Micronutrient Indexing of Soils Located in Attock District of Pakistan: A Guide to Replenish the Nutrient Deficiency

Muhammad Yunas; Sarfraz Ahmed; Tahir Majeed; Bashir Ahmad; Obaid ur rehman; Majid Rahim; Sultan Ahmed Rizvi; Sher Afzal; Riffat Bibi; Safia Naureen Malik

doi:10.38211/joarps.2023.04.02.189

Authors

Muhammad Yunas Soil and Water testing Laboratory Attock, Pakistan
Sarfraz Ahmed Soil and Water testing Laboratory Attock, Pakistan
Tahir Majeed Soil and Water testing Laboratory Attock, Pakistan
Bashir Ahmad Soil and Water Testing laboratory, Rawalpindi, Pakistan.
Obaid ur rehman Soil and Water Testing laboratory, Rawalpindi, Pakistan.
Majid Rahim Soil and Water Conservation Research Institute Chakwal, Pakistan
Sultan Ahmed Rizvi Soil and Water Conservation Research Institute Chakwal, Pakistan
Sher Afzal Soil and Water testing Laboratory Attock, Pakistan
Riffat Bibi Soil and Water Conservation Research Institute Chakwal, Pakistan
Safia Naureen Malik Soil and Water Conservation Research Institute Chakwal, Pakistan

DOI:

https://doi.org/10.38211/joarps.2023.04.02.189

Keywords:

DTPA, Micronutrient, Nutrient Index, Soil

Abstract

The agricultural land of Attock district falls in Pothwar area of the Punjab Pakistan which is mostly rainfed (barani) and agriculture in the area depends on rainfall which is erratic and scanty. Therefore, soil health becomes more crucial for crop growth while application of micronutrients is negligible in this area. During the years from 2016 to2018, 15,337 soil samples were collected from the district Attack to determine micronutrient status of the soil. These soil samples were analyzed for Zinc (Zn), copper (Cu), Iron (Fe) and Manganse (Mn) using DTPA extraction method while dilute HCl method for Boron (B). The results indicated that nutrient index value of plant available Zn was in the marginal category (1.84) with 30.7% soil samples falling in low, 54.1% in marginal and 15.2% in adequate category. Nutrient index value of plant available Cu was in the adequate category (2.18) with 16.9 % soil samples in low, 47.9% in marginal and 35.2% in adequate category. Nutrient index value of plant available Fe was 1.46 (low) where 76.8% soil samples were found to be low and 23.2% adequate. Nutrient index value of plant available Mn was 1.11 (very low) where 89.3% soil samples were low, 9.9% marginal and only 0.8% adequate. Nutrient index value of plant available B was also in very low category (1.25) with 74.2% soil samples low and 25.8% marginal. The results indicated depletion and low concentration of micronutrient in most soil of Attock district which ultimately urges the use of balanced fertilizer for higher crop yield.

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References

Ahmad, B., Anjum, M. M., Ali, N., Din, B. U., Ullah, S., Sohail, A., & Khan, R. (2017). Physiochemical characteristics of some important soil series of dargai khyber pakhtunkhwa Pakistan. International Journal of Environmental Sciences & Natural Resources, 6(4), 80-85.

Bingham. (1982). Methods of soil analysis. Part II. American Society of Agronomy, USA.

Dahar, G. J., & Baloch, A. (2014). Distribution of micronutrients in different soil series around Tando Jam, Sindh, Pakistan. Science Technology and Development, 33(1), 7-13.

FAO, (2017). Soil Fertility Atlas of Pakistan, The Punjab Province: Page no. 1.

Imtiaz, M., Rashid, A., Khan, P., Memon, M. Y., & Aslam, M. (2010). The role of micronutrients in crop production and human health. Pak. J. Bot, 42(4), 2565-2578.

Lindsay, W. L. and Norvell, W.A. (1978). Development of DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal, 42: 421-28. DOI: https://doi.org/10.2136/sssaj1978.03615995004200030009x

Malakouti, M. J. (2000). Balanced nutrition of wheat: An approach towards self-sufficiency and enhancement of national health.“A compilation of papers”. Ministry of Agriculture, Karaj, Iran, 544.

Malakouti, M. J. (2008). The effect of micronutrients in ensuring efficient use of macronutrients. Turkish Journal of Agriculture and Forestry, 32(3), 215-220.

NFDC, (2017). Fertilizer review 2016-17. Government of Pakistan, Ministry of Planning, Development and Reform, Islamabad. National Fertilizer Development Centre publication No. 1/2017.

Ramamurthy, B., & Bajaj, J. C. (1969). Nitrogen, Phosphorus and Potash status of Indian soils. Fertilizer News, 14, 25-28.

Yunas, M., Ahmad, S., Ahmad, B., ur Rehman, O., & Afzal, S. (2015). Assessment of Irrigation Water Quality in District Attock, Pakistan: Assessment of Irrigation Water Quality. Biological Sciences-PJSIR, 58(1), 47-53. DOI: https://doi.org/10.52763/PJSIR.BIOL.SCI.58.1.2015.47.53

Zia, M. H., Ahmad, R., Khaliq, I., Ahmad, A., & Irshad, M. (2006). Micronutrients status and management in orchards soils: applied aspects. Soil Environ, 25(1), 6-16.