Research Journal of Applied Sciences
Year:
2018
Volume:
13
Issue:
5
Page No.
285 - 293
References
Adedokun, J.A., 1981. Potential instability and precipitation occurrence within an inter-tropical discontinuity environment. Arch. Meteorol. Geophys. Bioclimatol. Ser. A, 30: 69-86.
Direct Link | Adedokun, J.A., 1982. On an instability index relevant to precipitation forecasting in West Africa. Meteorology Atmos. Phys., 31: 221-230.
CrossRef | Adefisan, E.A., 2004. Long-range prediction of the onset of thunderstorm and precipitation over West African sub region. Ph.D Thesis, Federal University of Technology, Akure, Nigeria.
Adelekan, I.O., 1998. Spatio-temporal variations in thunderstorm rainfall over Nigeria. Intl. J. Climatol., 18: 1273-1284.
CrossRef | Direct Link | Akinsanola, A.A. and K.O. Ogunjobi, 2014. Analysis of rainfall and temperature variability over Nigeria. Global J. Hum. Social Sci. Geogr. Environ. Geosci., 14: 1-18.
Direct Link | Andersson, T.A.M.J.C.N.S., M. Andersson, C. Jacobsson and S. Nilsson, 1989. Thermodynamic indices for forecasting thunderstorms in Southern Sweden. Meteorol. Mag., 118: 141-146.
Ayoade, J.O., 1973. Annual rainfall trends and periodicities in Nigeria. Nigerian Geog. J., 16: 167-176.
Azorin-Molina, C., S. Tijm, E.E. Ebert, S.M. Vicente-Serrano and M.J. Estrela, 2014. Sea breeze thunderstorms in the eastern Iberian Peninsula Neighborhood verification of HIRLAM and HARMONIE precipitation forecasts. Atmos. Res., 139: 101-115.
CrossRef | Direct Link | Beebe, R.G. and F.C. Bates, 1955. A mechanism for assisting in the release of convective instability. Mon. Weather Rev., 83: 1-10.
CrossRef | Direct Link | Berz, G., W. Kron, T. Loster, E. Rauch and J. Schimetschek
et al., 2001. World map of natural hazards-a global view of the distribution and intensity of significant exposures. Nat. Hazard., 23: 443-465.
CrossRef | Direct Link | Budnuka, A.C., 2015. Statistical analysis of seasonal temperature variation and thunderstorm activity over YOLA North-East Nigeria. Am. J. Educ. Res., 3: 873-880.
CrossRef | Direct Link | Capozzi, V., E. Picciotti, V. Mazzarella, G. Budillon and F.S. Marzano, 2016. Hail storm hazard in urban areas: Identification and probability of occurrence by using a single-polarization X-band weather radar. Hydrol. Earth Syst. Sci., 1: 1-22.
CrossRef | Direct Link | Changnon, S.A., 2001. Assessment of the quality of thunderstorm data at first-order stations. J. Appl. Meteorol., 40: 783-794.
CrossRef | Direct Link | Craven, J.P., R.E. Jewell and H.E. Brooks, 2002. Comparison between observed convective cloud-base heights and lifting condensation level for two different lifted parcels. Weather Forecasting, 17: 885-890.
CrossRef | Direct Link | Curtis, R.C. and H.A. Panofsky, 1958. The relation between large-scale vertical motion and weather in summer. Bull. Am. Meteorol. Soc., 39: 521-531.
Direct Link | Das, Y., 2015. Some aspects of thunderstorm over India during pre-monsoon season: A preliminary report-I. J. Geosci. Geomatics, 3: 68-78.
CrossRef | Direct Link | Davis, R.E. and R.F. Rogers, 1992. A synoptic climatology of severe storms in Virginia. Prof. Geogr., 44: 319-332.
Direct Link | DeRubertis, D., 2006. Recent trends in four common stability indices derived from US radiosonde observations. J. Clim., 19: 309-323.
Direct Link | Doswell III, C.A. and D.M. Schultz, 2006. On the use of indices and parameters in forecasting severe storms. E. J. Severe Storms Meteorol., 1: 1-22.
Direct Link | Doswell III, C.A., 2001. Severe Convective Storms-An Overview. In: Severe Convective Storms, Doswell III, C.A. (Eds.). American Meteorological Society, Boston, Massachusetts, ISBN:978-1-935704-06-5, pp: 1-26.
Doswell III, C.A., A.R. Moller and H.E. Brooks, 1999. Storm spotting and public awareness since the first tornado forecasts of 1948. Weather Forecasting, 14: 544-557.
CrossRef | Direct Link | Ekwe, M.C., J.K. Joshua, J.E. Igwe and A. Osinowo, 2014. Mathematical study of monthly and annual rainfall trends in Nasarawa State, Nigeria. IOSR. J. Math., 10: 56-62.
