Hydrochemistry of nutrients in groundwater under farmland in the Benue River Basin, North-Cameroon

In this study, we investigated the distribution and the principal sources of macronutrients (N, P, K, S) in groundwater in agro-pastorally dominated North Cameroon. Graphical methods and multivariate statistics were used to understand the impact of land use and regional geology on nutrient concentra...

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Veröffentlicht in:	Environmental earth sciences 2022-04, Vol.81 (7), Article 209
Hauptverfasser:	Jokam Nenkam, Therese L. L., Kringel, Robert, Fantong, Wilson Y., Nbendah, Pierre, Fouépé Takoundjou, Alain, Elisabeth, Zocpé, Kamtchueng, Brice T.
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Schlagworte:	Agricultural land Agricultural production Anthropogenic factors Biogeosciences Cluster analysis Cretaceous Earth and Environmental Science Earth Sciences Environmental Science and Engineering Geochemistry Geology Graphical methods Groundwater Groundwater resources Human influences Hydrochemistry Hydrology/Water Resources Land use Median (statistics) Mineral nutrients Mineralization Multivariate analysis Nitrates Nutrient concentrations Nutrients Original Article Outcrops Potassium Precambrian River basins Sediments Statistical analysis Statistical methods Surface water Terrestrial Pollution Urban areas Water quality Water resources
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description	In this study, we investigated the distribution and the principal sources of macronutrients (N, P, K, S) in groundwater in agro-pastorally dominated North Cameroon. Graphical methods and multivariate statistics were used to understand the impact of land use and regional geology on nutrient concentrations (K + , NO 3 − , SO 4 2− , PO 4 3− ). Groundwater was acidic (median pH 6.8) and more mineralized (EC range = 35–2500 µS/cm, median = 376 µS/cm) than surface water (EC range = 50–222 µS/cm, median = 81 µS/cm). The median concentration of nutrients was (in mg/L) in the order NO 3 − (41.3) > SO 4 2− (7.7) > K + (5.2) > PO 4 3− (0.1) in groundwater and rather K + (3.3) > NO 3 − (0.3) > SO 4 2− (0.2) > PO 4 3− (0.2) in surface water. Using hierarchical cluster analysis and Schoeller diagram, we identified three distinct water quality groups. Group I, which contained cluster 1 and 2 were generally less mineralized and characterised as Na + K − HCO 3 water type found in the urban area such as Garoua and Lagdo. Group II, containing cluster 3 was much higher mineralized and characterised as the Na + K − HCO 3 water type with elevated nitrate. The occurrence of these groups is linked to the outcrops of cretaceous terrestrial sediments of the Garoua basin. Group III, which contained cluster 4 were heavily mineralized and characterised as the Ca + Mg − NO 3 water type. The occurrence was controlled by the outcrop of the crystalline Proterozoic basement. The nitrate median (41 mg/L) found in groundwater demonstrates the influence exerted by anthropogenic activities. Management strategies are required for the whole study area to limit further deterioration of groundwater resources in the wake of the planned expansion of agricultural productivity in the North Region of Cameroon.
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Groundwater was acidic (median pH 6.8) and more mineralized (EC range = 35–2500 µS/cm, median = 376 µS/cm) than surface water (EC range = 50–222 µS/cm, median = 81 µS/cm). The median concentration of nutrients was (in mg/L) in the order NO 3 − (41.3) > SO 4 2− (7.7) > K + (5.2) > PO 4 3− (0.1) in groundwater and rather K + (3.3) > NO 3 − (0.3) > SO 4 2− (0.2) > PO 4 3− (0.2) in surface water. Using hierarchical cluster analysis and Schoeller diagram, we identified three distinct water quality groups. Group I, which contained cluster 1 and 2 were generally less mineralized and characterised as Na + K − HCO 3 water type found in the urban area such as Garoua and Lagdo. Group II, containing cluster 3 was much higher mineralized and characterised as the Na + K − HCO 3 water type with elevated nitrate. The occurrence of these groups is linked to the outcrops of cretaceous terrestrial sediments of the Garoua basin. Group III, which contained cluster 4 were heavily mineralized and characterised as the Ca + Mg − NO 3 water type. The occurrence was controlled by the outcrop of the crystalline Proterozoic basement. The nitrate median (41 mg/L) found in groundwater demonstrates the influence exerted by anthropogenic activities. 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L.</au><au>Kringel, Robert</au><au>Fantong, Wilson Y.</au><au>Nbendah, Pierre</au><au>Fouépé Takoundjou, Alain</au><au>Elisabeth, Zocpé</au><au>Kamtchueng, Brice T.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Hydrochemistry of nutrients in groundwater under farmland in the Benue River Basin, North-Cameroon</atitle><jtitle>Environmental earth sciences</jtitle><stitle>Environ Earth Sci</stitle><date>2022-04-01</date><risdate>2022</risdate><volume>81</volume><issue>7</issue><artnum>209</artnum><issn>1866-6280</issn><eissn>1866-6299</eissn><abstract>In this study, we investigated the distribution and the principal sources of macronutrients (N, P, K, S) in groundwater in agro-pastorally dominated North Cameroon. Graphical methods and multivariate statistics were used to understand the impact of land use and regional geology on nutrient concentrations (K + , NO 3 − , SO 4 2− , PO 4 3− ). Groundwater was acidic (median pH 6.8) and more mineralized (EC range = 35–2500 µS/cm, median = 376 µS/cm) than surface water (EC range = 50–222 µS/cm, median = 81 µS/cm). The median concentration of nutrients was (in mg/L) in the order NO 3 − (41.3) > SO 4 2− (7.7) > K + (5.2) > PO 4 3− (0.1) in groundwater and rather K + (3.3) > NO 3 − (0.3) > SO 4 2− (0.2) > PO 4 3− (0.2) in surface water. Using hierarchical cluster analysis and Schoeller diagram, we identified three distinct water quality groups. Group I, which contained cluster 1 and 2 were generally less mineralized and characterised as Na + K − HCO 3 water type found in the urban area such as Garoua and Lagdo. Group II, containing cluster 3 was much higher mineralized and characterised as the Na + K − HCO 3 water type with elevated nitrate. The occurrence of these groups is linked to the outcrops of cretaceous terrestrial sediments of the Garoua basin. Group III, which contained cluster 4 were heavily mineralized and characterised as the Ca + Mg − NO 3 water type. The occurrence was controlled by the outcrop of the crystalline Proterozoic basement. The nitrate median (41 mg/L) found in groundwater demonstrates the influence exerted by anthropogenic activities. Management strategies are required for the whole study area to limit further deterioration of groundwater resources in the wake of the planned expansion of agricultural productivity in the North Region of Cameroon.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s12665-021-10146-2</doi><orcidid>https://orcid.org/0000-0001-5908-3953</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agricultural land Agricultural production Anthropogenic factors Biogeosciences Cluster analysis Cretaceous Earth and Environmental Science Earth Sciences Environmental Science and Engineering Geochemistry Geology Graphical methods Groundwater Groundwater resources Human influences Hydrochemistry Hydrology/Water Resources Land use Median (statistics) Mineral nutrients Mineralization Multivariate analysis Nitrates Nutrient concentrations Nutrients Original Article Outcrops Potassium Precambrian River basins Sediments Statistical analysis Statistical methods Surface water Terrestrial Pollution Urban areas Water quality Water resources
title	Hydrochemistry of nutrients in groundwater under farmland in the Benue River Basin, North-Cameroon
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