@Research Paper
<#LINE#>Evaluations of some Serum Biochemical Parameters and Antibiotics Susceptibility Pattern in Enterococcus faecalis Infected Patients<#LINE#>Egoro@E.T.,Ogbede@T.,Arikekpar@ I. <#LINE#>1-5<#LINE#>1.ISCA-RJRS-2015-079.pdf<#LINE#>Department of Medical Laboratory Science (Chemical Pathology Option), Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, P.M.B. 071, Bayelsa State, Nigeria@Department of Medical Laboratory Science (Chemical Pathology Option), Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, P.M.B. 071, Bayelsa State, Nigeria@2Department of Medical Laboratory Science (Medical Microbiology/Parasitology Option), Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, P.M.B. 071, Bayelsa State, Nigeria<#LINE#>8/5/2015<#LINE#>4/12/2015<#LINE#>The evaluations of some serum biochemical parameters and antibiotics susceptibility pattern in Enterococcus faecalis infected patients were studied. Early morning midstream urine and blood specimens were collected from thirty Enterococcus  faecalis infected patients aged 18-35 years and from another thirty subjects with no evidence of infection (control) aged 18-35 years. The following serum biochemical parameters: creatinine, total protein, albumin, globulin, C-reactive protein, sodium, potassium, chloride and bicarbonate were quantitatively measured while antibiotics susceptibility test was performed on the pure isolate of Enterococcus  faecalis obtained from the cultured urine specimen using the disc diffusion method. The results of this study showed that there was significant difference of serum C-reactive protein in the Enterococcus faecalis infected patients as compared with that of the control subjects while there were no significant differences in the other serum biochemical parameters of the Enterococcus faecalis infected patients as compared with that of the control subjects. However, the antibiotics susceptibility results showed that only two antibiotics: pefloxacin and ciprofloxacin had considerable susceptibility of 56.67% and 66.69% respectively while others showed very poor susceptibility as follow: ofloxacin 46.67%, gentamycin 36.67%, ampiclox 23.33%, erythromycin 33.33%, norfloxacin 20%, chloramphenicol 16.67%, clindamycin 20% and streptomycin 26.67%. In conclusion, this study has revealed that serum C-reactive protein concentration is significantly elevated in Enterococcus faecalis infected patients and ciprofloxacin among the several antibiotics used for this research work has proved to be the most susceptible antibiotic for the empirical treatment of this infection in the studied community followed by pefloxacin.<#LINE#>Kathleen T. (1996).@General characteristics of Staphylococcus. Textbook of Foundations in Microbiology. 2nd edition Wm.@C Brown Publisher, Chicago, 551.@No$Nijs Aa et al. (2003).@Comparison and evaluation of Osiris and Sirscan 2000 antimicrobial susceptibility systems in clinical microbiology laboratory.@J. Clin. Microbiol. 41, 3627-30.@Yes$Hooton T.M. (2000).@Pathogenesis of urinary tract infections: An Update.@J.  Antimicrob. Chemother., 46 (Suppl i), 1-7 discussion 63-65 (Pub Med).@Yes$Bishop M.C. (2004).@Uncomplicated urinary tract infection.@EAU update series, 2(3), 143-150).@Yes$Hooton T.M. (2001).@Recurrent urinary tract infections in women.@Int. J. Antimicrob. Agents 17 (4), 259-265.@No$Foxman B., Gillespie B. and Koopman J. (2000).@Risk factors for secondary urinary tract infection among college women.@Am. J. Epidemiol., 151(12), 1194-1205.@Yes$Ezeonu I.M. and Ugwu K.O. (2010).@Nig. J. Microbiol. 24(2), 2251.@undefined@No$Henry R.J. (1974).@Quantitative in vitro determination of creatinine in serum, plasma or urine, In: Textbook of    Clinical Chemistry.@Principles and Technics, 2nd edition. Harper and Row, Hagerstrown, Philadelphia. 525.@No$Weichselbaum T.E. (2004).@Quantitative measurement of total protein in serum.@Am. J. Clin. Pathol. 16, 40.@No$Doumas B.T., Watson W.A. and Biggs H.G. (2004).@Measurement of serum albumin.@Clin. Chem. Acta., 31, 87.@No$Cynthia C.C., Ruth L.K. and Barbara J.B. (1993).@Plasma globulin, In: Textbook of Laboratory Tests and Diagnostic Procedure.@2nd edition WB Saunders Company Philadelphia. 540-541.@No$Kari P. (2007).@Quantitative measurement of C-reactive protein.@J. Clin. Lab. Invest., 46, 606-607.@No$Tietz N.W. (2004).@Measurement of sodium in human serum.@Textbook of Fundamental of Clinical Chemistry 3rd edition WB Saunders Company Philadelphia, 874.@No$Terri A.E. (2001).@Measurement of Potassium in human serum.@Am. J. Clin. Pathol., 29, 86.@No$Young D.S. (2001).@Measurement of chloride in human serum.@J. Clin. Chem., 21, 10.@No$Ochei J. and Kolhatkar A. (2008).@Estimation of serum/plasma bicarbonate.@Textbook of Medical Laboratory Science. Theory and Practice, 8th edition. Tata Mc Graw Hill Publishing Company Limited, New Delhi. 183-184.@No$Nelson T.M., Chiller T.M., Powers J.H. and Angulo F.J. (2007).@Clin. Infect. Dis. 44(7), 977.@undefined@Yes$Gledrys-Kalemba S. and Bilska I. (1993).@Susceptibility of bacteria isolated from various clinical materials between 1989-1991 to ofloxacin.@Med. Dosw. Mikrobiol. 45 (1), 119.@No$Wiseman L.R. (1994).@Review of the Pharmacological profile and therapeutic use of ciprofloxacin in the elderly.@Ciprofloxacin, 4(2), 145.@Yes
