Nitrogen Budget and Statistical Entropy Analysis of the Tiber River Catchment, a Highly Anthropized Environment

Marco, Alessandra De; Fornasier, Maria Francesca; Screpanti, Augusto; Lombardi, Danilo; Vitale, Marcello

doi:10.3390/soilsystems6010017

Cited by 2 publications

(1 citation statement)

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“…This difference could be explained in terms of the weathering stages of these RSGs and the subsequent retention of nitrogen. Cambisols, defined as moderately developed soils with little or no profile differentiation [23], have been reported to retain low amounts of N [14] compared to highly weathered Ferralsols [41]. Additionally, the relatively unstable surfaces (slopes) where Cambisols develop, do not favor the accumulation and cycling of soil N.…”

Section: ) In a Study Of Nitrogen Flux Patterns Through Ferralsols An...mentioning

confidence: 99%

Distribution of Total Nitrogen in Soils of the Tropical Highlands of Cameroon

Kome

Kips²,

Yerima

et al. 2023

Eurasian Soil Sc.

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Understanding the factors controlling soil total N (TN) is helpful in simulating N cycling at local and regional scales. This study was conducted with the aim to; (i) understand the distribution of TN in specific soil horizons (A and B horizons) of three reference soil groups: Acrisols, Cambisols and Ferralsols, common in humid tropical environments, and (ii) to identify factors controlling TN variations among the various soil groups. Twentyeight Acrisols, 21 Cambisols and 8 Ferralsols profiles spanning a wide range of precipitation gradients, vegetation type/land use and parent materials, from the Northwestern Highlands (NWH) of Cameroon were considered. Soil properties were analyzed following standard procedures. TN had very high coefficients of variation (>35%) in all the reference soil groups (RSGs), with highest mean TN (0.31±0.03%) observed in the A horizons of Acrisols and the lowest (0.05 ± 0.01%) in B horizons of Ferralsols. Variations in TN content were significantly (p < 0.05) influenced by parent material, land use type, precipitation and slope gradient. In surface (A) horizons of all the RSGs, TN correlated positively and significantly with clay (p < 0.05), silt (p < 0.01) and soil organic carbon (SOC) (p < 0.01), and negatively with sand (p < 0.01). This observation was slightly different in subsurface (B) horizons. This study provides data which contributes to a better understanding of soil fertility in tropical highlands.

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Section: ) In a Study Of Nitrogen Flux Patterns Through Ferralsols An...mentioning

confidence: 99%