@Research Paper
<#LINE#>Potential of M-Commerce of Agricultural Inputs in Kolar, Karnataka, India<#LINE#>Kittur@Nazhat,Jain@Rajendra,Kittur@Parveen <#LINE#>1-10<#LINE#>1.ISCA-RJRS-2016-039.pdf<#LINE#>Oriental School of Business Management, Oriental University, Indore, Madhya Pradesh, India@Oriental University, Indore, Madhya Pradesh, India@Chameli Devi Group of Institutions, Indore, Madhya Pradesh, India<#LINE#>28/4/2016<#LINE#>29/6/2016<#LINE#>There exists a huge dependency on ICT in the agricultural input scenario. Getting quality inputs at the best price is the biggest challenge that today’s farmers face. Growing smartphone penetration in the rural regions of India is encouraging the growth of m-commerce models to focus on agribusiness. Such a scenario can revolutionize the Indian agriculture. Almost all the farmers now own a mobile phone out of which 40% are smart phones with internet connections. This highly potential reach, if properly guided can bring about modernization in the buying of agri inputs by the farmers. 30% of the farmers in Karnataka have adapted to online shopping for their pre-planned purchases. Tech-savvy farmers research online and then make decisions. Younger and educated farmers in the state tend to use internet for making farm related decisions. Agriculture is a region specific activity and hence the potential for agri input related m-commerce has to be region specific. Understanding where such m-commerce platforms will add value to the distribution channels for agri input is a main challenge. Another challenge is the provision of logistics without increasing the farmer price and cash on delivery payments in rural areas.<#LINE#>NSSO (National Sample Survey Organisation (2005).@Situation Assessment Survey of Farmers.@Government of India, New Delhi.@No$Mittal S., Gandhi S. and Tripathi G. (2010).@Socio-economic Impact of Mobile Phone on Indian Agriculture.@ICRIER Working Paper no, 246, International Council for Research on International Economic Relations, New Delhi.@Yes$Saravanan R. (2011).@A Report on Tribal Farmers Personal and Socio-Economic Information, Communication Pattern and Information Needs Assessment.@e-Agrikiosk Publication No. 1.@No$Sulaiman R.V., Hall A., Kalaivani N.J., Dorai K. and Reddy T.S.V. (2011).@Necessary but not Sufficient: Information and Communication Technology and its Role in Putting Research into Use.@RIU (Research in Use) Discussion Paper 16, UK.@Yes$Purushothaman C., Kavaskar M., Reddy Y.A. and Kanagasabapathi K. (2003).@Role of mass media in agriculture.@Basavaprabhu, J., D. Diapk, K. Ghadei and G.C. Kendadmath (eds.): International Conference on Communication for Development in the Information Age: Extending the Benefits of Technology for All. Department of Extension Education, Institute of Agricultural Sciences, Banaras Hindu University, Varanasi, India.@Yes$Kameswari V.L.V., D. Kishore and V. Gupta (2011).@ICTs for Agricultural Extension: A Study in the Indian Himalayan Region.@The Electronic Journal on Information Systems in Developing Countries, 48 (3), 1-12.@Yes$Glendenning C.J., Babu S. and Asenso-Okyere K. (2010).@Review of agricultural Extension in India.@Are Farmers’ information needs being met? IFPRI Discussion Paper 1048, December 2010. IFPRI, Washington, DC.@Yes$Mittal S., Gandhi S. and Tripathi G. (2010).@Socio-economic Impact of Mobile Phone on Indian Agriculture.@ICRIER Working Paper no., 246, International Council for Research on International Economic Relations, New Delhi.@Yes$Mittal S. (2012).@Modern ICT for Agricultural Development and Risk Management in Smallholder Agriculture in India.@Working Paper No. 3., Socioeconomics, CIMMYT, Mexico.@Yes$Sulaiman R.V., Hall A., Kalaivani N.J., Dorai K. and Reddy T.S.V. (2011).@Necessary but not Sufficient: Information and Communication Technology and its Role in Putting Research into Use.@RIU (Research in Use), Discussion Paper, 16, UK.@Yes
