Characterization of Natural Resources in the Narmada Canal Project Area of Rajasthan for their Management under Canal Command Irrigation

Mahesh Kumar; Priyabrata Santra; P. C. Moharana; Nav Raten Panwar; R K Goyal; C B Pandey

doi:10.56093/aaz.v63i4.154743

Authors

Mahesh Kumar ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India
Priyabrata Santra ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India
P. C. Moharana ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India
Nav Raten Panwar ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India
R K Goyal ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India
C B Pandey ICAR-Central Arid Zone Research Institute, Jodhpur 342 003, India

https://doi.org/10.56093/aaz.v63i4.154743

Keywords:

Characterization, Narmada Canal Project, Rajasthan, salinity, management

Abstract

A systematic investigation was undertaken to assess the state of natural resources i.e. soils, landform, and water in response to continuous canal irrigation in the Narmada Canal Project area in two arid districts of arid Rajasthan. Soils in the NCP area in Rajasthan were found very deep, slightly to strongly alkaline in reaction (pH 7.62 to 9.98), sandy to silty loam in texture at surface and loamy sand to sandy loam in texture at the subsurface. Five soil series were characterized and mapped in the course of the investigation. Four soil series belonged to the aeolian plains covering 74% area of NCP and these are Sanchore, Dhorimana, Chohtan and Dune complex whereas one soil series i.e. Chitalwana was identified belonging to alluvial plains covering 10% area of NCP. Organic carbon content ranged from 0.03 to 0.42% in the surface soils with a decreasing trend along the depth. Available N, P and K content in surface soils ranged from 61.9 to 191.0 kg ha-1, 1.41 to 47.84 kg ha-1 and 56.25 to 652.50 kg ha-1, respectively. Similarly, Fe, Mn, Zn and Cu ranged from 0.85 to 13.46 mg kg-1, 1.72 to 14.55 mg kg-1, 0.08 to 2.40 mg kg-1 and 0.02 to 1.38 mg kg-1, respectively. Based on visual interpretation of satellite images and subsequent ground truthing, ten types of landforms have been characterized in the area, which have been categorised under fluvial, aeolian and coastal kinds. Among the landforms of fluvial origin, alluvial plains occur in about 37% of total area under NCP and have been further mapped as younger and older alluvial plain types. Analysis of groundwater in the NCP area of Rajasthan revealed medium sodicity of groundwater with the value of sodium adsorption ratio ranging from 0.15 to 36.31. The residual sodium carbonate of groundwater ranged from almost nil to 5.7 me L-1 with a mean value of 1.1 me L-1. Among the cations and anions, Na+ and Cl- are the dominant ions and their concentrations ranged from 0.27 to 95.50 me L-1 and 1.40 to 92.40 me L-1, respectively. Benchmark characterization of these soil and water resources will help in future assessment and best management of natural resources specifically in canal command area located in arid landscape.

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References

Al-Tabbal, J.A. and Al-Zboon, K.K 2012. Suitability assessment of groundwater for irrigation and drinking purpose in the northern region of Jordan. Journal of Environmental Science and Technology 5(5): 274-290.

Bhat, M.A., Wani, S.A., Singh, V.J., Sahoo, J., Tomar, D. and Sanswal, R. 2018. An overview of the assessment of groundwater quality for irrigation. Journal of Agricultural Science and Food Research 9(1): 1-9.

Buol, S.W., Hole, F.D. and McCracken, R.J.1980. Soil genesis and classification, second Edition, The Lowa University Press America Iowa. pp 55-65.

Chatterji, P.C. and Joshi, D.C. 1989. Integrated natural and human resources appraisal of Barmer district, Rajasthan. Research Report, pp. 179. Division of Natural Resources, Central Arid Zone Research Institute, Jodhpur, India.

Collins, R. and Jenkins A. 1996. The impact of agricultural land use on stream chemistry in the middle hills of the Himalayas, Nepal. Journal of Hydrology 185: 71-86.

Devi, P.A.V., Naidu, M.V.S. and Ramakrishna, Rao, A. 2015. Characterization and classification of sugarcane growing soils in southern agro-climatic zone: A case study in eastern mandals of Chittoor District in Andhra Pradesh. Journal of the Indian Society of Soil Science 63: 245-258.

Dhir, R.P. 1977. Western Rajasthan soils: Their characteristics and properties. In: Desertification and Its Control. ICAR, New Delhi, pp. 102-115.

Dhir, R.P. and Kolarkar, A.S. 1977. Observations on genesis and evolution of arid zone soils. Journal of the Indian Society of Soil Science 25: 260-264.

Eaton, F.M. 1950. Significance of carbonates in irrigated waters. Soil Science 69: 127-128

Etteieb, S., Cherif, S. and Tarhouni, J. 2017. Hydrochemical assessment of water quality for irrigation: a case study of the Medjerda River in Tunisia. Applied Water Science 7: 469-480.

Gupta, J.P., Joshi, D.C. and Singh, G.B. 2000. Management of arid agro-ecosystem. In: Natural Resource Management for Agricultural Production in India (Eds J.S.P. Yadav and G.B. Singh), pp. 557-668. International conference on Managing Natural Resources for Sustainable Agricultural Production in the 21st Century, New Delhi,

Houatmia, F., Azouzi, R., Charef, A. and Bedir, M. 2016. Assessment of groundwater quality for irrigation and drinking purposes and identification of hydro-geochemical mechanisms evolution in Northeastern, Tunisia. Environmental Earth Sciences 75: 746.

Jackson, M.L. 1973. Soil Chemical Analysis. Prentice Hall of India, New Delhi, pp.1-498.

