References
- Agarwal, C. S. (1998). Study of drainage pattern through aerial data in Naugarh area of Varanasi district U.P. , Journal of the Indian Society of Remote Sensing, 26, pp 169-175.
- Angillieri, Y. E. (2008). Morphometric analysis of Colangüil river basin and flash flood hazard, San Juan, Argentina. Environ. Geol., v.55 (1), pp.107-111, DOI: 10.1007/s00254-007-0969-2.10.1007/s00254-007-0969-2
- Bates, R. L. & Jackson, J. A. (1980). Glossary of Geology. 2nd edn. American Geological Institute, 751 pp.
- Black, P. E. (1972). Hydrograph response to geometric model watershed characteristics and precipitation variables. Journal of Hydrology, 17, 309–329.
- Broscoe, A. J. (1959). Quantitative Analysis of Longitudinal Stream Profiles of Small watersheds , Project N. 389-042, Tech. Bep. 18, Geology Department, Columbian University, ONR, Geography Branch, New York.
- Chitra, C., Alaguraja, P., Ganeshkumari, K., Yuvaraj, D., Manivel, M. (2011). Watershed characteristics of Kundah sub basin using remote sensing and GIS techniques. Int J Geomatics Geosci 2: 311–335.
- Chopra, R., Raman, D. D. and Sharma, P. K. (2005). Morphometric analysis of sub-watersheds in Gurudaspur district, Punjab using remote sensing and GIS techniques. J Indian Soc of Remote sensing 33(4):531-539.
- Chow Ven T (1964). Handbook of applied hydrology. McGraw Hill Inc, New York.
- Dury, G. H. (1952). Methods of cartographical analysis in geomorphological research , Silver Jubilee Volume, Indian Geographical Society, Madras, 136-139.
- Eze, E. B. and Efiong, J. (2010). Morphometric Parameters of the Calabar River Basin: Implication for Hydrologic Processes. Jour. Geogr. Geol., v.2 (1), pp.18-26.
- Faniran (1968). The index of drainage intensity - A provisional new drainage factor , Australian Journal of Science, Vol.31, pp.328-330.
- Gardiner, V. (1978). Redundancy and spatial organization of drainage basin form indices , Transactions of the Institute of British Geographers, New Series 3: 416-431.
- Gravelius, H. (1914), Flusskunde, Goschensche Verlagshandlung, Berlin.
- Gregory, K. J. (1978). Fluvial Processes in British Basins, in: C. Embleton, D, Brunsden and D.K.C. Jones (ed) Geomorphology-present problems and future prospects. OUP, NY, pp 40-72.
- Guarnieri, P., Pirrotta, C. (2008). The response of drainage basins to the late quaternary tectonic in the Sicillian side of the Messina Strait (NE Sicily), Geomorphology, 95, pp. 260-273.
- Hack, J. T. (1957). Studies of longitudinal stream profiles in Virginia and Maryland. U.S. Cool. Survey Prof. Paper 294-B, B45-897.
- Horton, R. E. (1932). Drainage-basin characteristics. Transactions, American Geophysical Union, 13, 350–361.
- Horton, R. E. (1945). Erosional Development of Streams and their Drainage Basins , Bulletin of the Geological Society of America, 56, pp-275-370.
- Howard, A. D. (1967). Drainage analysis in geologic interpretation: a summation. AAPG Bull 51:2246–2259.
- Javed, A., Khanday, M. Y. and Rais, S., (2011). Watershed prioritization using morphometric and Land Use/Land Cover Parameters: A Remote Sensing and GIS Based Approach. Journal of Geological Society of India. 78: 63. https://doi.org/10.1007/s12594-011-0068-6.10.1007/s12594-011-0068-6
- Javed, A., Khanday, M. Y. and Ahmed, R., (2009). Prioritization of Sub-Watersheds Based on Morphometric and Land Use Analysis Using Remote Sensing and GIS Techniques. Journal of the Indian Society of Remote Sensing. 37: 261. https://doi.org/10.1007/s12524-009-0016-8.10.1007/s12524-009-0016-8
- Khanday, M. Y. & Javed, A. (2016). Prioritization of Sub-Watersheds for Conservation Measures in a Semi-Arid Watershed using Remote Sensing and GIS. Journal of Geological Society of India. Vol. 88 (2), pp. 185-196.