<#LINE#>Determinants that Affect the Profitability of Non-Life Insurance Companies: Evidence from Pakistan<#LINE#>Jibran@Qamar Muhammad Ali ,Masood @Sameen, Kashif@Aslam, Nouman@Khurram <#LINE#>6-11<#LINE#>2.ISCA-RJRS-2015-101.pdf<#LINE#>Department of Management Sciences, COMSATS Institute of Information Technology, Lahore, Pakistan@Institute of Social and Cultural Studies, Punjab University, Lahore, Pakistan@COMSATS Institute of Information Technology, Lahore Pakistan@COMSATS Institute of Information Technology, Lahore Pakistan<#LINE#>7/7/2015<#LINE#>30/11/2015<#LINE#>The profitability of any organization for a specific time can be considered as the ultimate result of its investing, operating and financing activities. This research paper studies how the profitability of non-life insurance companies in Pakistan is prejudiced by working capital management, other firm’s specific variables coupled with the macroeconomic variables like Inflation and GDP. The results are generated by running balance panel data on Eviews6.The current ratio is taken as demonstrative of working capital management. The results show that current ratio, premium growth and firm size are the key factors in determining the profitability of the firms. The results also show that ROA and ROE of the firms are not influenced by the same variables. The macroeconomic variables also proved significant in determining the profitability of the firms<#LINE#>Abid F. and Mseddi S. (2004).@The impact of operating and financial leverages and intrinsic business risk of firm value.@International Conference AFFI 2004 at Cergy-Ponthoise.@Yes$Naveed A., Zulfqar A.  and Usman A. (2011).@Determinants of performance: A case of life insurance sector of Pakistan.@International Research Journal of Finance and Economics, 61(1), 123-128.@Yes$Samiloglo F. and Dermirgunes K. (2008).@The effect of working capital management on &#64257;rm pro&#64257;tability: evidence from Turkey.@Int J Appl Econ Financ, 2(1), 44–50.@Yes$Singhania M., Sharma N.  and Rohit J. (2014).@Working capital management and profitability: evidence from indian manufacturing industries.@undefined@Yes$Monica S. Navendu and S. Yagnesh R. (2014).@Working capital management and profitability: evidence from Indian manufacturing companies.@41(3), 313-326.@Yes$Gartchie J.G., Samue G.G. and Richard K.A. (2013).@Degree of Financial and Operating Leverage and Profitability of Insurance Firms in Ghana.@International Business and Management, 7(2), 57-65.@Yes$Abor J. (2008).@Determinants of the capital structure of Ghanaian firms.@African Economic Research consortium, Research paper No. 176, Nairobi.@Yes$Smith (1980).@Pro&#64257;tability versus liquidity tradeoffs in working capital management, in readings on the management of Working Capital.@West Publishing Company, New York, St.@Yes$Abuzar and Eljelly (2004).@A.M. Liquidity—pro&#64257;tability trade off: An empirical investigation in an emerging market.@Int J Commer Manag. 14(2), 48–61.@Yes$Zubairi J.H. (2013).@Impact of working capital management and capital structure on profitability of automobile firms in Pakistan.@undefined@Yes$McGuire et al. (1998).@Corporate social responsibility and &#64257;rm &#64257;nancial performance.@Acad Manag J, 31(4), 854–872.@Yes$Paquette L.R. (2005).@Growth rates as measures of &#64257;nancial performance.@J Account Educ. 23(1), 67–78.@Yes$Huselid M.A. (1995).@The impact of human resource management practices on turnover, productivity, and corporate &#64257;nancial performance.@Acad Manag J, 38(3), 635–672.@Yes$Deloof M. (2003).@Does working capital management affect pro&#64257;tability of Belgian &#64257;rms?@J Bus Financ Account. 30(3–4), 573–588.@Yes$Tryfonidis L.I. (2006).@Relationship between working capital management and pro&#64257;tability of listed companies in the Athens stock exchange.@J Financ Manag Anal, 19(1), 26–35.@Yes$Nasr M. and Raheman A. (2007).@Working capital management and pro&#64257;tability–case of Pakistani &#64257;rms.@Int Rev Bus Res Pap, 31, 279–300.@Yes$Afza T. and Nazir M. (2009).@Impact of aggressive working capital management policy on &#64257;rms’ pro&#64257;tability.@IUP J ApplFinanc., 15(8), 19–30.@Yes$Raheman A. and Afza T. (2010).@Working capital management and corporate performance of manufacturing sector in Pakistan.@Int Res J Financ Econ. 47(Issue), 151–164.@Yes$Singh J.P. and Pandey S. (2008).@Impact of working capital management in the pro&#64257;tability of hindalco industries limited (CFA).@Univ J Financ Econ, 6(4), 62–72.@Yes$Zariyawati M., Annuar M., Tau&#64257;q H. and Abdul Rahim A. (2009).@Working capital management and corporate performance: case of Malaysia.@J Mod Account Audit, 5(11), 47–54.@Yes$Saad N. and Mohamad N. (2010).@Working capital management: the effect of market valuation and pro&#64257;tability in Malaysia.@Int J Bus Manag, 5(11), 140–147.@Yes$Sen M. and Oruc E. (2009).@Relationship between ef&#64257;ciency level of working capital management and return on total assets in Ise.@Int J Bus Manag, 4(10), 109–114.@Yes$Uyar A. (2009).@The relationship of cash conversion cycle with &#64257;rm size and pro&#64257;tability: an empirical investigation in Turkey.@Int Res J Financ Econ, 24.@Yes$Shin H. and Soenen L. (1998).@Ef&#64257;ciency of working capital management and corporate pro&#64257;tability.@Financ Pract Educ, 8(2), 37–45.@Yes$Asutay M. and Izhar H. (2007).@Estimating the Profitability of Islamic Banking: Evidence from Bank Muamalat Indonesia.@Review of Islamic Economics, 11 (2), 17-29.@Yes$Srairi S.A. (2009).@Factors Influencing the Profitability of Conventional and Islamic Commercial Banks in GCC Countries.@Review of Islamic Economics, 13 (1), 5-30.@Yes$Sufian F. and Habibullah M. (2009).@Bank Specific and Macroeconomic Determinants of Bank Profitability: Empirical Evidence from the China Banking Sector.@Frontiers of Economics in China, 4(2), 274-291.@Yes$Naceur S.B. (2003).@The Determinants of the Tunisian Baning Industry Profitability: Panel Evidence.@University Libre de Tunis Working Paper.@Yes$Athanasoglou P.P., Brissmis S.N. and Delis M.D. (2005).@Bank Specific, Industry-specific and Macroecnomic Determinants of Bank Profitability.@Working Paper, Bank of Greece.@Yes$Garc&#305;´a-Teruel P.J. and Mart&#305; ´nez-Solano P. (2007).@Effects of working capital management on SME pro&#64257;tability.@Int J Manag Financ, 3(2), 164–177.@Yes$Myers S.C. (1984).@The capital structure puzzle.@Journal of Finance, 39(1), 575-592.@Yes$Bashir A. (2000).@Determinants of Profitability and Rates of Return Margins in Islamic Banks: Some Evidence from Middle East.@Paper presented at ERF’s Seventh Annual Conference, 26-29 October 2000, Amman, Jordan.@No$Wasiuzzaman S. and Tarmizi H.A. (2010).@Profitability of Islamic Banks in Malaysia: An Empirical Analysis.@Journal of Islamic Economics, Banking and Finance, 6(4), 51-68.@Yes$Revell J.R.S. (1980).@Costs and Margins in Banking: An International Survey.@Paris: Organization for Economic Co-operation and Development.@Yes$Bourke P. (1989).@Concentration and Other Determinants of Bank Profitability in Europe, North America and Australia.@Journal of Banking and Finance, 13(1), 65-79.@Yes$Molyneux P. and Thornton J. (1992).@Determinants of European Bank Profitability: A Note.@Journal of Banking and Finance, 16(6), 1173-1178.@Yes