<#LINE#>Simultaneous TG-DTA Study of Cellulose Ethers in Flame Retardant Formulations<#LINE#>Viju Kumar @V.G. <#LINE#>11-19<#LINE#>2.ISCA-RJRS-2016-041.pdf<#LINE#>Department of Chemistry, University College, Trivandrum, Kerala - 695034, India<#LINE#>30/4/2016<#LINE#>29/5/2016<#LINE#>Cellulose ethers have very good compatibility and solubility characteristics and are useful for research communityand industry. The present investigation purports the application of proven flame retardant formulations on cellulose ethers such as methylcellulose, ethylcellulose, hydroxyethylcellulose, carboxymethylcellulose sodium salt and hydroxypropylmethylcellulose. Binary formulations of cellulose ethers with inorganic additives likezinc(II) chloride, cadmium (II) bromide, boric acid, borax, diammonium hydrogenphosphate, sodium dihydrogenphosphate and ammonium nickel (II) sulphate were prepared. The simultaneous TG, DTG, and DTA curves were recorded in dynamic air. The phenomenological and kinetic aspects of thermal decomposition are studied in detail. The thermal behavior of binary systems is explained based on increased char and decreased volatile formation. Cellulose ethers show two-stage decomposition and the DTG peaks can be shifted using appropriate additives. To assess the thermal characteristics in a quantitative manner, the kinetic parameters such as order parameter, energy of activation, pre-exponential factor and entropy of activation for the decomposition stages have been determined using Coats-Redfern equation.  The mechanism of thermal decomposition stages has also been elucidated, and most of the reactions follow random nucleation with one nucleus on each particle.<#LINE#>Cathleen Baker (1982).@Methylcellulose & Sodium Carboxymethylcellulose: Uses in Paper Conservation.@The Book and Paper Group Annual, 1.@Yes$Xin-Gui Li, Mei-Rong Huang and He Bai (1999).@Thermal decomposition of cellulose ethers.@Journal of Applied Polymer Science, 73, 2927-2936.@Yes$Coats A.W. and Redfern (1964).@Kinetic parameters from thermogravimetric data.@201, 68-69@Yes$Satava V. (1971).@Mechanism and kinetics from non-isothermal TG traces.@Thermochim. Acta., 2, 423-428.@Yes$Brown A.L., Dayton D.C. and Daily J.W. (2001).@A study of cellulose pyrolysis chemistry and global kinetics at high heating rates.@Energy & Fuels., 15, 1286-1294.@Yes$Browne F. L. (1958).@Theories of the combustion of wood and its control.@, U.S Forest Products Laboratory Report, No. 2136., Madison., Wisconsin.@Yes
<#LINE#>Role of HBA1C levels and Anti Diabetic Medication on Crown/root ratio of Maxillary/ Mandibular Abutment Teeth and  on Residual Mandibular bone Height among young Saudi University Diabetic and non Diabetic Students in  King Khalid University, Kingdom of Saudi Arabia<#LINE#>Leoney@Antony,Leoney@Antony <#LINE#>20-26<#LINE#>3.ISCA-RJRS-2016-043.pdf<#LINE#>Department of Prosthetic Dentistry, College of Dentistry, King Khalid University, Kingdom of Saudi Arabia@Department of Prosthodontics, Rajah muthiah dental college and Hospital, Annamalai University, Chidambaram,Tamil Nadu, India<#LINE#>28/4/2016<#LINE#>2/6/2016<#LINE#>The advancement in science and technology is indispensible to mankind but the very boon to mankind has become a bane due to the fact that man has become addicted to modern gadgets and his life has changed. This drastic change in life style has led to many life style diseases namely diabetes, hypertension, cardiovascular diseases to name a few. One of the most common types of life style related diseases is diabetes mellitus. The incidence of diabetes mellitus especially Type 2 diabetes mellitus i.e. Non insulin dependent diabetes mellitus (NIDDM) is of epidemic proportions. Insulin dependent diabetes mellitus (IDDM) is also on the rise. Diabetes mellitus has a potential resorptive effect on dental alveolar bone because of the fact that periodontitis is a common manifestation in this disease. Loss of tooth is a sequelae of periodontitis. Hence diabetic patients require frequent requirement for prosthodontics treatment for replacement of missing teeth. Various antidiabetic drugs have also come into routine use by both IDDM and NIDDM patients. This present study will bring to light the influence of glycosylated haemoglobin (HbA1c) levels and antidiabetic usage on crown root ratios of abutment for fixed prosthodontic treatment. The study also will throw a light on residual mandibular alveolar bone height which could be used for implant placement.<#LINE#>Al-Emadi A, Bissada N, Farah C, Siegel B and Al-Zaharani M. (2006).@Systemic diseases among patients with and without alveolar bone loss.@Quintessence Int., 37(10), 761-5.@Yes$Al-Zahrani MS and Kayal RA.(2006).@Alveolar bone loss and reported medical status among a sample of patients at a Saudi dental school.@Oral Health Prev Dent., 4(2), 113-118.@Yes$Taylor GW, Burt BA, Becker MP, Genco RJ, Shlossman M, Knowler WC and Pettitt DJ. (1998).