- Leopold, L. B. & Maddock, T. J. (1953). Hydraulic geometry of stream channels and some physiographic implications , U.S. Geol. Surv. Prof. Pap., 252, 55 pp., 1953.
- Magesh, N. S., Chandrasekar, N. and Soundranayagam, J. P. (2011). Morphometric Evaluation of Papanasam and Manimuthar Watersheds: Parts of Western Ghats, Tirunelveli district, Tamil Nadu, India: a GIS approach , 64: 373 – 381
- Melton, M. A. (1957). An analysis of the relations among elements of climate, surface properties and geomorphology (Project NR 389042, Tech. Rep. 11). New York, NY: Columbia University
- Miller, V.C. (1953). A Quantitative geomorphic study of drainage basin characteristics on the Clinch Mountain area, Virgina and Tennessee, Proj. NR 389-402, Tech Rep 3, Columbia University, Department of Geology, ONR, New York.
- Mueller, J. E. (1968). An introduction to the hydraulic and topographic sinuosity indexes 1. Annals of the Association of American Geographers, 58, 371–385
- Muthukrishnan, Manoj, K. S. & Banu, K. K., (2013). Drainage Morphometry Evaluation for Kodavanar sub basin to understand the Interrelationships in Morphological Systems and in Process-Response Systems , International journal of Geon
- Nautiyal, M. D. (1994). Morphometric Analysis of a Drainage Basin, Dist. Dehradun, Uttar Pradesh. J. Indian Soc. Remote Sensing, 22(4): 251-261.
- Obi, G. P., Reddy, G. P., Maji, A. K., Gajbhiye, K. S., (2002). GIS for morphometric analysis of drainage basins , Geological Survey of India, 11, pp 9-14. 2002
- Pandey, A., Chowdary, V. M. and Mal, B. C. (2004). Morphological analysis and watershed management using GIS , Hydrology J. 27, (3 & 4), 71-84.
- Pareta, K. (2011). Geo-Environmental and Geo-Hydrological Study of Rajghat Dam, Sagar (Madhya Pradesh) using Remote Sensing Techniques , International Journal of Scientific & Engineering Research, 2(8) (ISSN 2229-5518), pp 1-8.
- Patton, P. C. & Baker, V. R. (1976). Morphometry and Floods in Small Drainage Basins , 12: 941-952
- Perucca, L. P. & Angilieri, Y. E. (2010). Morphometric characterization of del Molle Basin applied to the evaluation of flash floods hazard , Iglesia Department, San Juan, Argentina. Quaternary Internat., doi:10.1016/j.quaint.2010.08.007.10.1016/j.quaint.2010.08.007
- Prakash, K., Rawat, D., Singh, S. et al. (2019). Morphometric analysis using SRTM and GIS in synergy with depiction: a case study of the Karmanasa River basin, North central India, Appl Water Sci.9: 13. https://doi.org/10.1007/s13201-018-0887-3.10.1007/s13201-018-0887-3
- Pande, C., Moharir, K., & Pande, R., (2018). Assessment of morphometric and hypsometric study for watershed development using spatial technology – a case study of Wardha river basin in Maharashtra, India, International Journal of RIver Basin Management, https://doi.org/10.1080/15715124.2018.1505737.10.1080/15715124.2018.1505737
- Rai, P. K., Chandel, R. C., Mishra, V. N. and Singh, P. (2018). Hydrological Inferences through Morphometric Analysis of Lower Kosi River Basin of India for Water Resource Management based on Remote Sensing Data , Applied Water Science (Springer), 8-15, pp. 1-16.. DOI: https://doi.org/10.1007/s13201-018-0660-7.10.1007/s13201-018-0660-7
- Rai, P. K., Chaubey, P. K., Mohan, K. & Singh, P. (2017b). Geoinformatics for assessing the inferences of quantitative drainage morphometry of the Narmada Basin in India , Applied Geomatics (Springer), Vol. 9 (3), 1-23. DOI:10.1007/s12518-017-0191-110.1007/s12518-017-0191-1
- Rai, P. K., Mohan, K., Mishra, S., Ahmad, A. and Mishra, V. N., (2017). A GIS-based approach in drainage morphometric analysis of Kanhar River Basin, India. Applied Water Science, pp.1-16.