<#LINE#>Optical Properties of Zinc Sulphide Thin Films Fabricated using Chemical Bath Deposition Technique<#LINE#>Okoli @D.N. <#LINE#>12-18<#LINE#>3.ISCA-RJRS-2015-106.pdf<#LINE#>Department of Physics and Industrial Physics, Nnamdi Azikiwe University, Awka, Anambra State, Nigeria<#LINE#>25/7/2015<#LINE#>28/11/2015<#LINE#>Thin films of Zinc Sulphide were deposited on glass substrate using Chemical Bath Deposition Technique. The optical properties of the deposited films were determined using M501 Single Beam Scanning UV/VIS Spectrophotometer at normal incidence of light in the wavelength range of 380nm-700nm. The results show that films exhibited poor absorbance value of 0.001-0.027 and reflectance value of 0.001-0.033 within this region of electromagnetic spectrum. In this same region, the transmittance of the incident radiation was found to be very high with value range of 0.939-0.998. Other calculated properties such as absorption coefficient and optical conductivity were found to be high with respective values of 0.154 x 104m-1 – 7.105 x 104m-1 and 0.0395 x1012 S-1 – 2.45 x 1012 S-1. The refractive index of the films was observed to have a value range of 1.10-1.45 with extinction coefficient recording a value range of 0.0000796 – 0.00016. The computed values of real part dielectric function were found to be within the range 1.155-2.092 with imaginary part dielectric function having a value range of 0.000171 -0.00621. The films were found to exhibit band gap energy of 3.18eV -3.20eV. All these desirable properties made thin films of Zinc Sulphide to be a good candidate for fabrication of opto-electronics and photovoltaic devices.<#LINE#>Wells A.F. (1984).@Structural Inorganic Chemistry (5th Ed.).@Oxford: Clarendon press, ISBN 0-19-855370-6.@No$Deulkara S.H., Bhosalea C.H. and Sharonb M. (2004).@J. Phys. Chem. Solids, 65, 1879.@undefined@No$Bredol M. and Merkhi J. (1998).@ZnS precipitation: morphology control.@J. Mater. Sci., 33, 471.@Yes$Kavanagh Y., Alam M.J. and Cameron D.C. (2004).@The characteristics of thin film electroluminescent displays produced using sol–gel produced tantalum pentoxide and zinc sulfide.@Thin Solid Films, 447-448, 85.@Yes$Contreras M.A., Nakada T., Hongo M., Pudov A.O. and Sites J.R. (2003).@ZnO/ZnS(O,OH)/ Cu(In,Ga) Se/sub 2//Mo solar cell with 18.6% efficiency.@Proceedings 3rd world conference of Photovoltaic Energy Conversion, Osaka Japan, 570.@Yes$Yoneta M., Ohishi M. and Saito H. (1993).@Low temperature molecular beam epitaxial growth of ZnS/GaAs (001) by using elemental sulfur source.@J. Cryst. Growth. 127, 314.@Yes$Porada Z. and Schabowsska E. (1986).@Surface electrical conductivity in ZnS (Cu, Cl, Mn) thin films.@Thin Solid Films. 145, 75.@Yes$Aboundi A., Diblasio M. and Bouchara D. (1994).@Reflectivity and photoluminescence measurements in ZnS epilayers grown by metal-organic chemical-vapor deposition.@Phys. Rev., B 50, 11677.@Yes$Kashani H. (1996).@Production and evaluation of ZnS thin films by the MOCVD technique as alpha-particle detectors.@Thin Solid Films, 50.@Yes$Chamberlin R.R. and Skarman J.S. (1966).@Chemical spray deposition process for inorganic films.@J. Electrochem Soc., 113.@Yes$Nair P.K. and Nair M.T.S. (1992).@Chemically deposited ZnS thin films: application as substrate for chemically deposited Bi2S3, CuxS and PbS thin films.@Semicond Sci. Technol., 7, 239.@Yes$Kurbatov D., Opanasyuk A., Kshnyakina S., Melnik V. and Nesprava V. (2010).@Rom. Journ. Phys, 55(1-2), 213-219, Bucharest.@undefined@No
<#LINE#>An evaluation of different Methods of composting on Management of Heavy Metals from the Waste dump<#LINE#> Vijayan@V Divya, Sushama@P K <#LINE#>19-22<#LINE#>4.ISCA-RJRS-2015-107.pdf<#LINE#>Land Use and Cover Monitoring Division, National Remote Sensing Centre, Balanagar, 500037, Hyderabad, India@Department of Soil Science and Agricultural Chemistry, College of Horticulture, Kerala Agricultural University, Vellanikkara, Kerala, India<#LINE#>26/7/2015<#LINE#>18/10/2015<#LINE#>A study was conducted to understand the effect of composting on heavy metal contents of waste material at the waste dump yard at Laloor, of Thrissur district in Kerala state. The material collected from Laloor was subjected to aerobic and anaerobic methods of composting with the use of equal quantities of farm yard manure. For aerobic composting waste material and cow dung in 1:1 ratio 100kg each was mixed and heaped. Biogas unit of 0.5m3 capacity was used for anaerobic composting. Waste material and cowdung of the same quantity (100 kg) as above was mixed and fed to the unit on a daily basis. The slurry collected was used for analysis. Compared to aerobic composting, anaerobic method was better for removal of the heavy metals. The heavy metal content (mg kg-1), was observed to be higher in aerobic compost with an average of total Pb 99.18, Co 6.9, Ni 33.64, Cr 99.52 and Hg 0.29 mg kg-1 respectively  and slurry it was Pb 2.16 , Co 0.24,  Ni 1.2, Cr 28.06 and Hg 0.03 mg kg-1 respectively.<#LINE#>Neklyudov A.D., Fedotov G.N. and Ivankin A.N. (2008)@Intensification of composting processes by aerobic microorganisms: A Review.@Appl. Bioch. Micro., 44(1), 6-18.@Yes$Singh J. and Kalamdhad (2012).@Reduction of Heavy Metals during Composting: A Review.@Int. J. Environ. Protection, 2(9), 36-43.@Yes$Saha J., Panwar N. and Singh M.V. (2010).@An assessment of municipal solid waste compost quality produced in different cities of India in the perspective of developing quality control indices.@Waste Manage 30(2), 192-201.@Yes$Zennaro M., Cristofori F., Fomigoni D., Prignani and Pavoni B. (2005).@undefined@undefined@Yes$Heavy metal contamination in compost-A possible solution.@Ann. Chim., 95(3-4), 247-256.@undefined@Yes$Rao J.K. and Reddy V.Y.S.S. (2009).@Heavy metal content of Vegetable crops grown on urban solid waste treated soil.@J Soil and Crops 19(1), 191-192.@Yes