@Non-insulin dependent diabetes mellitus and alveolar bone loss progression over 2 years.@J Periodontol., 69(1), 76-83.@Yes$Watanabe P. C. A., Farman A., Watanabe M. G. D. C. and Issa J. P. M. (2008).@Radiographic signals detection of systemic disease. Orthopantomographic radiography.@Int. J. Morphol., 26(4), 915-926.@Yes$Wical K.E and Swoope C. C.@Studies of residual ridge resorption Part I use of panoramic radiographs for evaluation and classification of mandibular resorption.@J. Prosthet. Dent, 32, 7-12.@Yes$Karaagaclioglu L and Ozkan P. (1994).@Changes in mandibular ridge height in relation to aging and length of edentulism period.@Int .J. Prosthodont, 7, 368-371.@Yes$Mandya Somashekar Jagadeesh, Raghunath. A. Patil and Puttaraj T. Kattimani. (2013).@Clinical Evaluation of Mandibular Ridge Height In Relation To Aging and Length of Edentulism.@Journal of Dentistry and Medical Science, 3, 4, 44-47.@Yes
<#LINE#>A Study on Family Status of Selected Street Children<#LINE#>E.@Jaya*,T.@Malliga <#LINE#>27-30<#LINE#>4.ISCA-RJRS-2016-047.pdf<#LINE#>Dept. of History, Vellalar College of Education for Women, Maruthi Nagar, Thindal Erode-638 012, Tamil Nadu, India@Dept. of History, Vellalar College of Education for Women, Maruthi Nagar, Thindal Erode-638 012, Tamil Nadu, India<#LINE#>29/12/2015<#LINE#>30/6/2016<#LINE#>Many children are escaped from the home because of poor family background. Then the main reason for the children to run away from home is the existing socio Psychological environment within the family. Street children are the products of broken Families are those in which there are continuous conflicts between the husband and wife. The sample comprised 100 street children (75 boy’s and 25 girls) in the age group of 10 to 15 years. The researcher chosen the sample was selected through random sampling from the commercial zones, railway platforms, bus stands and Rein Basera established by state government for destitute children of Patna, Capital of Bihar. An interview schedule was developed by the investigator to collect information regarding family status of the street children. Percentage analysis was used in this study.<#LINE#>Shrivastava A.K. (1995).@India’s street children.@New Delhi, Final Report, 10.@No$Aptekar I. (1994).@Street Children in the Developing world; a Review of their Condition.@International Social Work, cross research, 28, 3, 205 – 206.@Yes$Raghu P. and Prasad B.D. (1995).@Children without roots: a study of street children in Visakhapatnam city.@Monthly opinion Survey, 40, 9, 22.@Yes$Subramanyam Y.S. and Sondhi P. (1990).@Child porters: Psychological profile of street children.@International Journal of Social Work, 10, 1, 15.@Yes$HUDCO (1994).@Housing and Urban Development Corporation.@HUDCO, A Govt. of India Enterprise, New Delhi,136.@No
<#LINE#>Emotional Intelligence and Occupational Stress among School Teachers in Haryana, India<#LINE#>Punia*@Nomita,Balda@Shanti,Poonam@ <#LINE#>31-35<#LINE#>5.ISCA-RJRS-2016-048.pdf<#LINE#>Human Development and Family Studies, I.C. College of Home Science, CCSHAU, Hisar, Haryana – 125004, India@Department of Human Development and Family Studies, CCS HAU Hisar, India@Human Development and Family Studies, I.C. College of Home Science, CCSHAU, Hisar, Haryana – 125004, India<#LINE#>19/4/2016<#LINE#>4/6/2016<#LINE#>The present study aims at exploring the relationship between emotional intelligence and occupational stress among the school teachers of Haryana state. The study was conducted in five cultural zones of Haryana state - Khadar, Nardak, Bagar, Mewat and Ahirwal. From each district headquarter; two separate lists of schools, one list for schools affiliated to Central Board of Secondary Education (CBSE) and the other list for schools affiliated to Board of School Education, Haryana (BSEH) were prepared. From these schools, lists of primary teachers (PRT), trained graduate teachers (TGT) and post graduate teachers (PGT) were prepared separately for CBSE and BSEH affiliated schools. To represent the sample from teachers of CBSE affiliated schools, from one cultural zone, 15 PRT, 15 TGT and 15 PGT were selected at random. Similar procedure was adopted for selecting teachers from BSEH affiliated schools from the same zone. Thus, from one cultural zone a total of 90 teachers, 45 teachers from CBSE affiliated schools and 45 teachers from BSEH affiliated schools were selected. Similar