Human-altered soils – Signatures of Anthrosols and their potential for arable lands

Abstract

● Past human activities result in the formation of Anthrosols and the accumulation of nutrients. ● Enrichment in physicochemical properties relates to the intensity of settlement activities. ● The level of releasability contributes to the extended retention of nutrients in soils. ● Past settlement sites represent nutrient-rich Anthrosols suit able for arable fields. The fertility of human-altered soils, Anthrosols, developed from past settlement activities for crop production is scarcely studied. The study evaluated the fertility of Anthrosols developed from the 15th to mid-20th century AD settlement in Old Buipe, Savanna region, Ghana, to determine whether abandoned localities are suitable for arable fields. Human activities enhanced the physical attributes of the Anthrosols: brown to pH[H2O] pH[CaCl2 ] dark brown intergrain fine soil, 15%−35% organic matter, 15%−30% potsherd, and 5%−15% charred materials. The Anthrosols were slightly acidic to neutral reactions ( 5.67−6.83, 5.83−6.95), high cation exchange capacity (CEC; 18.77−45.31me/100 g), electric conductivity (EC = 0.28−0.36 dS m−1), accumulation, and distribution of organic C, total N, P, Mn, Cu, Zn, K, and Fe, and available P, K, Ca, Mg, S, Mn, Fe, Cu, and Zn. Plant-available nutrients were comparatively higher than concentrations in non-anthropogenic soils. The level of releasability (bioavailable fractions of total concentrations) of P, K, Ca, Mn, Fe, Cu, and Zn partly compensates for low plant-available portions. Enrichment of chemical and physical properties of Anthrosols make them fertile for arable fields. The signatures of settlement activities are strong and can remain in soils for a long time, even under harsh environmental conditions

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Research Article

Keywords

arable field, Anthrosols, organic matter, physical properties, releasability, settlement activities

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