<#LINE#>Study of the Railway noise level in Bolpur and Prantik Station, India<#LINE#>Syed @Yakub Ali ,Chaudhury@Shibani  <#LINE#>23-28<#LINE#>5.ISCA-RJRS-2015-112.pdf<#LINE#>Department of Environmental Studies, Siksha-Bhavana, Visva-Bharati, Santiniketan, India@Department of Environmental Studies, Siksha-Bhavana, Visva-Bharati, Santiniketan, India<#LINE#>11/8/2015<#LINE#>14/11/2015<#LINE#>Railway noise is second largest sources of noise pollution. The main sources of railway noise are rolling noise caused by interaction between wheel and railway track, aerodynamic noise caused by unsteady air flow over the train, traction noise such noise created from the engine and gearbox and warning signal noise such as horn noise. In the present study measured the noise at the created by railways activities of the Bolpur station, Prantik station and outside the station where the train was thoroughly passed with full speed at the distance of 10m and 20m. The results indicated that the noise level created by railway activities was high, when the train passed. The result also indicated that the noise created by high speed train such as express train was made more noise than the passenger train.<#LINE#>Thompson D. (2009).@Railway noise and Vibration Mechanism, Modelling and Means of Control.@Elsevier, 17.@Yes$Xiaoan G. (2006).@Railway environmental noise control in China.@Journal of Sound and Vibration, 293, 1078-1085.@Yes$Jehanno A. (2011).@High Speed Rail and Sustainability, Paris.@www.uic.org/download.php/publication/531E.pdf@Yes$Dhaar G.M. and Robbani I. (2008).@Founding of Community Medicine.@2nd ed., Elsevier, 97.@No$Indian Railways, Wikipedia The free encyclopedia (2015).@https://en.wikipedia.org/wiki/Indian_ Railways.@undefined@Yes$Wikipedia for Schools (2015).@http://schools-wikipedia.org/wp/i/Indian_Railways.htm.@undefined@Yes$Banerjee D. (2006).@Ambient Noise Level around an integrated Iron & Steel works.@Bulletin of National Institute of Ecology, 32(4), 144-146.@Yes$Powitz R. and Balsamo J.J. (1997).@An inexpensive Sound Level Meter.@Journal of Environmental Health, 59, 27.@Yes$Central Pollution Control Board (CPCB) (2000). Ambient Air Quality Respect of Noise, Schedule: Part-II, Sec-3(II).@undefined@undefined@Yes$Ali S.Y. and Chaudhury S. (2015).@Noise level and Annoyance in Mela Ground, Santiniketan, India during Poush Mela.@International Research Journal of Environment Sciences, 4(6), 1-6.@No$Leq, LAeq - Equivalent Sound Level - Acoustic Glossary (2015).@http://www.acoustic-glossary.co.uk/leq.htm.@undefined@Yes$Community Noise Calculators - Ldn, Lden and CNEL (2015).@https://www.noisemeters.com/apps/ldn-calculator.asp (2015).@undefined@Yes$Baltr&#279;nas P., Butkus D., Nainys V., Grubliauskas R. and Graudinyt&#279; J. (2007).@Evaluation of Noise Barrier Efficiency.@Journal of Environmental Engineering and Landscape management, 15(3), 125–134@No$Pronello C. (2003).@The measurement of train noise: A case study in northen Italy.@Transportation Research Part D, 8, 113-128.@Yes
<#LINE#>Effects of Industrial Air pollution on Biochemical parameters of Shorea robusta and Acacia auriculiformis<#LINE#>Karmakar@Dipti ,Malik@Nivedita,Padhy@Pratap Kumar <#LINE#>29-33<#LINE#>6.ISCA-RJRS-2015-119.pdf<#LINE#>Department of Environmental Studies, Institute of Science, Visva-Bharati, Santiniketan, 731235, Birbhum, West Bengal, India@Department of Environmental Studies, Institute of Science, Visva-Bharati, Santiniketan, 731235, Birbhum, West Bengal, India@Department of Environmental Studies, Institute of Science, Visva-Bharati, Santiniketan, 731235, Birbhum, West Bengal, India<#LINE#>24/8/2015<#LINE#>29/11/2015<#LINE#>Air pollution has become a great concern to the environment due to increasing industrialization and urbanization. The present study examines the effects of air pollution on various biochemical parameters of plants in Barjora forest at Barjora, Bankura, West Bengal. To evaluate the susceptibility of plants to air pollution, four biochemical parameters, namely; chlorophyll, carbohydrate, ascorbic acid and protein, in two different tree species viz., Shorea robusta and Acacia auriculiformis, were determined. For both the plant species, the chlorophyll content was decreased significantly as compared to the control. The carbohydrate and protein content were also decreased for both the species, whereas, ascorbic acid content was increased in both the species.<#LINE#>Dohmen G.P.,  Loppers A. and Langebartels C. (1990).@Biochemical Response of Norway spruce (Picea Abies (L) Karst) toward 14-Month Exposure to Ozone and Acid mist, effect on amino acid, Glutathione and Polyamine Titers.@Environmental pollution., 64(3-4), 375-383.@Yes$Hoque M.A., Banu M.N.A. and Oluma  E. (2007).@Exogenous proline and glycinebetaine increase NaCl- induced Ascorbate-glythione cycle enzyme activities and praline improves salt tolerance more than glycinebetaine in tobacco bright yellow-2 suspension-cultural cells.@Journal of plant physiology, 164(11), 1457-1468.@Yes$Flowers M.D., Fiscus E.L. and Burkey K.O. (2007).@Photosynthesis,chlorophyll flourescene and yield of snap bean (Phaseolus Vulgaris L) genotypes differing in sensitivity to Ozone.@Environmental and Experimental Botany, 61(2), 190-198.@Yes$Fowler D., Cape J.N. and Unsworth M.H. (1989).@Deposition of atmospheric pollutants on forests.@Philos. Trans. R. Soc. London., 324, 247-265.