial conditions (IC) to determine the most probable time and region of formation and landfall (Singh et al, , ). A major challenge in Multi‐Model Ensemble Prediction System (MMEPS) is that storm intensity gets underestimated and forecast track lags behind observations as lead time increases as numerous ensemble members from different models may give diverse path for the same system thereby increasing timing and directional errors.…”

Section: Introductionmentioning

confidence: 99%

“…Ensemble prediction system (EPS) is found to provide reasonably good probabilistic forecast for evolution of CS, which is a merit for operational forecast of storm tracks (Kotal & Roy Bhowmik, 2011;Majumdar & Finocchio, 2010). Despite some progress, there exists need for improvements as reliable track forecast requires accurate representation of cyclonic-vortex in the model initial conditions (IC) to determine the most probable time and region of formation and landfall (Singh et al, 2005(Singh et al, , 2016 track lags behind observations as lead time increases as numerous ensemble members from different models may give diverse path for the same system thereby increasing timing and directional errors. To avoid this, a probability-based approach is attempted here, by setting different dependent thresholds and giving appropriate lead-weightage to each cyclogenesis variable using bias-correction and signal amplification (BCSA).…”

Section: Introductionmentioning

confidence: 99%

A New Approach to Improve the Track Prediction of Tropical Cyclones Over North Indian Ocean

Ganesh

Sahai

Abhilash

et al. 2018

Geophysical Research Letters

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The implementation of a bias‐correction and signal amplification technique to the National Center for Environmental Prediction's Climate Forecast System‐based Grand Ensemble Prediction System Multi‐Model Ensemble outputs is studied for improvements in track predictions of three cyclonic storms over North Indian Ocean. Bias‐correction method involves the removal of lead‐dependent climatological bias from multi‐model ensemble forecasts by using European Centre for Medium‐Range Weather Forecasts Re‐analysis (ERA‐Interim) daily‐averaged data sets as observations. The corrected data are then subjected to signal amplification procedure involving a two‐point space and time correction of ensembles based on the leading signal (ensemble mean), whereby large uncertainties and disagreements between different model outputs are reduced. Results show that bias‐correction and signal amplification technique is, indeed, improving the track forecasts of selected cyclonic storm cases with significant reduction in track errors even at longer lead times.

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Progress in Tropical Cyclone Predictability and Present Status in the North Indian Ocean Region

Cited by 21 publications

References 69 publications

A study on variability in rainfall over India contributed by cyclonic disturbances in warming climate scenario

A study on variability in rainfall over India contributed by cyclonic disturbances in warming climate scenario

Extreme Storms

A New Approach to Improve the Track Prediction of Tropical Cyclones Over North Indian Ocean

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