EVALUATION OF SICKLE POD (Senna obtusifolia L) ACCESSIONS IN THE SUDAN SAVANNA ZONE OF NIGERIA

Authors

  • A. S. Abubakar
  • M. H. Abdullahi
  • B. Mu'azu
  • S. G. Mohammed
  • S. U. Yahaya
  • T. T. Bello

Keywords:

Genetic coefficient of variation, phenotypic coefficient of variation, heritability

References

Azid, A., Juahir, H., Toriman, M. E., Kamarudin, M. K. A., Saudi, A. S. M., Hasnam, C. N. C., & Yamin, M. (2014). Prediction of the Level of Air Pollution Using Principal Component Analysis and Artificial Neural Network Techniques: a Case Study in Malaysia. Water, Air, & Soil Pollution, 225(8), 1-14.

Banan N, Latif MT, Juneng L, & Ahamad F; Characteristics of surface ozone concentrations at stations with different backgrounds in the Malaysian Peninsula. Aerosol and Air Quality Research, 2013; 13(3), 1090-1106.

Bauer, S. E., & Langmann, B. (2002). Analysis of a summer smog episode in the Berlin-Brandenburg region with a nested atmosphere--chemistry model. Atmospheric Chemistry and Physics, 2(4), 259-270.

Brumelis, G., Lapina, L., Nikodemus, O., Tabors, G. (2000) Use of an artificial model of monitoring data to aid interpretation of principal component analysis. Environmental Modelling & Software, 15 (8), 775-763.

Brunekreef, B., & Holgate, S. T. (2002). Air pollution and health. The lancet, 360(9341), 1233-1242.

Camerlengo, A., Demmler, M.I. (1997). Wind-Driven Circulation of Peninsular Malaysia Eastern Continental Shelf Sci. Mar, 61 (2): 203-211.

Daigle, A., Andre', S., Dan, B., Daniel, C., Loubna, B. (2011). Multivariate analysis of low-flow regimes in eastern Canadian river California to global change. Climatic Change, 87,S273–S292.

Dawson, J. P., Adams P. J, & Pandis., S.N. (2007): Sensitivity of PM 2.5 to climate in the Eastern US: a modeling case study. Atmospheric Chemistry and Physics, (16), 4295-4309.

Dawson, J.P., Adams, P.J., Pandis, S.N. (2007) Sensitivity of PM 2.5 to climate in the Eastern US: a modeling case study. Atmospheric Chemistry and Physics, (16), 4295-4309.

de Souza A, Aristones F, Pavão HG, & Fernandes WA. Development of a Short-Term Ozone Prediction Tool in Campo Grande-MS-Brazil Area Based on Meteorological Variables. Open Journal of Air Pollution, 2014; 3(02), 42.

de Souza, A., Aristones, F., Pavão, H.G., & Fernandes, W.,A. (2014). Development of a Short-Term Ozone Prediction Tool in Campo Grande-MS-Brazil Area Based on Meteorological Variables. Open Journal of Air Pollution, 3(02), 42.

Department of Environment Malaysia (DOE) (1997). A Guide to Air Pollution Index in Malaysia (API). Ministry of Science, Technology and Environment, Kuala Lumpur.

Department of Environment Malaysia (DOE) (2007). Malaysia Environmental Quality Report, Ministry of Science, Technology and Environment, Kuala Lumpur. Department of Environment Malaysia (DOE) (2012). Malaysia Environmental Quality Report, Ministry of Science, Technology and Environment, Kuala Lumpur.

Dominick, D., Juahir, H., Latif, MT., Zain., S.M., Aris, A.Z. (2012) Spatial assessment of air quality pattern in Malaysia using multivariate analysis. Atmospheric Environment, Vol. 60 pp. 172-181.

Ghazali, N. A., Ramli, N. A., & Yahaya, A. S. (2009). A study to investigate and model the transformation of nitrogen dioxide into ozone using time series plot.

European Journal of Scientific Research, 37(2), 192-205.

Guttikunda, S. K., & Gurjar., B. R. (2012). Role of meteorology in seasonality of air pollution in megacity Delhi, India Environmental Monitoring and Assessment, 184, 3199– 3211.

Hodgson, A. (2000). Volatile Organic Compound and emission rates in new manufactured and sites-built houses. Indoor Air, 10(3): 178-192.

Huffman, G.., Adler, R.F., Arkin, P., Chang, A., Ferraro, R., Gruber, A., Janowiak, J., M. Nab, A., Rudolf, B., Schneider, U. (1997). The global precipitation climatology project (GPCP) combined precipitation dataset. Bulletin of the American Meteorological Society, 78 (1), 5e20.

Iiten, N., Tülay, A. (2008). investigating the impact of some meteorological parameters on air pollution in Balikesir Turkey. Environmental Monitoring & Assessment, 140: 276-277

Intergovernmental Panel on Climate Change (IIPC). “IIPC Special Report: Aviation and the Global Atmosphere”, Summary for Policy Makers. 1999; IIPC XV/DOC 99.

Jacob, D.J., Winner, D. (2008). Effect of climate change on air quality. Atmospheric Environment, 43, 51-63.

Jamal, H.H., Pillay, M.S., Zailina, H., Shamsul, B.S., Sinha, K., Zaman Huri, Z., Khew, S.L., Mazrura, S., Ambu, S., Rahimah, A., Ruzita, M.S., (2004). A Study of Health Impact & Risk Assessment of Urban Air Pollution in Klang Valley. UKM Pakarunding Sdn Bhd, Malaysia, Kuala Lumpur.

Janssen, N. A., van Vliet, P. H., Aarts, F., Harssema, H., & Brunekreef, B. Assessment of exposure to traffic related air pollution of children attending schools near

motorways. Atmospheric environment. 2001; 35(22), 3875-3884.