@Yes$Bunzl K., Schimmack W., Kreutzer K. and Schierl R. (1989).@Interception and retention of Chernobyl-derived 134, 137Cs and 100Ru in a spruce stand.@Sci. Total Environ., 78, 77-87.@Yes$Joshi O.P., Wagela D.K. and Pawar K. (1997).@Urban air pollution effects on two species of cassia.@Pollut. Res., 16, 1-3.@Yes$Mandal M. and Mukherji S. (2000).@Changes in chlorophyll context, chlorophyllase activity, Hill reaction, photosynthetic CO2 uptake, sugar and starch contents in five dicotyledonous plants exposed to automobile exhaust pollution.@J. Environ. Biol., 21, 37–41.@Yes$Gavali J.G., Saha D. and Krishnayya K. (2002).@Difference in sulphur accumulation in eleven tropical tree species growing in polluted environments.@Ind. J. Environ. Health., 44, 88-91.@Yes$Prajapati S.K. and Tripathi B.D. (2008).@Seasonal Variation of Leaf Dust Accumulation and Pigment Content in Plant Species Exposed to Urban Particulates Pollution.@Journal of Environmental Quality., 37(3), 865-870.@Yes$Prasad B.J. and Rao D.N. (1981).@Growth responses of Phaseolus aureus plants to petro&#8208;coke pollution.@Journal of Experimental Botany, 32, 1343&#8208;1350.@Yes$Arnon D.I. (1949).@Copper enzymes in isolated chloroplasts. Polyphenoloxidase in beta vulgaris.@Plant Physiol., 24(1).@Yes$Hedge J.E. and Hofreiter B.T. (1962).@Carbohydrate Chemistry.@17 (Eds. Whistler, R.L. and Be Miller, J.N.), Academic Press, NewYork.@Yes$Harris L.J. and Ray S.N. (1935).@Diagnosis of vitamin-C subnutrition by urine analysis: with a note on the antiscorbutic value of human milk.@Lancet., 1, 72.@Yes$Lowry O.H., Rosenbrough N.J., Farr A.L. and Randall R.J. (1951).@Protein measurement with the folin phenol reagent.@Journal of Biological Chemistry., 193, 265-275.@Yes$Katiyar V. and Dubey P.S. (2001).@Sulphur dioxide sensitivity on two stage of leaf development in a few tropical tree species.@Ind. J. Environ. Toxicol.,11, 78-81.@Yes$Gilbert OL. (1968).@Biological indicators of air pollution.@University of Newcastle upon Tyne, Newcastle upon Tyne, Great Britain.@Yes$Pawar K. and Dubey P.S. (1985).@Effects of air pollution on the photosynthetic pigments of Ipomea fistulosa and Phoenix sylvestris.@All India seminar on Air Pollution Control., Indore, Abs. 19-21.@Yes$Seyyednejad S.M. and Koochak H. (2013).@Some morphological and biochemical responses due to industrial air pollution in Prosopis juliflora (Swartz) DC plant.@African Journal of Agricultural Research., 8(18), 1968-1974.@Yes$Tripathi A.K. and Gautam M. (2007).@Biochemical parameters of plants as indicators of air pollution.@J. Environ. Biol., 28,127-132.@Yes$Thambavani D.S. and Maheswari J. (2014).@Response of Native Tree Species to Ambient Air Quality.@Chemical Science Transactions., 3(1), 438-444.@Yes$Agbaire P.O. and Akporhonor E.E. (2014).@The Effects of Air Pollution on Plants around the Vicinity of the Delta Steel Company, Ovwian-Aladja, Delta State, Nigeria.@Journal of Environmental Science, Toxicology and Food Technology., 8(7), 61-65.@No$Keller T. and Schwager H. (1977).@Air pollution and ascorbic acid.@Europ. J. Forest Pathol., 7, 338-350.@Yes$Lima J.S., Fernandes E.B. and Fawcett W.N. (2000).@Mangifera indica and Phaseolus vulgaris in the bioindicator of air pollution in Bahia, Brazil.@Ecotoxicol. Environ. Saf., 46(3), 275-278.@Yes$Rai P.K., Panda L.L.S., Chutia B.M. and Singh M.M. (2013).@Comparative assessment of air pollution tolerance index (APTI) in the industrial (Rourkela) and non industrial area (Aizawl) of India.@An eco-management approach, 7(10), 944-948.@Yes$Varshney S.R.K. and Varshney C.K. (1984).@Effects of Sulphur dioxide on ascorbic acid in crop plants.@Environ. Pollut., 35(4), 285-290.@Yes$Saha D.C. and Padhy P.K. (2011).@Effects of stone crushing industry on Shorea robusta and Madhuca indica foliage in Lalpahari forest.@Atmospheric Pollution Research., 2, 463-476.@Yes$Dohmen G.P.,  Koppers A. and Langebartels C. (1990).@Biochemical response of Norway spruce (Picea abies (L.) Karst.) towards 14-month exposure to ozone and acid mist: Effects on amino acid, glutathione and polyamine titers.@Environl Pollut., 64(3-4), 375-383.@Yes
<#LINE#>Investigating the effect of Corporate Social responsibility, Perceived service quality, and Successful relationship with Customers on customers\' loyalty in Pars Khodro<#LINE#> Behnam@Esmaeili Far,Ali@Fouladvand,Sadat@Rezaei Leila <#LINE#>34-38<#LINE#>7.ISCA-RJRS-2015-120.pdf<#LINE#>Department of Business Management, Islamic Azad University Central Tehran Branch, Tehran, Iran@Department of Business Management, Islamic Azad University Central Tehran Branch, Tehran, Iran@Department of Business Management, Islamic Azad University Central Tehran Branch, Tehran, Iran<#LINE#>8/9/2015<#LINE#>12/12/2015<#LINE#>The purpose of this study is to investigate the influence of corporate social responsibility, perceived service quality, and successful relationship with customers on customers\' loyalty. This study attempts to evaluate the loyalty of Pars Khodro (an automobile manufacture) in Tehran, Iran. Among its customers, 384 are randomly selected. Required data has been gathered by structured questionnaire. SPSS and Smart PLS are used to analyze the data. Results demonstrate that customers\' perception of corporate social responsibility, perceived service quality, and customer satisfaction has a positive and meaningful influence on customers\' loyalty.<#LINE#>Tah Hsu K. (2011).@The advertising effects of corporate social responsibility on corporate reputation and brand equity: Evidence from the life insurance industry in Taiwan.@Springer Science + Business Media B. V,1-13,.@Yes$Carroll A.B. (1999).@Corporate social responsibility: Evaluation of definitional construct.@Journal of Business and Society, 38(3), 268-295.@Yes$Mellat Parast M. and Adams S.G. (2012).@Corporate social responsibility, benchmarking, and organizational performance in the petroleum industry: A quality management perspective.@International Journal of Production Economics, 139 (2), 447-458.