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Pattanashetti, D.M.,Harinarayana, N.S. Korea Institute of Science and Technology Informat 2017 Journal of Information Science Theory and Practice Vol.5 No.2
This study examined the mechanical engineering research output from India, Japan, and South Korea on different parameters including growth, collaboration indices, and activity index. The purpose of the study is to understand the overall development of mechanical engineering through analytical approaches applied on the scholarly outcome of the countries considered for the study. The study focuses on analysing the articles published by India, Japan, and South Korea, and is restricted to articles indexed in the Science Citation Index - Web of Science for the period 2000 to 2014. The ratios of number of paper to citations for India, Japan, and Korea are 20,836: 1,97,679; 24,494: 2,04,393; and 30,578: 2,66,902 respectively for the period 2000-2014. The findings show that there is a decline in Japanese publications in mechanical engineering, whereas other two countries have recorded an increasing trend. While India has tripled its publications in a span of 15 years, South Korea, on the other hand, has doubled its publications in the same span of time. There has been an increasing trend towards collaboration in almost all fields of science and technology. However, the extent of collaboration and their rate of growth varied for one subject to another, one branch to another branch of the same subject, and from one country to another country. The present study analyses the growth of research publications of the mechanical engineering domain including authorship distribution, collaboration indices, prominent journals, and activity index.
Bino Thomas,Pattanashetty Chandrashekar Pradeepkumar 한국사회복지학회 2018 Asian Social Work and Policy Review Vol.12 No.2
Training of social workers according to the changing needs of the society is important. To this end, we decided to review the adequacy of mental health training in postgraduate programme in social work. The Mental Health Care Act 2017 defines psychiatric social worker (PSW) in India to have additional higher qualification beyond post-graduation in social work. The number of such qualified PSWs appears to be limited due to small number of institutes that offer advanced training in the country. Though, the number of available PSWs with such qualifications is rising, the manpower in proportion to the mental health needs in the country continues to remain low. It is therefore, relevant to review the quality of psychiatric social work education at postgraduate level if this level is to be considered as the desirable qualification for PSW. In this context, postgraduate social work syllabi from 71 universities including autonomous institutions were reviewed using semi-structured assessment. The results show a lack of uniform teaching components, training methods and insufficient skill orientation towards mental health interventions. These observations suggest that curricula and training are modified with strengthening and enhancing the quality of training of mental health at post-graduate level in Social Work.
Ishwar H. Boodi,Santosh K. Pattanashetti,Basavaraj D. Biradar,Gopalakrishna K. Naidu,Virupakshi P. Chimmad,Anand Kanatti,Vinod Kumar 한국작물학회 2016 Journal of crop science and biotechnology Vol.19 No.3
Iron deficiency chlorosis (IDC) causes a significant reduction in yield of groundnut grown in calcareous and alkaline soils in India. The main aim of the study was to assess genotypic differences for morpho-physiological parameters associated with IDC resistance across different stages and their effect on yield and its related traits. The factorial pot experiment was comprised of two major factors, i) soil-Fe status [normal-Fe, deficit-Fe], and ii) genotypes [five] with differential IDC response, constituting 10 treatments. They were assessed for five morpho-physiological parameters associated with IDC resistance across five crop growth stages and also yield and its related traits. Associations between these traits were also estimated. Under deficit-Fe conditions, IDC resistant genotypes recorded significantly lower visual chlorosis rating (VCR), higher SPAD values, active Fe, chlorophyll content, peroxidase activity, and high yield compared to susceptible ones. Between normal- to deficit-Fe soils, resistant compared to susceptible genotypes showed no change in VCR scores; a lower reduction in SPAD, chlorophyll, active Fe, peroxidase activity, and pod yield. Under deficit-Fe conditions, high yield among resistant genotypes could be attributed to higher seed weight, number of pods and haulm yield, while contrasting reduction in main stem height and number of primaries. The results indicate that for initial large-scale screening of groundnut genotypes for IDC resistance, SPAD values are most ideal while active Fe could be utilized for confirmation of identified lines.
Ishwar H. Boodi,Santosh K. Pattanashetti,Basavaraj D. Biradar,Gopalakrishna K. Naidu,Virupakshi P. Chimmad,Anand Kanatti,Manoj K. Debnath 한국작물학회 2016 Journal of crop science and biotechnology Vol.19 No.2
Iron deficiency chlorosis (IDC) causes a significant reduction in yield of groundnut grown in calcareous and alkaline soils in India. The main aim of the study was to assess genotypic differences for morpho-physiological parameters associated with IDC resistance across different stages and their effect on yield and its related traits. The factorial pot experiment was comprised of two major factors, i) soil-Fe status [normal-Fe, deficit-Fe], and ii) genotypes [five] with differential IDC response, constituting 10 treatments. They were assessed for five morpho-physiological parameters associated with IDC resistance across five crop growth stages and also yield and its related traits. Associations between these traits were also estimated. Under deficit-Fe conditions, IDC resistant genotypes recorded significantly lower visual chlorosis rating (VCR), higher SPAD values, active Fe, chlorophyll content, peroxidase activity, and high yield compared to susceptible ones. Between normal- to deficit-Fe soils, resistant compared to susceptible genotypes showed no change in VCR scores; a lower reduction in SPAD, chlorophyll, active Fe, peroxidase activity, and pod yield. Under deficit-Fe conditions, high yield among resistant genotypes could be attributed to higher seed weight, number of pods and haulm yield, while contrasting reduction in main stem height and number of primaries. The results indicate that for initial large-scale screening of groundnut genotypes for IDC resistance, SPAD values are most ideal while active Fe could be utilized for confirmation of identified lines.