Direct Link | Farnsworth, A., E. White, C.J. Williams, E. Black and D.R. Kniveton, 2011. Understanding the Large Scale Driving Mechanisms of Rainfall Variability over Central Africa. In: African Climate and Climate Change, Williams, C. and D. Kniveton (Eds.). Springer, Dordrecht, The Netherlands, ISBN:978-90-481-3841-8, pp: 101-122.
Fink, A.H., D.G. Vincent and V. Ermert, 2006. Rainfall types in the West African Sudanian zone during the summer monsoon 2002. Mon. Weather Rev., 134: 2143-2164.
CrossRef | Direct Link | Fuelberg, H.E. and D.G. Biggar, 1994. The preconvective environment of summer thunderstorms over the Florida Panhandle. Weather Forecasting, 9: 316-326.
CrossRef | Direct Link | Fujita, T.T., 2015. Mesoscale Classification: Their History and their Application to Forecasting. In: Mesoscale Meteorology and Forecasting, Ray, P. (Ed.). American Meteorological Society, Massachusetts, USA., ISBN:978-1-935704-20-1, pp: 18-31.
Galway, J.G., 1956. The lifted index as a predictor of latent instability. Bull. Amer. Meteor. Soc., 37: 528-529.
Direct Link | Gubenko, I.M. and K.G. Rubinshtein, 2015. Analysis of the results of thunderstorm forecasting based on atmospheric instability indices using the WRF-ARW numerical model data. Russ. Meteorol. Hydrol., 40: 16-24.
CrossRef | Direct Link | Haklander, A.J. and V.A. Delden, 2003. Thunderstorm predictors and their forecast skill for the Netherlands. Atmos. Res., 67: 273-299.
CrossRef | Direct Link | Haley, R.E., 2016. Forecast verification of the Current Icing Potential (CIP) to predict lightning hazards at US spaceports. MSC Thesis, Embry-Riddle Aeronautical University, Arizona, USA.
Hart, J.A. and A.E. Cohen, 2016. The challenge of forecasting significant tornadoes from June to October using convective parameters. Weather Forecasting, 31: 2075-2084.
Direct Link | Huntrieser, H., H. Schlager, C. Feigl and H. Holler, 1998. Transport and production of NO x in electrified thunderstorms: Survey of previous studies and new observations at midlatitudes. J. Geophys. Res. Atmos., 103: 28247-28264.
CrossRef | Direct Link | Huntrieser, H., H.H. Schiesser, W. Schmid and A. Waldvogel, 1997. Comparison of traditional and newly developed thunderstorm indices for Switzerland. Weather Forecasting, 12: 108-125.
Direct Link | Jacovides, C.P. and T. Yonetani, 1990. An evaluation of stability indices for thunderstorm prediction in Greater Cyprus. Weather Forecasting, 5: 559-569.
CrossRef | Direct Link | Joliffc, I.T. and D.B. Stephenson, 2003. Forecast Verification: A Practitioners Guide in Atmospheric Science. John Willey and Sons Ltd., New York, USA.
Kunz, M., 2007. The skill of convective parameters and indices to predict isolated and severe thunderstorms. Nat. Hazards Earth Syst. Sci., 7: 327-342.
CrossRef | Latha, R. and B.S. Murthy, 2011. Boundary layer signatures of consecutive thunderstorms as observed by Doppler sodar over Western India. Atmos. Res., 99: 230-240.
CrossRef | Madala, S., A.N.V. Satyanarayana, C.V. Srinivas and B. Tyagi, 2016. Performance evaluation of PBL schemes of ARW model in simulating thermo-dynamical structure of pre-monsoon convective episodes over kharagpur using STORM data sets. Pure Appl. Geophys., 173: 1803-1827.
CrossRef | Direct Link | Manohar, G.K., S.S. Kandalgaonkar and M.I.R. Tinmaker, 1999. Thunderstorm activity over India and the Indian Southwest monsoon. J. Geophys. Res. Atmos., 104: 4169-4188.
CrossRef | Direct Link | McNulty, R.P., 1995. Severe and convective weather: A central region forecasting challenge. Weather Forecasting, 10: 187-202.
CrossRef | Moller, A.R., C.A. Doswell III, M.P. Foster and G.R. Woodall, 1994. The operational recognition of supercell thunderstorm environments and storm structures. Weather Forecasting, 9: 327-347.
CrossRef | Moore, J.T., F.H. Glass, C.E. Graves, S.M. Rochette and M.J. Singer, 2003. The environment of warm-season elevated thunderstorms associated with heavy rainfall over the central United States. Weather Forecasting, 18: 861-878.
CrossRef | Mounkaila, M.S., B.J. Abiodun and J.B. Omotosho, 2015. Assessing the capability of CORDEX models in simulating onset of rainfall in West Africa. Theor. Appl. Climatol., 119: 255-272.
CrossRef | Direct Link | Mugalavai, E.M., E.C. Kipkorir, D. Raes and M.S. Rao, 2008. Analysis of rainfall onset, cessation and length of growing season for Western Kenya. Agric. Forest Meteorol., 148: 1123-1135.
