Volume 8, Issue 2, June 2020, Page: 65-71
Analysis of Mercury Levels in Agricultural Soils and Citrus Varieties from Benue State, Nigeria
Shaapera Ugbidye, Department of Chemistry, Federal University of Agriculture, Makurdi, Nigeria
Ishaq Shaibu Eneji, Department of Chemistry, Federal University of Agriculture, Makurdi, Nigeria
Raymond Wuana, Department of Chemistry, Federal University of Agriculture, Makurdi, Nigeria
Rufus Sha’ Ato, Department of Chemistry, Federal University of Agriculture, Makurdi, Nigeria
Received: Dec. 17, 2019;       Accepted: Feb. 3, 2020;       Published: May 28, 2020
DOI: 10.11648/j.sjac.20200802.15      View  221      Downloads  129
Mercury levels in agricultural soils and three citrus varieties (Washington, Ibadan Sweet and Valencia) in seven (7) local government areas of Benue State were determined using standard techniques. The mean physico-chemical parameters of the soils ranges from: pH (5.20 – 6.10); CEC (10.5 – 12.9 cmolkg-1); organic carbon (2.35 – 3.39%) and organic matter (6.17 – 7.37%). The mean Hg levels in the soils ranges from 20.5 – 21.2 µgkg-1. The mean proximate parameters are: fat in Valencia (0.330%); fibre in Valencia (0.490%); moisture in Valencia (87.4%); ash in Valencia (1.80%) and carbohydrate in Ibadan sweet (17.7%). The mean Hg concentration in the citrus juice ranges from: Washington (0.770 – 6.35 µgkg-1); Ibadan sweet (0.770 – 6.53 µgkg-1) and in Valencia (0.770 – 5.22 µgkg-1). The order of accumulation of Hg in the citrus varieties is Ibadan sweet > Washington > Valencia. The concentrations of Hg in the three citrus fruit juice and soil do not exceed the WHO/FAO permissible limits of 100 and 1000 µgkg-1 for foods and agricultural soils respectively. However, continues monitoring is hereby recommended.
Agricultural Soil, Washington, Ibadan Sweet, Valencia, CV-AAS
To cite this article
Shaapera Ugbidye, Ishaq Shaibu Eneji, Raymond Wuana, Rufus Sha’ Ato, Analysis of Mercury Levels in Agricultural Soils and Citrus Varieties from Benue State, Nigeria, Science Journal of Analytical Chemistry. Vol. 8, No. 2, 2020, pp. 65-71. doi: 10.11648/j.sjac.20200802.15
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