@Yes$Vala Mohammad Ch. (2011).@Investigating corporate social responsibility practices in Iranian organizations: An ISO 26000 perspective.@Journal of Business strategy Series, 12 (5), 257-263.@Yes$Lozano J.M. (2008).@CSR or RSC? (Beyond the humpty dumpty syndrome).@Journal of Society and Business Review, 3(3), 191-206.@Yes$Hillestad T., Xie Ch. and Haugland S.A. (2010).@Innovative corporate social responsibility and consumers’ perception of price.@Journal of Product and Brand Management, 19(6), 440-451.@Yes$Khalili S., Nouraei T. and Sharifian E. (2014).@The influence of Social responsibility of Sport corporates on distribution loyalty.@Journal of Functional Researches in Sport management, 2, 101-114.@No$Tabatabaei hanzaei S.V. and Akhavan I. (2010).@Investigating relation of internal marketing and service quality (case study: Agricultural Bank).@National Conference of management and leadership in Iranian organizations, Isfahan.@Yes$Hosseini M.H. and Ghaderi S. (2010).@The model of affective factors on Bank Service quality.@Journal of Commercial Management Vision, 3, 89-115.@No$Rahimi  Niya F., Harandi A. and Fatemi S.Z. (2012).@The influence of relationship quality with customer on perceived quality and customer loyalty (case study: 5 stars Hotel of Mashad@Public Management Researches, 17, 83-101.@No$Anderson E. and Weitz B. (1992).@The use of pledges to build and sustain commitment in distribution channels.@Journal of Marketing Research, 19(1), 18-34.@Yes$Caceres R. and Paparoidamis N. (2007).@Service quality, relationship satisfaction, trust, commitment and Business-to-business loyalty.@European Journal of Marketing, 41(7/8), 836-867.@Yes$Carlson J. and O’Cass A. (2010).@Exploring the relationship between e-service quality, satisfaction, attitudes and behaviors in content-driven e-service web sites.@Journal of Services Marketing, 24 (2), 112-117.@No$Garcia Gomez B., Gutierrez Arranz A. and Gutierrez Cillan J. (2006).@The role of loyalty programs in behavioral and affective loyalty.@Journal of Consumer Marketing, 23(7), 387-396.@Yes$Mojoudi Darzian and Abdolhadi Ghasemi (2014).@Investigating the influence of corporate social responsibility on customer loyalty (case study: Ahvazi Pasargard Bank).@Journal of Marketing Management, 22, 99-116.@No$Caruana A., Money A.H. and Berthon P.R. (2000).@Service quality and satisfaction: The moderating role of value.@Journal of Marketing, 95 (11/12), 1338-1352.@Yes
<#LINE#>A Study on Extraction and Application of Eco-Friendly Natural Dye Extracted from Flowers of Hibiscus Vittifoliusl on Silk Fabric using combination of Mordants and their Antimicrobial Activity<#LINE#>Thiyagarajan@ S.,Balakrishnan@K. <#LINE#>39-45<#LINE#>8.ISCA-RJRS-2015-121.pdf<#LINE#>Department of Chemistry, A. V. V. M. Sri Pushpam College, Poondi, Thanjavur, Tamilnadu-613503, India@Department of Chemistry, A. V. V. M. Sri Pushpam College, Poondi, Thanjavur, Tamilnadu-613503, India<#LINE#>16/9/2015<#LINE#>13/11/2015<#LINE#>In the present study dye extract was prepared from flower of Hibiscus vittifolius L was used as a source of natural dyes for dyeing of silk samples. It belongs to family malvaceae, commonly known as siru thutthi. The dye has good scope in the commercial dyeing of silk in textile industry. So in present investigation, bleached silk fabrics were dyed with different chemical mordants. The colour fastness properties dyed fabrics washing, light, rubbing fastness and perspiration fastness and K/S –value of dyed silk fabric were determined. From the comparative study of fastness properties and K/S –value of the dyed silk samples, Hibiscus vittifolius L in pre mordanting method with 4% mordant (ferrous sulphate) combination give better results. Antimicrobial activities of the dye extract were also studied.<#LINE#>Vankar P.S., Shankar R. and Wijayapala S. (2009).@Dyeing Cotton, Silk and Wool Yarn with Extract of Garnicia mangostana Pericarp.@JTATM, 6(1)@Yes$Thomas Bechtold, Rita Mussak, Amalid Mahmud-Ali, Erika Ganglberger and Susanne Geissler (2006).@Extraction of natural dyes for textile dyeing from coloured plant wastes released from the food and beverage industry.@J. Sci. Food Agric., 86, 233&#8208;242.@Yes$Purrohit A., Mallick S., Nayak A., Das N.B., Nanda B. and Sahoo S. (2007).@Developing multiple natural dyes from flower parts of Gulmohur.@Current science, 92, 12.@Yes$Neha Grover and Vidya Patni (2011).@Extraction and application of natural dye preparations from the floral parts of Woodfordia fruticosa (Linn.) Kurz.@Indian J. Nat. Prod. Resour., 2(4), 403-408.@Yes$Kamel M.M., El-Shishtawy R.M., Yussef B.M. and Mashaly H. (2005).@Ultrasonic assisted dyeing: III. Dyeing of wool with lac as a natural dye.@Dyes Pigm., 65, 103-110.@Yes$Kulkarni S.S., Gokhale A.V., Bodake U.M. and Pathade G.R. (2011).@Cotton dyeing with Natural Dye Extracted from Pomegranate Peel.@Univers. J. Environ. Res. Technol., 1(2), 135-139.@Yes$Kumaresan M., Palnisamy P.N. and Kumar P.E. (2011).@Application of Eco friendly Natural Dye Obtained from flower of Spathodea Campanulata on Silk.@Eur. J. Sci. Res., 52(3), 306-312.@Yes$Vankar P.S., Shanker R., Mahanta D. and Tiwari S.C. (2008).@Ecofriendly sonicator dyeing of cotton with Rubia cordifolia Linn.@using biomordant. Dyes Pigm., 76(1), 207-212, ISSN 0143-720876.@Yes$Habibzadeh S., Tayebi H., Eerami E., Shams A., Nateri M. Allahnia and Bahmai M. (2010).@Silk Dyeing Using Saw: Wood of the Zelkoa Forest Tree.@World Appl. J., 9(3), 295-299.@Yes$Rajni Singh, Astha Jain, Shikha Panwar, Deepti Guptha and Khare S.K. (2005).@Antimicrobial activity of some natural dyes.@Dyes Pigm., 66, 1-4.@Yes