procedure was adopted to select teachers from other four cultural zones. Total sample constituted of 450 teachers, 225 teachers from Central Board of Secondary Education (CBSE) affiliated schools and 225 teachers from Board of School Education Haryana (BSEH) affiliated schools. Emotional Intelligence of school teachers was assessed with the help of Emotional Intelligence Scale by Hyde et al. and Occupational Stress of school teachers was assessed with the help of Occupational Stress Index developed by Srivastava and Singh. Results revealed that teachers with higher levels of Emotional Intelligence experience lower levels of occupational stress. The results also indicated that the personal variables- sex, age, educational levels, years of teaching experience and types of school, play a significant role in the perception of various sources of stress related to the teaching profession.<#LINE#>Cooper C.L. (1998).@Theories of Organisational Stress.@New York, Oxford University Press.@Yes$Dick F., Bates E., Wulfeck B., Utman J.A., Dronkers N.  and Gernsbacher M.A. (2001).@Language deficits, localization, and grammar: evidence for a distributive model of language breakdown in aphasic patients and neurologically intact individuals.@Psychological Review, 108 (4), 759–788.@Yes$Travers J.C. and Cooper C.L. (1996).@Teachers Under Pressure: Stress in the Teaching Profession.@Routledge, London and Neywork.@Yes$Schonfeld I. (1990).@Psychological distress in a sample of teachers.@The Journal of Psychology, 123: 321-338.@Yes$Borg M. (1990).@Occupational stress in British educational settings: A review.@Educational Psychology, 10: 103-126.@Yes$Dong Q. (2006).@Emotional Intelligence, Employee Trust and Job satisfaction.@Competition Forum, 4(2), 381, Retrieved from www. Proquest.com.@Yes$Singh R. and Kumar P. (2012).@Survey of job satisfaction and stress among teachers of different faculties of Jawahar Navodaya Vidyalayas of India.@International Journal of Research Pedagogy And Technology In Education And Movement Science,. Retrieved from http://ijems.net/issue 02Dec.IJEMSp08.pdf@Yes$Gardner L. (2005).@Emotional intelligence and occupational stress.@PhD dissertation. Swinburne University, Melbourne, Australia.@Yes$Mehta A. (2013).@A study of how emotional intelligence reduces occupational stress among teachers.@International Monthly Refereed Journal of Research in Management & Technology, 1, 19-28.@Yes$Jeyaraj S.S. (2013).@Occupational stress among the teachers of the higher secondary schools in Madurai district, Tamil Nadu.@IOSR Journal of Business and Management, 7(5), 63-76.@Yes$Miller K., Greyling M., Cooper C., Lu L., Sparks K. and Spector P.E. (2000).@Occupational stress and gender: A cross-cultural study.@Stress Medicine, 16 (5), 271–278.@Yes$Olivier M.A.J. and Venter D.J.L. (2003).@The extent and causes of stress in Teachers in George region.@South African Journal of Education, 23(3): 186-192.@Yes$Reddy G.L. and Anuradha R.V. (2013).@Occupational stress of higher secondary teachers working in Vellore district.@International Journal of Educational Planning & Administration, 3 (1), 9-24.@Yes
@Research Article
<#LINE#>Earth Climate and Plants as Climate Change Mitigators<#LINE#>Rathore@Aparna <#LINE#>36-40<#LINE#>6.ISCA-RJRS-2016-042.pdf<#LINE#>Department of Botany, Kanoria P. G. Mahila Mahavidyalaya, Jaipur, Rajasthan-302015, India<#LINE#>2/5/2016<#LINE#>4/6/2016<#LINE#>Climate change is one of the most potent universal environmental challenges faced by humankind with close connection for food production, natural ecosystems, freshwater supply, health, etc. The changing lifestyle (industrialization, urbanization, population explosion, changed eating habits, more fuel dependency etc.) has resulted in overburdening of the ecosystem resources and lot of greenhouse gas emissions resulting into global warming and climate change. According to recent scientific estimation, the earth’s climate system has changed both universally and regionaly since pre-industrial time. Scientific data shows that most of the warming (0.1°C per decade) experiential over the last 50 years, is due to activities of man. Climate change is affecting the vegetation and leading to their habitat fragmentation, phenological variations, spread of invasive species, increased number of forest fires, pest attacks and extinctions. This review article discusses the impacts of climate change on plants and how plants could be used as mitigators of climate change. Trees can prevent climate change by sequestering carbon dioxide, a very potent greenhouse gas and storing it in their biomass, in roots, as phytoliths, bioenergy crops and by afforestation, reforestation and agroforestry practices. Thus by planting trees and leading a fuel efficient and sustainable lifestyle can further combat climate change.