CrossRef | Direct Link | Nicholson, S.E., 2009. A revised picture of the structure of the monsoon and land ITCZ over West Africa. Clim. Dyn., 32: 1155-1171.
CrossRef | Direct Link | Odekunle, T.O., E.E. Balogun and O.O. Ogunkoya, 2005. On the prediction of rainfall onset and retreat dates in Nigeria. Theor. Appl. Climatol., 81: 101-112.
CrossRef | Direct Link | Omotosho, J.B., 1985. The separate contributions of line squalls, thunderstorms and the monsoon to the total rainfall in Nigeria. Intl. J. Climatol., 5: 543-552.
CrossRef | Direct Link | Paulikas, M.J. and W.S. Ashley, 2011. Thunderstorm hazard vulnerability for the Atlanta, Georgia metropolitan region. Nat. Hazards, 58: 1077-1092.
Direct Link | Ravi, N., U.C. Mohanty, O.P. Madan and R.K. Paliwal, 1999. Forecasting of thunderstorms in the pre-monsoon season at Delhi. Meteorol. Appl., 6: 29-38.
CrossRef | Ricard, D., V. Ducrocq and L. Auger, 2012. A climatology of the mesoscale environment associated with heavily precipitating events over a northwestern Mediterranean area. J. Appl. Meteorol. Climatol., 51: 468-488.
Direct Link | Serkov, A., S. Nikitin, V. Kravchenko and V. Knyazev, 2015. Thunderstorm hazards early warning system. Proceedings of the 2nd International Scientific-Practical Conference on Problems of Infocommunications Science and Technology (PIC S&T’15), October 13-15, 2015, IEEE, Kharkiv, Ukraine, ISBN:978-9-6697-5192-8, pp: 137-138.
Showalter, A.K., 1953. A stability index for thunderstorm forecasting. Bull. Am. Meteorol. Soc., 34: 250-252.
Direct Link | Silva, F.P.D., O.C.R. Filho, R.J. Sampaio, I.C.D.V. Dragaud and A.A.M.D. Araujo
et al., 2017. Evaluation of atmospheric thermodynamics and dynamics during heavy-rainfall and no-rainfall events in the metropolitan area of Rio de Janeiro, Brazil. Meteorol. Atmos. Phys., 1: 1-13.
Direct Link | Taszarek, M., H.E. Brooks and B. Czernecki, 2017. Sounding-derived parameters associated with convective hazards in Europe. Mon. Weather Rev., 145: 1511-1528.
Direct Link | Tinmaker, M.I.R., K. Ali and S.D. Pawar, 2010. Thunderstorm electrical parameters vis-a-vis rainfall and surface air temperatures over a tropical inland station, Pune, India. J. Meteorol. Soc. Japan. Ser. II, 88: 899-908.
Direct Link | Trapp, R.J., N.S. Diffenbaugh and A. Gluhovsky, 2009. Transient response of severe thunderstorm forcing to elevated greenhouse gas concentrations. Geophys. Res. Lett., 36: 1-6.
CrossRef | Direct Link | Tuduri, E. and C. Ramis, 1997. The environments of significant convective events in the Western Mediterranean. Weather Forecasting, 12: 294-306.
CrossRef | Tyagi, B., V.N. Krishna and A.N.V. Satyanarayana, 2011. Study of thermodynamic indices in forecasting pre-monsoon thunderstorms over Kolkata during STORM pilot phase 2006-2008. Nat. Hazards, 56: 681-698.
Direct Link | Vujovic, D., M. Paskota, N. Todorovic and V. Vuckovic, 2015. Evaluation of the stability indices for the thunderstorm forecasting in the region of Belgrade, Serbia. Atmos. Res., 161: 143-152.
CrossRef | Direct Link | Wasula, A.C., L.F. Bosart and K.D. LaPenta, 2002. The influence of terrain on the severe weather distribution across interior Eastern New York and Western New England. Weather Forecasting, 17: 1277-1289.
Direct Link | Weli, V.E. and U.E. Ifediba, 2014. Poor weather conditions and flight operations: Implications for air transport hazard management in Nigeria. Ethiopian J. Environ. Stud. Manage., 7: 235-243.
CrossRef | Wieczorek, G.F., M.C. Larsen, L.S. Eaton, B.A. Morgan and J.L. Blair, 2001. Debris-flow and flooding hazards associated with the December 1999 storm in coastal Venezuela and strategies for mitigation (No. 2001-144). Master Thesis, United States Geological Survey, Reston, Virginia, USA.
Wilson, G.S. and J.R. Scoggins, 1976. Atmospheric Structure and Variability in Areas of Convective Storms Determined from 3-h Rawinsonde Data. NASA Publisher, Washington, D.C., USA., Pages: 129.
You, W., Z. Zang, X. Pan, L. Zhang and Y. Li, 2015. Statistical analysis of thunderstorms on the eastern Tibetan Plateau based on modified thunderstorm indices. Adv. Atmos. Sci., 32: 515-527.
CrossRef | Direct Link |