<#LINE#>In silico analysis and comparison of phytase gene from Aspergillus niger<#LINE#>Farooqi @S.,Mubeen@H.,Raza@S. <#LINE#>46-50<#LINE#>9.ISCA-RJRS-2015-122.pdf<#LINE#>Department of Biotechnology, Faculty of Biological Sciences, University of South Asia, Lahore, Pakistan@Department of Biotechnology, Faculty of Biological Sciences, University of South Asia, Lahore, Pakistan@Department of Biotechnology, Faculty of Biological Sciences, University of South Asia, Lahore, Pakistan<#LINE#>17/9/2015<#LINE#>28/12/2015<#LINE#>Phytase gene releases extracellular phytase which degrades phytate to release phosphorus. In plants, phosphorus is primarily stored as the phytate..Expressing phytase gene to upgrade the production of phosphors is common these days. The most commonly used source of phytase gene is Aspergillus niger. To properly use phytase gene for transgenic purposes, in silico analysis is crucial to know important aspects and parameter of gene. In this study, in silico analysis and comparison of Aspergillus niger phytase gene was done using different bioinformatics approaches to identify the phytase gene.<#LINE#>Mullaney E.J., Daly C.B. and Ullah A.H. (2000).@Advances in phytase research.@Adv. Appl. Microbiol., 47, 157–199.@Yes$Lei X-G., Porres J.M., Mullaney E.J. and Brinch-Pedersen H. (2007).@Phytase: source, structure and application.@Ind Enz., 505–529.@Yes$Brinch-Pedersen H., Sørensen L.D. and Holm P.B. (2002).@Engineering crop plants: getting a handle on phosphate.@Trends Plant Sci.,7, 118–125.@Yes$Brinch-Pedersen H., Hatzack F., Stöger E., Arcalis E. and Pontopidan K. (2006).@Heat-stable phytases in transgenic wheat (Triticumaestivum L.): deposition pattern, thermostability, and phytate hydrolysis.@J Agric Food Chem., 54, 4624–4632.@Yes$Brinch Pedersen H., Olesen A., Rasmussen S.K. and Holm P.B. (2000).@Generation of transgenic wheat (Triticumaestivum L.) for constitutive accumulation of an Aspergillus phytase.@Mol Breeding., 6, 195–206.@Yes$Chiera J.M., Finer J.J. and Grabau E.A. (2004).@Ectopic expression of a soybean phytase in developing seeds of Glycine max to improve phosphorus availability.@Plant Mol Biol.,56, 895–904.@Yes$Bilyeu K.D., Zeng P., Coello P., Zhang Z.J. and Krishnan H.B. (2008).@Quantitative conversion of phytate to inorganic phosphorus in soybean seeds expressing a bacterial phytase.@Plant Physiol.,146, 468–477.@Yes$Ponstein A.S., Bade J.B., Verwoerd T.C., Molendijk L. and Storms J. (2002).@Stable expression of phytase (phyA) in canola (Brassica napus) seeds: towards a commercial product.@Mol breeding, 10, 31–44.@Yes$Peng R.H., Yao Q.H., Xiong A.S., Cheng Z.M. and Li. Y. (2005).@Codon-modifications and an endoplasmic reticulum-targeting sequence additively enhance expression of an Aspergillus phytase gene in transgenic canola.@Plant Cell Rep., 25, 124–132.@Yes$Chen R.M., Xue G.X., Chen P., Yao B. and Yang W.Z. (2008).@Transgenic maize plants expressing a fungal phytase gene.@Transgenic Res., 17, 633–643.@Yes$Haros M., Bielecka M. and Sanz Y. (2005).@Phytase activity as a novel metabolic feature in Bifidobacterium.@FEMS Microbiol. Lett., 247, 231-239.@Yes$Li M., Osak M., Madhusudana Rao I. and Tadano T. (1997).@Secretion of phytase from the roots of several plant species under phosphorus-deficient conditions.@Plant Soil., 195, 161–169.@Yes$Hayes J., Simpson R. and Richardson A. (2000).@The growth and phosphorus utilization of plants in sterile media when supplied with inositol hexaphosphate, glucose 1-phosphate or inorganic phosphate.@Plant Soil., 220, 165–174.@Yes$Richardson A.E., Hadobas P.A. and Hayes J.E. (2000).@Acid phosphomonoesterase and phytase activities of wheat (Triticumaestivum L.) roots and utilization of organic phosphorus substrates by seedlings grown in sterile culture.@Plant Cell Environ., 23, 397–405.@Yes$Idriss E.E., Makarewicz O., Farouk A., Rosner K. and Greiner R. (2002).@Extracellular phytase activity of Bacillus amyloliquefaciens FZB45 contributes to its plant-growth-promoting effect.@Microbiol., 148, 2097–2109.@Yes$Unno Y., Okubo K., Wasaki J., Shinano T. and Osaki M. (2005).@Plant growth promotion abilities and microscale bacterial dynamics in the rhizosphere of Lupin analysed by phytate utilization ability.@Environ Microbiol.,7, 396–404.@Yes$Richardson A.E., Hadobas P.A. and Hayes J.E. (2001).@Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate.@Plant J., 25, 641–649.@Yes$Mudge S.R., Smith F.W. and Richardson A.E. (2003).@Root-specific and phosphate-regulated expression of phytase under the control of a phosphate transporter promoter enables Arabidopsis to grow on phytate as a sole P source.@Plant Sci., 165, 871–878.@Yes$Aspergillus niger strain BCC18081 PhyA (phyA) mRNA, complete cds (2015).@GenBank: EU786167.1.@http://www.ncbi.nlm.nih.gov/nuccore/EU7861672www.ncbi.nlm.nih.gov (2015).@Yes$www.ncbi.nlm.nih.gov (2015).@https://www.ncbi.nlm.nih. gov/Structure/seqr/@/view/190589932/tree@Yes$www.ncbi.nlm.nih.gov (2015).@https://www.ncbi.nlm.nih. gov/Structure/seqr/@/view/190589932/tree@Yes$Protein: B3VPB3_ASPNG (B3VPB3) (2015).@http://pfam.xfam.org/protein/B3VPB3@undefined@Yes$Leung M. (2004).@Persistence of -propeller phytase in soil and its implication in phosphorus mobilization, The HKU Scholar Hub, University of Hong Kong.@Zoology Thesis.@Yes$Morya V.K., Yadav S., Kim E.K. and Yadav D. (2012).@In silico characterization of alkaline proteases from different species of Aspergillus.@Applied Biochem and Biotechnol., 166, 243–257.@Yes
@Review Paper