<#LINE#>Sathaye J., Shukla P. R. and Ravindranath N. H. (2006).@Climate change, sustainable development and India: Global and national concerns.@Current Science, 90, 314-325.@Yes$Scherr S. J. and Sthapit S. (2009).@Farming and land use to cool the planet.@State of the World 2009 Into a warming world. World watch Institute, Washington DC, 30-49@Yes$Ravindranath N. H., Joshi N. V., Sukumar R. and Saxena A. (2006).@Impact of Climate Change on Forests in India.@Current Science, 90, 354-361.@Yes$Anonymous (2009).@Impact of Climate Change on the vegetation of Nainital and its surroundings.@NBRI Newsletter, 36, 25-31.@No$Gates D. M. (1990).@Climate change and forests.@Tree Physiology, 7, l-5.@Yes$Aitken S. N., Yeaman S., Holliday, J. A., Wang, T. and Curtis-McLane, S. (2008).@Evolutionary Applications. Adaptation, migration or extirpation: climate change outcomes for tree populations.@Synthesis, 1, 95-111.@Yes$Houghton R. A. (2007).@Balancing the global carbon budget.@Annual Review of Earth and Planetary Sciences, 35, 313-347.@Yes$Lavania U. C. and Lavania S. (2009).@Sequestration of atmospheric carbon into subsoil horizons through deep-rooted grasses – vetiver grass model.@Current Science,  97, 618-619.@Yes$Jansson C., Wullschleger S. D., Kallur, U.C., and Tuskan G. A. (2010).@Phytosequestration: Carbon Biosequestration by Plants and the Prospects of Genetic Engineering.@Bio Science, 60, 685-696.@Yes$Kumar R., Pandey S. and Pandey A. (2006).@Plant roots and carbon sequestration.@Current Science, 91, 885-890.@Yes$Parr J., Sullivan L., Chen B., Ye G. and Zheng W. (2010).@Carbon bio-sequestration within the phytoliths of economic bamboo species.@Global Change Biology, 16(10), 2661-2667.@Yes$Khan S. A. and Rashmi (2008).@Algae a novel source of renewable energy and carbon sequestration.@Akshay Urja, 2, 14-18.@Yes$Rathore A. and Jasrai Y. T. (2013).@Urban Green Patches as Carbon Sink: Gujarat University Campus, Ahmedabad.@Indian Journal of Fundamental and Applied Life Sciences, 3(1), 208-213.@Yes$Osborbne C. P., Royer D. L. and Beerling D. J. (2004).@Adaptive role of leaf habit in extinct polar forests.@Interational Forestry Review, 6 (2), 181-186.@Yes$Negi J. D. S., Manhas R. K. and Chauhan P. S. (2003).@Carbon allocation in different components of some tree species of India: A new approach for carbon estimation.@Current Science, 85,101-104.@Yes$Phani Kumar G., Murkute A. A., Gupta S., and Singh B. S. (2009).@Carbon sequestration with special reference to agroforestry in cold deserts of Ladakh.@Current Science, 97, 1063-1068.@Yes$Farage P., Pretty J. and Ball A. (2003).@Biophysical Aspects of Carbon Sequestration in Drylands.@University of Essex, UK, 25.@Yes$Rathore A. and Jasrai Y. T. (2013).@Growth and chlorophyll levels of selected plants with varying photosynthetic pathways (C3, C4 and CAM).@International Journal of Scientific & Engineering Research, 4 (2), 1-4.@Yes$Mohapatra A. K. (2008).@Forestry based carbon sequestration option for India.@Indian Journal of Forestry, 31, 483-490.@Yes$Resh S. C., Binkley D. and Parrotta J. A. (2002).@Greater Soil Carbon Sequestration under Nitrogen-fixing Trees Compared with Eucalyptus Species.@Ecosystems, 5, 217–231.@Yes$Ramachandran A., Jayakumar S., Haroon R. M., Bhaskaran A. and Arockiasamy D. I. (2007).@Carbon sequestration: estimation of carbon stock in natural forests using geospacial technology in the Eastern Gats of Tamil Nadu, India.@Current Science, 92, 323-331.@Yes$Koul D. N. and Panwar P. (2008).@Prioritizing land management options for carbon sequestration potential.@Current Science, 95, 658-663.@Yes$Leena A., Jasrai Y.T. and Garge S.K. (2003)@Green Belt, Plant Scavengers for Combating Air Pollution.@Air Pollution Development at What Cost? Eds: Yogesh T. Jasrai and Arun Arya, Daya Publishing House, Delhi, 32-40.@Yes
@Short Communication
