A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Yadav, Manoj Kumar
- Impact of Characteristics on Outreach and Profitability of Microfinance Institution in India
Authors
1 Haryana School of Business, Guru Jambheshwar University of Science & Technology, Hisar, Haryana, IN
Source
International Journal of Financial Management, Vol 4, No 3 (2014), Pagination: 50-57Abstract
Purpose: This paper aims to examine how selected characteristics indicators impact on performance measures of outreach and profitability in microfinance institutions (MFIs).
Design/Methodology/Approach: The study is an exploratory nature. The data is taken from 42 microfinance institutions. A panel data technique is employed as the key analytical framework.
Findings: It is shown that the characteristics play a critical role in the performance of MFIs. Find that size and number of offices has positive impact on microfinance institution.
Research limitation/implications: Data availability and accessibility is a limitation. Microfinance institutions in India do not provide their annual report on regular basis.
Originality/value: Society may get the benefits because outreach level will increase and poor people access to credit and their standard of living will increase.
Keywords
Characteristics, Financial Performance, Performance Measurement, MFI, India.References
- Ananda, S., & Colaco, X. F. (2012). Micro finance in India: An Overview of performance and prospects. International Conference on Advances in Computing and Management.
- Ayayi, G. A. (2012). Credit risk assessment in the microfinance industry. Economics of Transition, 20(1), 37-72.
- Churchill, G. A., & Iacobucci, D. (2005). Marketing Research: Methodological Foundations, 9th edition, USA: Thomson South-Western.
- Coleman, K. A., & Oesi, A. K. (2008). Outreach and profitability of microfinance institutions: The role of governance. Journal of Economic Studies, 35(3), 236-248.
- Coleman, K. A. (2007). The impact of capital structure on the performance of microfinance institutions. The Journal of Risk Finance, 8(1), 56-71.
- Das, K. S. (2012). Social impact assessment on microfinance institutions: A review of existing literature. Asian Journal of Research in Business Economics and Management, 2(6).
- Dissanayake, M. D. (2012). The determinants of return on equity: evidences from Sri Lankan microfinance institutions. Journal of Arts, Science & Commerce.
- Hair, J. F., Black, W. C., Babin, B. J., Anderson, R. E., & Tatham, R. L. (2006). Multivariate Data Analysis. 6th edition, Pearson Education.
- Hartarska, V. (2009). The impact of outside control in microfinance. Managerial Finance, 35(12), 975-989.
- Hartungi, R. (2007). Understanding the success factors of micro-finance institution in a developing country. Impact of Characteristics on Outreach and Profitability of Microfinance Institution in India 57 International Journal of Social Economics, 34(6), 388-401.
- Hausman, J. A. (1978). Specification tests in econometrics. Econometrica, 46(6), 1251-71.
- Hulme, D., & Mosley, P. (1996). Finance against poverty, Routledge London.
- Kennedy, P. (1985). A Guide to Econometrics, (2nd ed.), MIT Press, Cambridge, MA.
- Kereta, B. B. (2007). Outreach and financial performance analysis of microfinance institutions in Ethiopia. African Economic Conference United Nations Conference Center (UNCC), Addis Ababa, Ethiopia.
- Levin, A., Lin, C., & Chu, J. (2002). Unit ischolar_main tests in panel data: Asymptotic and finite-sample properties. Journal of Econometrics, 108(1), 1-24.
- Meyer, R. J. (2002). Track record of financial institutions in assessing the poor in Asia. Retrieved from http://www.esocialsciences.com/data/articles/Document113112009240.6883051.pdf
- Nuredin, M. (2012). Determinants of dividend policy of insurance companies in Ethiopia. Retrieved from etd.aau.edu.et/dspace/bitstream/.../4665/1/Muhammed%20nuredin.pdf
- Osotimehin, O. K., Jegede, A. C., & Akinlabi, H. B. (2011). Determinants of microfinance outreach in South-Western Nigeria: An empirical analysis. Interdisciplinary Journal of Contemporary Research in Business, 3(8).
- Pal, K., & Soriya, S. (2012). IC performance of Indian pharmaceutical and textile Industry. Journal of Intellectual Capital, 13(1), 120-137.