<#LINE#>Role of Forensic Statement Analysis in Questioned Document: A Review<#LINE#>Jasani@ Nirali,Sharma@Shweta,Patel@Ankita <#LINE#>51-54<#LINE#>10.ISCA-RJRS-2015-114.pdf<#LINE#>Institute of Research and Development, Raksha Shakti University, New Mental Corner, Meghaninagar Ahmedabad, Gujrat, 380016, India@Institute of Research and Development, Raksha Shakti University, New Mental Corner, Meghaninagar Ahmedabad, Gujrat, 380016, India@Institute of Research and Development, Raksha Shakti University, New Mental Corner, Meghaninagar Ahmedabad, Gujrat, 380016, India<#LINE#>14/8/2015<#LINE#>22/11/2015<#LINE#>Forensic statement analysis, involves examination of the words, word frames and content of the statements given during legal proceedings as it is anticipated that while being deceitful, people use different words, phrases, word frames and content in their statements. Basis for Forensic statement analysis depends on the fact that people do not lie. Individuals do speak truth in general course. Even while they lie, they will tell a partial truth. Since, it is easier to speak up the partial truth than to completely concoct a statement. The present paper reviews the comparison between words of subject\'s statement and other words used in the same statement, by dividing them into smaller individual elements to retrieve any important  information or deception in that statement. The technique of forensic statement analysis, which is a bridge between linguistic polygraph and crime scene profiling, enables the IO (Investigating Officer) to get the information about the suspect and also to know the root cause of the crime which is used primarily for detecting deception. The information extracted can be used for further interviews/interrogations. In India, Forensic statement analysis is an upcoming technique which has not been explored much. Although its strength can be judged based on its usage in a handful of popular cases. Minute examination with effective detection of deception only from the statement structure helps the forensic examination to step ahead in investigation.<#LINE#>Kohnken G. and Steller M. (1988).@The evaluation of the credibility of child witness statements in the German procedural system.@in G. Davies and J. Drinkwater (Eds.), The child witness: Do the courts abuse children?. Leicester, England: British Psy. Soc., 37–45.@Yes$Steller M. and Kohnken G. (1989).@Criteria- based statement analysis.@D.C. Raskin (Ed.). Psychological methods in Criminal investigation and evidence, 217-245.@Yes$Leo Richard A. (2008).@Police interrogation and American justice.@351-352.@Yes$Picornell I. (2013).@The Flexible Liar - A Strategy for deception detection in written witness statements.@ACFE  European fraud Conference Proceeding, Czech Republic. http://www.lesli-journal.org/ojs/index.php/ lesli/article/view/2.@Yes$De Paulo B.M., Stone J.L. and Lassiter G.D. (1985).@Deceiving and detecting deceit. B.R. Schenkler (Ed.).@The self and social life. New York: McGraw-Hill, 323–370.@Yes$Raskin D.C. and Esplin P.W. (1991).@Statement Validity Assessment: Interview procedures and content analysis of children’s statements of sexual abuse.@Behavioral Assessment, 13, 265–291.@Yes$Steller M. and Boychuk T. (1992).@Children as witnesses in sexual abuse cases: Investigative interview and assessment techniques.@H. Dent and R. Flin (Eds.). Children as witnesses New York, NJ: John Wiley and Sons, 47–73.@Yes$Yuille J.C. (1988).@The systematic assessment of children’s testimony.@Canadian Psychology, 29, 247–262.@Yes$Undeutsch U. (1967).@Beurteilung der Glaubhaftigkeit von Aussagen.@[Veracity assessment of statements]. In U. Undeutsch (Ed.), Handbuch der Psychologie: Forensische Psychologie, 11, 26-181.@Yes$Undeutsch U. (1982).@Statement reality analysis.@A. Trankell (Ed.), Reconstructing the past: The role of psychologists in criminal trials. Deventer, the Netherlands: Kluwer, 27–56.@Yes$Trankell A. (1972).@Reliability of evidence.@Stockholm, Beckman.@No$Arntzen F. (1982).@Die Situation der Forensischen Aussagenpsychologie in der Bundesrepubliek Deutschland.@[The state of forensic psychology in the Federal Republic of Germany]. In A. Trankell (Ed.), Reconstructing the past: The role of psychologists in criminal trials. Deventer, the Netherlands: Kluwer,107-120.@Yes$Ruby C.L. and Brigham J.C. (1998).@Can Criteria-Based Content Analysis distinguish between true and false statements of African-American speakers?@Law and Human Behavior, 22, 369–388.@Yes$Boychuk T. (1991).@Criteria-based content analysis of children’s statements about sexual abuse.@Doctoral dissertation, Arizona State University, 52(6-A), 2272.@Yes$Anson D.A., Goldings S.L. and Gully K.J. (1993).@Child Sexual Abuse Allegations: Reliability of Criteria-Based Content Analysis.@Law and Human Behavior, 17, 331-34.@Yes$Vrij Aldert (2008).@Detecting Lies and Deceit: Pitfalls and Opportunities.@Chichester, England: John Wiley and Sons, 2, 290-291.@Yes$deTurck M.A. and Miller G.R. (1985).@Deception and arousal: Isolating the behavioural correlates of deception.@Human Communication Research, 12, 181-201.@Yes$Lamers Winkelman, Francien and Buffing Frank  (1996).@Children’s Testimony in the Netherlands- A study of Statement Validity Analysis.@Criminal Justice and Behavior, 23(2), 304-321.@Yes$Landry K. and Brigham J. (1992).@The effect of training in Criteria-Based Content Analysis on the ability to detect deception in adults.@Law and Human Behaviour, 16, 663-676.@Yes$Zapamiuk J., Yuille J.C. and Taylor S. (1993).@Assessing the credibility of true and false statements.@Int. J. of Law and Psy.@Yes$Kohnken G. (1985).@Speech and deception of eyewitnesses: An information processing approach.@in F. L. Denmark. Socioecological psychology and the psychology of women, North Holland, Elsevier Science Publishers, 4, 117-139.@Yes$Macdonald J.M. and Michaud D.L. (1987).@The confession: Interrogation and criminal profiles for police officers@Denver: Apache press.@Yes$Hollien H. (1990).@The acoustics of crime. 7th new science of forensic phonetics.@New York: Plenum Press.@No$Carpenter R. (1990).@The statistical profile of language behaviour with Machiavellian intent or while experiencing caution and avoiding self-incrimination.@Annals of the New York Academy of Sciences, 606, 5-16.@Yes$Gudjonsson G. (1992).@The psychology of interrogations, confessions, and rearming.@Chichester: John Wiley and Son.@Yes$Charles A. Morgan III, Colwell Kevin and Gary A. Hazlett (2011).@Efficacy of Forensic Statement Analysis in Distinguishing Truthful from Deceptive Eyewitness Accounts of Highly Stressful Events.@J Forensic Sci, 56(5).@Yes$Vaya S.L. (2013).@A Project Report submitted to Chief Forensic Scientist, DFS, MHA, New Delhi.@DFS, Gandhinagar, National Resource Center for Forensic Psychology.@Yes