Jayamurugan, R., Kumaravel, B., Palanivelraja, S., Chockalingam, MP. (2013) Influence of Temperature, Relative Humidity and Seasonal Variability on Ambient Air Quality in a Coastal Urban Area.International, Journal of Atmospheric Sciences, Article ID264046. http://dx.doi.org/10.1155/2013/264046

Juahir, H., Zain, S. M., Yusoff, M. K., Hanidza, T. T., Armi, A. M., Toriman, M. E., & Mokhtar, M. (2011). Spatial water quality assessment of Langat River Basin (Malaysia) using environmetric techniques. Environmental Monitoring and Assessment, 173(1-4), 625-641.

Kleeman, M.J. (2007). A preliminary assessment of the sensitivity of air quality in California to global change. Climatic Change 87, S273–S292

Kovac-Andric, E. Brana, J. Gvozdic, V. (2009). Impact of meteorological factors on ozone Concentrations modelled by time series and multivariate statistical

methods. Ecological Informatics, 4 (2), 117-122.

Liu, C. W., Lin, K. H., & Kuo, Y. M. (2003). Application of factor analysis in the assessment of groundwater quality in a blackfoot disease area in Taiwan. Science of the Total Environment, 313(1), 77-89.

Love, D., Hallbauer, D., Amos, A., Haranova, R. (2004). Factor analysis as a tool in groundwater quality management: two southern African case studies. Physics & Chemistry of the Earth, 29, 1135-1143.

Malaysia Meteorological Department (MMD) (2010). General Climate of Malaysia. Kuala Lumpur: Ministry of Science, Technology and Innovation.

Malaysia Meteorological Department (MMD) (2012). General Climate of Malaysia. Kuala Lumpur: Ministry of Science, Technology and Innovation.

Malaysia Meteorological Department (MMD) (2013). General Climate of Malaysia. Kuala Lumpur: Ministry of Science, Technology and Innovation.

Mallik, C., and Lal, S. (2014). Seasonal characteristics of SO2, NO2, and CO emissions in and around the Indo-Gangetic Environmental Monitoring and Assessment, 186:1295–1310 DOI 10.1007/s10661-013-3458-y

Minoura H, Ito A; Observation of the primary NO2 and NO oxidation near the trunk road in Tokyo. Atmospheric Environment 2010; 44, 23-29

Morawska L, Jayaratne ER, Mengersen K, Jamriska M, & Thomas S; Differences in airborne particle and gaseous concentrations in urban air between weekdays

and weekends. Atmospheric Environment, 2002; 36(27), 4375-4383

Mutalib, S. N. S. A., Juahir, H., Azid, A., Sharif, S. M., Latif, M. T., Aris, A. Z., Zain, S. M., & Dominick, D. (2013). Spatial and temporal air quality pattern recognition using environmetric techniques: a case study in Malaysia. Environmental Science, Processes & Impacts 1-12, doi: 10. 1039/c3em00161j.

Petrolian Nasional Berhad (2013). Annual report.

Roth, M., Emmanuel, R., Ichinose, T., Salmond, J. (2011). ICUC-7 Urban Climate Special Issue. International Journal of Climatology, 31(2), 159–161.

Sadanaga Y, Sengen M, Takenaka N, & Bandow H. (2012) Analyses of the ozone weekend effect in Tokyo, Japan: regime of oxidant (O3+ NO2) production. Aerosol Air Quality Research, 12, 161-168.

Shakir, S.K., Azizullah A., Murad, W. Daud., M.K., Nabeela F, Rahman., H., Rehman., S., Häder., D. (2016) Toxic Metal Pollution in Pakistan and Its Possible Risks to Public Health Volume 242 of the series Reviews of Environmental Contamination and Toxicology, pp 1-60

Singh, K.P., Malik, A., Sinha, S. (2005). Water quality assessment and apportionment of pollution source of Gomti River (India) using multivariate statistical

techniques - a case study. Analytical Chimica Acta, 538 (1-2) 355 - 374.

Steiner, A. L., Tonse, S., Cohen, R. C., Goldstein, A. H., & Harley, R. A. (2006). Influence of future climate and emissions on regional air quality in California. Journal of Geophysical Research: Atmospheres (1984–2012), 111(D18).

UN-Habitat, 2011. Global Report on Human Settlements: Cities and Climate Change. Earthscan Publications.

Wang, L., Li, J., Lu, H., Gu, Z., Rioual, P., Hao, Q., Mackay, A.W., Jiang, W., Cai, B., Xu, B., Chu, G. (2012). The East Asian winter monsoon over the last 15,000 years: its links to high-latitudes and tropical climate systems and complex correlation to the summer monsoon. Quaternary Science Reviews, 32, 131-142

Wennberg, P.,O. Hanisco, T.,F. (1998). Hydrogen radicals, nitrogen radicals and the production of O3 in the upper troposphere. Science Journal Vol. 279 No. 5347, pp.49-53

Zaharim, A., Shaharuddin, M., Nor, M.J., Karin, A.O., Soptan, K. (2009). Relationship between airborne particulate matter and meteorological variables using

non-decimated wavelet transform. European Journal of Scientific Research, Vol. 27 No. 2 pp 308-312

Published

2023-04-04

How to Cite

Abubakar, A. S., Abdullahi, M. H., Mu’azu, B., Mohammed, S. G., Yahaya, S. U., & Bello, T. T. (2023). EVALUATION OF SICKLE POD (Senna obtusifolia L) ACCESSIONS IN THE SUDAN SAVANNA ZONE OF NIGERIA. FUDMA JOURNAL OF SCIENCES, 3(2), 52 - 57. Retrieved from https://fjs.fudutsinma.edu.ng/index.php/fjs/article/view/1480