Jalali, M. 2005. Nitrates leaching from agricultural land in Hamadan, western Iran. Agriculture Ecosystems and Environment 110: 210-218.

Johari, S.N., Joshi, D.C. and Sharma, V.C. 1978. Studies on the manganese status in some soils of western Rajasthan. Annals of Arid Zone 17: 133-135.

Joshi, D.C. and Dhir, R.P. 1983. Available forms of Manganese and iron in some arid soils and their relation with soil properties. Annals of Arid Zone 22: 7-14.

Kumar, S.K., Rammohan, V., Sahayam, J.D. and Jeevanandam, M. 2009. Assessment of groundwater quality and hydrogeochemistry of Manimuktha River basin, Tamil Nadu, India. Environmental Monitoring and Assessment 159: 341-351.

Lal, R. 1995. Global soil erosion by water and carbon dynamics. In: Soil and Global Change (Eds. R. Lal, J.M. Kimble, E. Levine, and B.A. Stewart), pp. 131-142. CRC Press, Boca Raton.

Lindsay, W.L. and Norvell, W.A. 1978. Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal 42: 421-428.

Mahesh Kumar, Kar, A., Raina, P., Singh, S.K., Moharana, P.C. and Chauhan, J.S. 2021. Assessment and mapping of available soil nutrients using GIS for nutrient management in hot arid regions of north-western India. Journal of The Indian Society of Soil Science 69(2): 119-132.

Mahesh Kumar, Singh, S.K. and Sharma, B.K. 2009. Characterization, classification and evaluation of soils of Churu district. Journal of The Indian Society of Soil Science 57: 253-261.

Matthess, G. 1982. The Properties of Groundwater. John Wiley, New York, 406 p.

Moharana, P.C., Gaur, M.K., Choudhuary, C., Chauhan, J.S. and Rajpurohit, R.S. 2013. A system of geomorphological mapping for western Rajasthan with relevance for agricultural land use. Annals of Arid Zone 52: 163-180.

Moharana, P.C., Santra,P., Singh, D.V., Kumar, S., Goyal, R.K., Machiwal, D. and Yadav, O.P. 2016. ICAR-Central Arid Zone Research Institute, Jodhpur: Erosion Processes and Desertification in the Thar Desert of India. Proceedings of the Indian National Science Academy 82(3): 1117-1140

Olsen, S.R., Cole, C.V., Watanabe, F.S. and Dean, L.A. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. US Department of Agriculture, Washington, DC, Circular 939: 19.

Page, A.L., Miller, R.H., Keeney, D.R., Baker, D.E., Roseoc, Ellis, Jr. and Rhodes, J. (Eds.) 1982. Methods of Soil Analysis Part 2: Chemical and Microbiological Properties, 2nd edition, Agronomy Monograph No. 9 American Society Agronomy, Inc. and Soil Science Society America Madision, Wisconsin, U.S.A.

Piper, C.S. 1966. Soil and Plant Analysis. Hans Publishers, Bombay.

Pratt, P.F. 1982. Potassium. In: Methods of Soil Analysis. Part.II. Chemical and Microbiological properties. (Eds. A.L. Page, R.H. Miller and D.R. Keeney), pp. 225-246. Madison, Wisconsin, USA.

Praveen-Kumar, Tarafdar, J.C., Painuli, D.K., Raina, P., Singh, M.P., Beniwal, R.K., Soni, M.L., Mahesh Kumar, Santra, P. and Shamsuddin. M. 2009. Variability in arid soil characteristics. In: Trends in Arid Zone Research in India (Eds Amal Kar, B.K. Garg, M.P. Singh and S. Kathju, 2009), Central Arid Zone Research Institute, Jodhpur, pp. 78-112.

Rajasthan Agricultural Statistics, 2021-22. Directorate of Economics and Statistics, Department of Planning, Government of Rajasthan, India, pp. 1-163.

Rao, D.K., Panchaksharjah, S., Pati, B.N., Narayana, A. and Raiker, D.L.S. 1982. Chemical composition of irrigation waters from selected parts of Bijapur district, Karnataka. Mysore Journal of Agricultural Science 16: 426-432.

Richards, L.A. (Ed.) 1954. Diagnosis and Improvements of Saline and Alkali Soils. Agricultural Handbook No. 60. USDA, Washington, DC, 160 p.

Rimmer, D.L. and Greenland, D.J. 1976. Effect of calcium carbonate on swelling behavior of soil clays. Journal of Soil Science 27: 129-139.

Saleh, A., Al-Ruwaih, F. and Shehata, M. 1999. Hydrogeochemical processes operating in the main aquifers of Kuwait. Journal of Arid Environment 42: 195-209.

Singh, S., Sharma, K.D. and Joshi, D.C. 1995. Integrated natural and human resources appraisal for sustainable development of Jalore district. Research Report, ICAR-Central Arid Zone Research Institute, Jodhpur, India, PP.1- 108.

Singh, S.K., Mahesh Kumar, Sharma, B.K. and Tarafdar, J.C. 2007. Depletion of organic carbon, phosphorus and potassium under pearl millet based cropping system in the arid region of India. Arid Land Research and Management 21: 119-131.

Soil Survey Staff 2014. Keys to Soil Taxonomy, 12th edition. USDA Natural Resources Conservation Service. pp. 1-373.

Sridharan, M. and Nathan, D.S. 2017. Groundwater quality assessment for domestic and agriculture purposes in Puducherry region. Applied Water Science 7: 4037-4053.

Walkley, A. and Black, I.A. 1934. An examination of the Degtiareff method for determining soil organic carbon and proposed modification of the chromic acid titration method. Soil Science 37: 29-38.