<#LINE#>Synthesis, Characterization and Biological Studies of a new Cu(II) Complex Derived from 9-Anthraldehyde and 2-Aminopyridine<#LINE#>Vidya@V.G. <#LINE#>41-43<#LINE#>7.ISCA-RJRS-2016-040.pdf<#LINE#>Department of Chemistry, University College, Trivandrum, Kerala - 695034, India<#LINE#>30/4/2016<#LINE#>4/6/2016<#LINE#>In the present study Schiff base and Cu (II) complex have been synthesized and reported. The Schiff base is prepared by condensing 2-aminopyridine and 9-anthraldehyde. The complex was synthesized by reaction of CuCl2.2H2O with Schiff base. These compounds have been characterized byelemental analysis, magnetic measurement, molar conductance, FT-IR, UV-Vis spectra, 1H NMR, electronic, mass and ESR spectroscopic studies. Analytical data suggests the molecular formula [Cu(L)2Cl2] for Cu(II) complex. The IR spectral data suggest that Schiff base acts as a neutral monodentate ligand towards Cu(II) in its complex.  The electronic spectral data and magnetic moment value agree with the tetrahedral geometry for the complex. The Schiff base and complex were screened for antibacterial and antifungal studies. The Cu(II) complex exhibit increased antimicrobial activity than Schiff base.<#LINE#>Hao Y.,  Yong Y.,  Qiaoyu L., Tieliang M.,  Jun X.,   Taofeng Z.,  Jing X., Wenjiao Z., Zhihong C., Kun D., Jiancui H. and Lei J. (2016).@Ternary Dinuclear Copper(II) Complexes of a Reduced Schiff Base Ligand with Diimine Coligands: DNA Binding, Cytotoxic Cell Apoptosis, and Apoptotic Mechanism.@Chemical Biology & Drug Design, 87(3), 398–408.@Yes$Sondhi S.M., Dinodia M. and Kumar A. (2006).@Synthesis, anti-inflammatory and analgesic activity evaluation of some amidine and hydrazone derivatives.@Bioorg. Med Chem., 14, 4657-63.@Yes$Sousa C., Freire C. and de Castro B. (2003).@Synthesis and Characterization of Benzo-15-Crown-5 Ethers with Appended N2O Schiff Bases.@Molecules, 8(12), 894-900.@Yes$Yildirm L.T. and Atakol O. (2002).@Synthesis, Characterization and Spectroscopic Studies of A Novel 2-[(E)-[(2,4-dichlorophenyl)imino]methyl]phenol Schiff Base and Its Metal Complexes.@Cryst. Res. Technol., 37(12), 1352.@Yes$Pui A. (2002).@Binding of molecular dioxygen to the Cobalt (II) complexes in nonaqueous solution.@Croat.Chem. Acta., 75(1), 165-173.@Yes$Spinu C. and Kriza A. (2000).@Co(II), Ni(II) and Cu(II) Complexes of Bidentate Schiff Bases.@Acta Chim. Slov., 47, 179-185.@Yes$Bellam S., Muthalagu V., Fei Z., Song G. and Jagadese J.V. (2005).@Copper (II) Complexes of Schiff-Base and Reduced Schiff-Base Ligands: Influence of Weakly Coordinating Sulfonate Groups on the Structure and Oxidation of 3,5-DTBC.@European Journal of Inorganic Chemistry,. 22, 4635–4645.@Yes$Hajar S., Shahriare G., Kheyrollah M. and Farshid S. (2010).@Novel mercury (II) complexes of Schiff base ligands: Synthesis and spectral characterization.@Der Chemica Sinica., 1(1), 39-44.@Yes$Geary W.J. (1971).@The use of conductivity measurements in organic solvent for characterization of coordination compounds.@Coord. Chem. Rev., 7, 81-122@Yes$Muthu T.M., Mereiter K., Kirchner K., Bhat B.R. and Karrembu R. (2009).@Synthesis, crystal structures and spectral studies of square planar nickel (II) complexes containing an ONS donor Schiff base and triphenylphosphine.@Polyhedron, 28, 2157.@Yes$Lever A.B.P. (1984).@Inorganic Electronic Spectroscopy.@2nded, Elsevier, Amsterdam.@Yes$Burton L.W., Morgan L.O., Carlin R.L. and Marcel D. (1968).@Transition metal chemistry.@(Ed.), New York, 4.@Yes$Abdalla M.K. and Hadi M.M. (2012).@Synthesis, Spectral, Thermal Analyses and Molecular Modeling of Bioactive Cu(II)-complexes with 1,3,4-thiadiazole Schiff Base Derivatives. Their Catalytic Effect on the Cathodic Reduction of Oxygen.@Int. J. Electrochem. Sci., 7, 10074-10093.@Yes$Narang K.K. and Singh V.P. (1993).@Synthesis, Characterization, Thermal Studies and Biological Activity of Iron(III) Complexes with some Acylhydrazines.@Synth. React. Inorg. Met.Org. Chem., 23, 971.@Yes$Jugal K.P. and Rajni C. (2013).@Synthesis and Characterization of Metal Tribromoacetates and Their Alkali Metal Derivatives.@Journal of Chemistry, 2013, 392310.@Yes$Elena P., Diana-Carolina I., Sergiu S., Codru&#539;a P., Mihaela B., Aurelian G. and Tudor R. (2015).@Synthesis, Characterization, Crystal Structure and Antimicrobial Activity of Copper(II) Complexes with the Schiff Base Derived from 2-Hydroxy-4-Methoxybenzaldehyde.@Molecules, 20, 5771-5792.@Yes