- Pinkowitz, L., Stulz, R., & Williamson, R. (2006). Does the contribution of corporate cash holdings and dividends to firm value depend on governance? A cross-country analysis. Journal of Finance, 61(6), 2725-51.
- Rai, A. A., & Rai, S. (2012). Factors Affecting Financial Sustainability of Microfinance Institutions. Journal of Economics and Sustainable Development, 3(6).
- Rauf, A. S., & Mahmood, T. (2009). Growth and performance of microfinance in Pakistan. Pakistan Economic and Social Review, 47(1), 99-122.
- Roy, A. (2011). Managing performance of MFIs–A look into their microfinance delivery process & profitability. International Journal for Business, Strategy & Management, 1(1).
- Shastri, K. R. (2009). Microfinance and poverty reduction in India (A comparative study with Asian Countries). African Journal of Business Management, 3(4), 136-140.
- Vichore, S., & Deshpande, S. (2012). Microfinance in India - A comprehensive analysis of the growth and performance of MFI's. The International Journal's Research Journal of Social Science & Management, 2(1), 51-56.
- Occurrence of sapphirine-bearing granulites from Kothuru, Eastern Ghats Mobile Belt: implications on ultra-high temperature metamorphism
Authors
1 Centre of Advanced Study in Geology, Banaras Hindu University, Varanasi 221 005, IN
2 Centre of Advanced Study in Geology, Lucknow University, Lucknow 226 007, IN
Source
Current Science, Vol 122, No 11 (2022), Pagination: 1298-1304Abstract
In this study, we present evidence for the stable coexistence of sapphirine + quartz and the compositional characteristics of the sapphirine-bearing granulites from Kothuru in the Eastern Ghats Mobile Belt (EGMB), India. The study area is an integral part of the Precambrian terrane in the western part of EGMB and is characterized by the granulite facies rocks comprising mainly of pelitic granulites such as charnockites, enderbites, leptynites, khondalites and gneisses, and sapphirine–spinel–quartz-bearing rocks. The chemistry of the minerals present in the assemblage has been examined using the electron probe micro analyser to infer their occurrence and distribution in various reaction textures observed during the petrographic study. The peak and post-peak history of the sapphirine-bearing granulites of Kothuru section have been constrained in the NCKFMASHTO system showing decompressional P–T path of high-grade metamorphic rocks through the intersection of the isopleth contours of various mineral phases present. The proposed P–T path with a steep isothermal decompression retrograde trajectory may be attributed to the over-thrust processes. The results obtained from the petrographic study of the mineral assemblages along with their textural relationship, mineral chemistry, especially Fe3+/FeTotal ratio and pseudosection modelling reveal that the studied segment has arrested promising ultra-high temperature metamorphic signatures and is tectonically distinct from those reported in the adjacent areas.References
- Mukhopadhyay, D. and Basak, K., The Eastern Ghats belt – a polycyclic granulite terrain. J. Geol. Soc. India, 2009, 73, 489–518.
- Dasgupta, S., Bose, S. and Das, K., Tectonic evolution of the Eastern Ghats Belt, India. Precambrian Res., 2013, 227, 247–258.
- Das, K., Bose, S., Karmakar, S., Dunkley, D. J. and Dasgupta, S., Multiple tectonometamorphic imprints in the lower crust: first evidence of ca. 950 Ma (zircon U–Pb SHRIMP) compressional reworking of UHT aluminous granulites from the Eastern Ghats Belt, India. Geol. J., 2011, 46, 217–239.
- Korhonen, F. J., Brown, M., Clark, C. and Bhattacharya, S., Osumilite-melt interactions in ultrahigh temperature granulites: phase equilibria modelling and implications for the P–T–t evolution of the Eastern Ghats Province, India. J. Metamorph. Geol., 2013, 31, 881–907.
- Prakash, D., Singh, D., Singh, P. C., Singh, C. K., Tewari, S., Arima, M. and Frimmel, H. E., Reaction textures and metamorphic evolution of sapphirine–spinel-bearing and associated granulites from Diguva Sonaba, Eastern Ghats Mobile Belt, India. Geol. Mag., 2015, 152, 316–340.
