Soil analysis gis-based fertility assessment and mapping of agricultural research station, Pakhribas, Dhankuta, Nepal

Dinesh Khadka, Sushil Lamichhane, Parashuram Bhantana, Amit Prasad Timilsina, Anisur Rahman Ansari, Kamal Sah, Sushila Joshi

Abstract


Soil fertility evaluation has been considered as a most effective tool for sustainable planning of a particular region. This study was conducted to determine the soil fertility status of the Agricultural Research Station, Pakhribas, Dhankuta, Nepal. The total 60 soil samples were collected randomly at a depth of 0-20 cm by using the soil sampling auger. For identification of soil sampling points A GPS device was used. The collected samples were analyzed for their texture, pH, OM, N, P2O5, K2O, Ca, Mg, S, B, Fe, Zn, Cu and Mn status following standard methods in the laboratory of Soil Science Division, Khumaltar. The Arc-GIS 10.1 software was used for soil fertility maps preparation. The observed data revealed that soil was dark yellowish brown (10YR 4/4) and yellowish brown (10YR 5/6) in colour, and single grained, granular and sub-angular blocky in structure. The sand, silt and clay content were 56.61±0.97%, 27.62±0.56% and 15.77±0.58%, respectively and categorized as loam, sandy loam and sandy clay loam in texture. The soil was very acidic in pH (4.66±0.07) and very low in available sulphur (0.53±0.11mg/kg), available boron (0.24±0.07mg/kg). The organic matter (1.34±0.07%), total nitrogen (0.09±0.003mg/kg), available calcium (605.70±31.40mg/kg), available magnesium (55.96±4.67mg/kg) and available zinc (0.54±0.22mg/kg) were low in status. Similarly, available potassium (115.98±9.19 mg/kg) and available copper (1.13±0.09 mg/kg) were medium in status. Furthermore, available manganese (36.31±2.82mg/kg) was high, whereas available phosphorus (105.07±9.89 mg/kg) and available iron (55.80±8.89 mg/kg) were very high in status. The soil fertility management practice should be adopted based on the determined status in the field for the sustainable production of crops. The future research strategy should be built based on the soil fertility status of the research farm.


Keywords


ARS Pakhribas; fertility management; soil analysis; soil fertility maps; soil properties

Full Text:

PDF

References


Aweto, A.O., 1982. Variability of upper slope soils developed under sandstones in south-western Nigeria. Georgian Journal, 25: 27–37.

Berger, K. C., Truog, E., 1939. Boron determination in soils and plants. Industrial and Engineering Chemistry Analytical Edition, 11(10): 540-545.

Bouyoucos, G. J., 1962. Hydrometer method improved for making particle size analyses of soils. Agronomy Journal, 54(5): 464-465.

Brady, N. C., Weil, R.R., 2002.The nature and properties of soils.13th edition. Pearson Education, New Jersey.

Bremner, J. M., Mulvaney, C. S., 1982. Nitrogen total. In: A. L. Page (ed.) Methods of soil analysis. Agron. No. 9, Part 2: Chemical and microbiological properties. 2nd edition.. American Society of Agronomy, Madison, WI, USA. pp. 595-624.

Cambardella, C. A., Karlen, D. L., 1999. Spatial analysis of soil fertility parameters. Precision Agriculture, 1: 5-14.

Das, D.K., 2004. Role of geoinformatics in sustainable agriculture: Research, extension and service to the farmers. Chairman’s address. In: Proceedings of the symposium Geoinformatics Applications for Sustainable Development, 1-11, Indian Society of Agro-physics, IARI, New Delhi.

El Mahi, Y. E., Ibrahim, I. S., Abdel Magid, H. M., Eltilib, A. M. A., 1987. A simple method for the estimation of calcium and magnesium carbonates in soils. Soil Science Society of America Journal, 51(5): 1152-1155.

Fageria, N. K., Santos, A. B., Filho, M.P., Guimaries, C. M., 2008. Iron toxicity in lowland rice. Journal of Plant Nutrition, 31: 1676-1697.

Foth, H.D., 1990. Fundamental of Soil Science. John Wiley & Sons, New York.

Gupta, U.C., Srivastava, P.C., Gupta, S.C., 2011. Role of micronutrients: boron and molybdenum in crops and in human health and nutrition. Current Nutrition and Food Science, 7:126-136.

Gupta, P.K., 2004. Soil, plant, water and fertilizer analysis, Shyam Printing Press, Agrobios, India. 38p.

Havlin, H.L., Beaton, J.D., Tisdale, S. L., Nelson, W. L., 2010. Soil Fertility and Fertilizers- an introduction to nutrient management. 7th edition. PHI Learning Private Limited, New Delhi. 515pp.

Hirschi, K.D., 2004. The calcium conundrum. Both versatile nutrient and specific signal. Plant Physiology, 136:2438–2442.

Hoyle, F.C., Baldock, J.A., Murphy, D.V., 2011. Soil organic carbon – role in rainfed farming systems: with particular reference to Australian conditions. In: P. Tow, I. Cooper, I. Partridge and C. Birch (eds.). Rainfed farming systems. Springer: New York, NY. pp. 339–361.

Jackson, M.L., 1973. Soil chemical analysis, Prentice Hall of India Pvt. Ltd., New Delhi.