<#LINE#>Development of Motifs: Traditional to Contemporary for Saris<#LINE#>Sharma*@Anshul,Singh @Saroj S. Jeet ,Rose@Neelam M <#LINE#>44-46<#LINE#>8.ISCA-RJRS-2016-044.pdf<#LINE#>Department of Textile and Apparel Designing, I.C. College of Home Science, CCSHAU, Hisar, India@Department of Textile and Apparel Designing, I.C. College of Home Science, CCSHAU, Hisar, India@Department of Textile and Apparel Designing, I.C. College of Home Science, CCSHAU, Hisar, India<#LINE#>24/3/2016<#LINE#>6/6/2016<#LINE#>Motifs play an important role in designing. Each motif, like the fabric itself has an origin, evaluation and variety in shape and presentation. In designing, a weaver, embroider, dyer or printer creates dreams of beauty using motifs familiar through culture, religion, environment and history on textiles. Development in any field is essential and continuing process so in the field of traditional textiles. For the development of motifs twenty selected traditional motifs were developed using CAD software into contemporary form and designs were created from these motifs. Best five selected designs were transferred on fifteen saris using appliqué in selected placement for each design and simulation in selected colour way. Fifteen appliqué saris were embellished with hand, machine and digital embroidery.<#LINE#>Taneja L.R. (2004).@Interactive database on CD for Swastika design.@Unpublished Ph.D. Thesis, CCS Haryana Agricultural University, Hisar.@Yes$Yan P and Walsh D. 2005.@Survey on CAD by NKSA.@Ind. Text. J, 6(3), 109.@No$Kamat A. (2012).@Handicraft of India: Folk painting.@Retrieved from www.kamat.com on July 17, 2014.@No$Sangama E.M. and Rani A. (2012).@Development of designs for textile designing.@Text. Trends, 54(3), 29-34.@Yes$Kashyap R and Ojha S. (2012).@Simulation of designs of gota work of Rajasthan.@Fashion and Text Tech, 3(31), 76-78.@No
<#LINE#>A Study on Usage of ICT in Arts and Science College Libraries<#LINE#>Sivakami*@N.,Rajendran@N. <#LINE#>47-49<#LINE#>9.ISCA-RJRS-2016-049.pdf<#LINE#>Periyar University, Salem, and Librarian, Vellalar College of Education for Women,Thindal, Erode – (Dt), Tamil nadu, India@College Librarian (S.G), Salem Sowdeswari College (Aided), Salem, Tamil Nadu, India<#LINE#>30/12/2015<#LINE#>10/6/2016<#LINE#>This paper analysed the facilities information products and services of ICT implemented in the Arts and Science College Libraries. The study focuses on the gender & age wise usage of ICT Media. The study aimed at finding of the usage of ICT by the faculties in Arts and Science Colleges of Erode.  For this purpose a survey method was carried out using the stratified random sampling techniques. Nearly 210 questionnaires were distributed among the faculty members in Erode.  The respodents were 200 (95%.  The findings indicated the mostly used ICT Media is Mobile Phone by 166 (83%) of Internet and E-Mail 160 (80%). The results of the study show that majority ICT.<#LINE#>Dhanavandan S., Mohammed Esmail S. and Mani V. (2008).@A Study of the Use of Information and Communication Technology (ICT) Tools by Librarians.@Library Philosophy and Practice (e – Journal), Paper 200.@Yes$Hema R., Nagarajan M. and Vanathi B. (2013).@A Study on Use of ICT based Resources and Services by the Faculty Members.@Research Scholars, and PG Students of Arts and Science Colleges in Union Territory of Puducherry.,  Journal of Advances in Library and Information Science, 2 (1), 1-6.@Yes$Krubu, Dorcas Ejemeh and Osawaru, Kingsley Efe. (2011).@The Impact of Information and Communication Technology (ICT) in Nigerian University Libraries.@Library Philosophy and Practice – Electronic Journal,  Paper 515.@Yes$Paulson C. (2013).@ICT in Arts and Science College Libraries.@International Journal of Science and Research, 4(1), 40-50.@Yes$Ratta P. (2013).@ICT Usage in Government Engineering College Libraries in Punjab: A case study.@3(3), 167-170.@Yes$Saleem A., Shabana Tabusum S.Z. and Sadik Batcha M. (2013).@Application and Uses of Information Communication Technology (ICT) in Academic Libraries:  An Overview.@International Journal of Library Science, 2(3), 49-52.@Yes$Senthur Velmurugan V. and Amudha G.  (2014).@Use of ICT Based Resources and Services among the users of Arts and Science Colleges in Virudhunagar District:  A Study.@International Research: Journal of Library and Information Science, 4(4).@Yes
@Mini Review Paper