- Rai, P.K., Mishra, V.N. & Mohan, K. (2017a). A Study of Morphometric Evaluation of the Son Basin, India Using Geospatial Approach , Remote Sensing Applications: Society and Environment, Vol. 7, 9-20. DOI: 10.1016/j.rsase.2017.05.001.10.1016/j.rsase.2017.05.001
- Rais, S. & Javed, A. (2014). Drainage Characteristics of Manchi Basin, Karauli District, Eastern Rajasthan Using Remote Sensing and GIS Techniques. International Journal of Geomatics and Geoscience, Vol. 5 (1), pp. 285-299.
- Scheidegger, A. E. (1968). Horton’s law of stream order numbers and a temperature-analog in river nets, Water Resour. Res., 4(1), 167–171, doi:10.1029/WR004i001p0016710.1029/WR004i001p00167
- Schumm, S. A. (1956). Evolution of Drainage Systems & Slopes in Badlands at Perth An boy, New Jersey , Bulletin of the Geological Society of America, 67, pp 597-646.22.
- Sharma, S. K., Gajbhiye, S., Nema, R. K., Tignath, S. (2015). Assessing vulnerability to soil erosion of a watershed of Narmada basin using remote sensing and GIS. Int J Sci Innov Eng Technol, issue 1, ISBN 978-81-904760-6-5
- Singh, K. N. (1980). Quantitative analysis of landforms and settlement distribution in southern uplands of eastern Uttar Pradesh (India).
- Singh, P., Thakur, J. & Singh U. C. (2013). Morphometric analysis of Morar River Basin, Madhya Pradesh, India, using remote sensing and GIS techniques. Environ Earth Sci 68:1967–1977
- Singh, S., & Dubey, A. (1994). Geo-environmental planning of watersheds in India. Allahabad: Chugh Publications.
- Sinha, R. and Jain, V. (1998). Flood Hazards of North Bihar Rivers, Indo-Gangetic Plains. Mem. Geol. Soc. India, no.41, pp.27-52.
- Smart, J. S. & Surkan, A. J. (1967). The relation between mainstream length and area in drainage basins. Water Resources Research, 3, 963–973
- Smith, K. G. (1950). Standards for grading texture of erosional topography. Am J Sci 248:655–668
- Sreedevi, P. D., Srinivasal U. S. and Kesava Raju, K. (2001). Hydrogeomorphological and groundwater prospects of the Pageru River basin by using remote sensing data. Environ Geo l, 40(8), pp10881094.
- Sreedevi, P. D., Subrahmanyam, K. and Ahmed, S. (2005). The significance of morphometric analysis for obtaining groundwater potential zones in a structurally controlled terrain. Environ. Geol., v.47, pp.412-420.
- Strahler, A. N. (1956). Quantitative Slope Analysis , Bulletin of the Geological Society of America, 67, pp 571.
- Verstappen, H. (1983). The Applied Geomorphology. International Institute for Aerial Survey and Earth Science (I.T.C), Enschede, The Netherlands. Amsterdam, Oxford, New York.
- Vinoth Kumar, R., Arun Venkatesh, S., Janapriya, S., Rajasekar, M. & Muthuchamy, I. (2016). Morphometric analysis and prioritization of palathodi watershed in Parambikulam-Aliyar basin, Tamil Nadu using RS and GIS.” Asian Journal of Environmental Science 11, no. 1 (2016): 51-58.