Jamal, A., Moon, Y.S., Abdin, .M.Z., 2010.Sulphur-a general overview and interaction with nitrogen. Australian Journal of Crop Science, 4(7):523–529.

Joshy, D., Deo, G.P., 1976. Fertilizers Recommendations for Major crops of Nepal. Division of Soil Science and Agricultural Chemistry, Department of Agriculture, HMG/Nepal.

Khadka, D., Lamichhane, S., Khan, S., Joshi, S., Pant, B., 2016d. Assessment of soil fertility status of Agriculture Research Station,

Belachapi, Dhanusha, Nepal. Journal of Maize Research and Development, 2(1): 43-57. doi: http://dx.doi.org/10.3126/jmrd.v2i1.16214

Khadka, D., Lamichhane, S., Malla, R., Joshi, S., 2016c. Assessment of Soil Fertility Status of Oilseed Research Program, Nawalpur, Sarlahi, Nepal. International Journal of Advanced Research, 4(6): 1472-1483.

Khadka, D., Lamichhane, S., Shrestha, S., Pant, B. B., 2016b. Assessment of Soil Physico-Chemical Properties of Sugarcane Research Program, Jitpur, Bara, Nepal. International Journal of Advanced Research, 4(5):56-66.

Khadka, D., Lamichhane, S., Thapa, B., Baral, B.R., Adhikari, P., 2016a. An Assessment of Soil Fertility Status of National Maize Research Program, Rampur, Chitwan, Nepal. Imperial Journal of Interdisciplinary Research, 2(5):1798-1807.

Khadka, D., Lamichhane, S., Thapa, B., Rawal, N., Chalise, D. R., Vista, S.P., Lakhe, L., 2015. Assessment of Soil Fertility Status and Preparation of Their Maps of National Wheat Research Program, Bhairahawa, Nepal. In: K.B. Karki, B.P. Tripathi, R. Manandhar, B.H. Adhikari, S.P. Vista (eds.). Proceedings of the Second National Soil Fertility Research Workshop, March 24-25, 2015. Soil Science Division, Khumaltar, Lalitpur, Nepal. pp. 330-340.

Khadka, D., Lamichhane, S., Tiwari D.N., Mishra, K., 2017.Assessment of soil fertility status of National Rice Research Program, Hardinath, Dhanusha, Nepal. International Journal of Agricultural and Environmental Research, 3(1): 86-105.

Leghari, S.J., Wahocho, N.A., Laghari, G.M., HafeezLaghari, A., MustafaBhabhan, G., Talpur, K.H., Bhutto, T.A., Wahocho, S.A., Lashari, A.A., 2016. Role of nitrogen for plant growth and development: review. Advances in Environmental Biology, 10(9): 209-218.

Lindsay, W. L., Norvell, W. A., 1978.Development of a DTPA soil test for zinc, iron, manganese, and copper. Soil science society of America journal, 42(3): 421-428.

Mahajan, S., Billore. D., 2014. Assessment of physicochemical characteristics of the soil of Nagchoon pond Khandwa, MP, India. Research Journal of Chemical Science, 4(1): 26-30.

Mousavi, S.R., Shahsavari, M., Rezaei, M., 2011. A general overview of manganese (Mn) importance for crops production. Australian Journal of Basic and Applied Science, 5(9): 1799-1803.

Nduwumuremyi, A., 2013. Soil Acidification and Lime Quality: Sources of Soil Acidity, Effects on Plant Nutrients, Efficiency of Lime and Liming Requirements. Research and Reviews: Journal of Agriculture and Allied Science, 2(4):26-34.

Olsen, S. R., Cole, C. V., Watanabe, F. S., Dean, L. A., 1954.Estimation of available phosphorus in soils by extraction with sodium bicarbonate. U. S. Dep. Agric. Circ. 9, USA. 39 pp.

Panda, S.C., 2010.Soil Management and Organic Farming.Agrobios, Bharat Printing Press, Jodhpur, India. 462pp.

Ramamurthy, B., Bajaj, J. C., 1969. Available nitrogen, phosphorus and potassium status of Indian soils. Fertilizer News, 14: 25-36.

Rout, G.R., Sahoo, S., 2015. Role of iron in plant growth and metabolism. Reviews in Agricultural Science, 3:1-24.

Singh, G., Sharma, M., Manan, J., Singh, G., 2016. Assessment of Soil Fertility Status under Diferent Cropping Sequences in District Kapurthala. Journal of Krishi Vigyan, 5(1): 1-9.

Verma, B. C., Swaminathan, K., Sud, K. C., 1977. An improved turbidimetric procedure for the determination of sulphate in plants and soils. Talanta, 24(1): 49-50.

Walkley, A.J., Black, I.A., 1934. Estimation of soil organic carbon by the chromic acid titration method. Soil Science, 37(1): 29-38.




DOI: http://dx.doi.org/10.17951/pjss.2019.52.1.23
Date of publication: 2019-05-29 07:00:28
Date of submission: 2018-09-01 13:32:50


Statistics


Total abstract view - 1585
Downloads (from 2020-06-17) - PDF - 818

Indicators



Refbacks

  • There are currently no refbacks.


Copyright (c) 2019 Dinesh Khadka, Sushil Lamichhane, Parashuram Bhantana, Amit Prasad Timilsina, Anisur Rahman Ansari, Kamal Sah, Sushila Joshi

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.