- Harley, S. L., Refining the P–T records of UHT crustal metamorphism. J. Metamorph. Geol., 2008, 26, 125–154.
- Dharma Rao, C. V., Santosh, M. and Chmielowski, R. M., Sapphirine granulites from Panasapattu, Eastern Ghats Belt, India: ultrahigh-temperature metamorphism in a Proterozoic convergent plate margin. Geosci. Front., 2012, 3, 9–31.
- Ramakrishnan, M., Nanda, J. K. and Augustine, P. F., Geological evolution of the Proterozoic Eastern Ghats Mobile Belt. Geol. Surv. India, Spec. Publ., 1998, 44, 1–21.
- Dasgupta, S. and Sengupta, P., Indo-Antarctic correlation: a perspective from the Eastern Ghats Belt. Geol. Soc. London, Spec. Publ., 2003, 206, 131–143.
- Nanda, J. K. and Pati, U. C., Field relations and petrochemistry of the granulites and associated rocks in the Gnjam–Koraput sector of the Eastern Ghats Belt. Indian Miner., 1989, 43, 247–264.
- Schreyer, W., Maresch, W. V. and Daniels, P., Potassic cordierites: characteristic minerals for high-temperature, very low-pressure environments. Contr. Mineral. Petrol., 1990, 105, 162–172.
- Vry, J. K., Brown, P. E. and Valley, J. W., Cordierite volatile content and the role of CO2 in high-grade metamorphism. Am. Mineral.1990, 75, 71–88.
- Bose, S., Das, K. and Fukuoka, M., Fluorine content of biotite in granulite-grade metapelitic assemblages and its implications for the Eastern Ghats granulites. Eur. J. Mineral., 2005, 17, 665–674.
- Holland, T. J. B. and Powell, R., An internally-consistent thermodynamic dataset for phases of petrological interest. J. Metamorph. Geol., 1998, 16, 309–343.
- Holland, T. J. B. and Powell, R., An improved and extended internally consistent thermodynamic dataset for phases of petrological interest, involving a new equation of state for solids. J. Metamorph. Geol., 2011, 29, 333–383.
- Connolly, J. A. D., Multivariable phase-diagrams – an algorithm based on generalized thermodynamics. Am. J. Sci., 1990, 290, 666–718.
- Connolly, J. A. D., Computation of phase equilibria by linear programming: a tool for geodynamic modeling and its application to subduction zone decarbonation. Earth Planet. Sci. Lett., 2005, 236, 524–541.
- Connolly, J. A. D., The geodynamic equation of state: what and how. Geochem. Geophys. Geosyst., 2009, 10, 1–19.
- Connolly, J. A. D. and Petrini, K., An automated strategy for calculation of phase diagram sections and retrieval of rock properties as a function of physical conditions. J. Metamorph. Geol., 2002, 20, 697–708.
- Harley, S. L. and Hensen, B. J., Archaean and Proterozoic highgrade terranes of East Antarctica (40–80°E); a case study of diversity in granulite facies metamorphism. Mineral. Soc. Ser., 1990, 2, 320–370.
- Tamashiro, I., Santosh, M., Sajeev, K., Morimoto, T. and Tsunogae, T., Multistage orthopyroxene formation in ultrahigh-temperature granulites of Ganguvarpatti, southern India: implications for complex metamorphic evolution during Gondwana assembly. J. Mineral. Petrol. Sci., 2004, 99, 279–297.
- Tateishi, K., Tsunogae, T., Santosh, M. and Janardhan, A. S., First report of sapphirine + quartz assemblage from Southern India: implications for ultrahigh temperature metamorphism. Gondwana Res., 2004, 7, 899–912.
- Lal, R. K., Ackermand, D. and Upadhyay, H., P–T–X relationships deduced from corona textures in sapphirine–spinel–quartz assemblages from Paderu, southern India. J. Petrol., 1987, 28, 1139–1168.
- Santosh, M. and Kusky, T. M., Origin of paired high pressure–ultrahigh–temperature orogens: a ridge subduction and slab window model. Terra Nova, 2010, 22, 35–42.