<#LINE#>Psychrophilic Pathogens: Potential Risk for Food Borne Illness<#LINE#>Upadhyay@Garima <#LINE#>50-52<#LINE#>10.ISCA-RJRS-2016-045.pdf<#LINE#>Food and Nutrition, Vasant Kanya Mahavidyalaya, Kamaccha, Varanasi, India<#LINE#>29/4/2016<#LINE#>4/6/2016<#LINE#>Contrary to common belief that hot environment is the breeding ground of pathogens, refrigerator also favours growth of pathogens. Psychrophilic pathogens can be potential hazard for public health. One of the most neglected areas has been the issue of psychrophilic pathogens which are related with refrigerated items in our households. Several guidelines have been proposed regarding food handling, care during preparation of food at home, hotels, restaurants, street food vendors etc, but in the modern era there is increasing dependency on low temperature storage of food i.e refrigerating the food. In case of our society with the disintegration of joint family and the changing role of women in the family have resulted in a need for convenient food items which are well preserved having same taste, texture and enhanced shelf life. This has been made available due to better and advanced refrigeration technology. But, the traditional perception that it is only the higher temperature is blamed as the main factor for food spoilage. This stands challenge by the recent researches done on refrigerated food and psychrophilic bacteria (Psychro-Gk. Cold). If proper temperature and hygiene is not maintained for refrigerated food items then the texture, the taste, and other related aspects might be adversely affected, thereby resulting in health problems. An attempt has been made to study these microbes and the food they contaminate, also the mode of contamination and consequences and ways to prevent these pathogens are the focal points of present paper.<#LINE#>Vasut R.G. and Mihaela Dima Robeci (2009).@Food Contamination with psychrophilic bacteria.@Lucrari Stiintifice Medicina Veterinara, 42(2).@Yes$Dalgaard P. (2003).@Spoilage of Sea food.@Encyclopedia of Food Sciences and Nutrition, eds. Caballero B., Trugo L., Funglas P., Elsevier Science Lts, Academic Press London, UK, 2462-2471.@No$Aggie Horticulture. (2016).@Introduction to the Microbiology of Food.@The Microorganisms  https://www. aggie-horticulture.tamu.edu/food-technology-foodprocessi ng-entrepreneurs/microbiology of food/ accessed on 28.04.2016.@No$Kraft AA. (1992).@Psychrotrophic spoilage bacteria-meat spoilage.@CRC Press, 5-10.@No$Eushipsan Trainet Project partnership (2011).@European manual for hygiene standards and communicable diseases surveillance on passenger ships.@http://www.shipsan.edu accessed on 21.04.2016@Yes$Samarzija D. et al. (2012).@Psychrotrophic bacteria & milk quality.@Mljekarstvo, 62(2),77-95.@No$Jol S, Kassianenko A. and Oggel J. (2016).@Issues in Time and Temperature Abuse of Refrigerated Foods.@http://www.foodsafetymagazine.com/magazine-archive1/ december-2005january2006/issues-intime-and-temperatur eabuse-of-refrigerated-food accessed on 26.04.2016.@Yes$Jackson V, Blair IS and McDowell DA, et al. (2007).@The incidence of significant foodborne pathogens in domestic refrigerators.@Food Control, 18, 346-351.@Yes$Behravesh C.B., Williams I.T. and Tauxe R.V. (2012).@Emergin foodborne pathogens and problems: expanding prevention efforts before slaughter or harvest.@Institute of Medicine (US), Improving Food Safety through a One Health Approach: Workshop Summary, Washington (DC), National Academies Press (US), A14. Available from: http://www.ncbi.nlm.nih.gov/books/NBK114501/.@Yes$Siegel L.J. (2001).@Life on Ice.@The electronic Astrobiology Newsletter, 8, 30.@Yes$Haddad N., Burns C.M. and Bolla J.M. et al. (2009).@Long-term survival of Campylobacter jejuni at low temperatures is dependent on polynucleotide phosphorylase activity.@Appl Environ Microbiol, 75, 7310-18@Yes$Rossvoll E., Ronning H.T. and Granum PE et al. (2014).@Toxin production and growth of pathogens subjected to temperature fluctuations simulating consumer handing of cold cuts.@Int J Food Microbiol, doi.: 10.1016.@Yes$Ingham S.C. (1990).@Growth of Aeromonas hydrophila and Plesiomonas shigelloides on cooked crayfish tails during cold storage under air, vacuum and a modified atmosphere.@J Food Prot, 53, 665-67.@Yes$De Jonghe V., Coorevits and Van Hoorde K. (2011).@Influence of storage conditions on the growth of Pseudomonas species in refrigerated raw milk.@Appl Environ Microbiol, 77, 460-70.@Yes$Sautour M. and Dantigny P., et al. (2001).@A temperature-type model for describing the relationship between fungal growth and water activity.@67, 63-69.@Yes