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Effects of farmed managements in sandy soils on composition and stabilization of soil humic substances
Author(s) -
Martins Gomes Ernane Tarcísio,
Berbara Ricardo Luis Louro,
Pereira Marcos Gervasio,
Urquiaga Segundo Sacramento,
Tavares Orlando Carlos Huertas,
Assunção Shirlei Almeida,
Zonta Everaldo,
Amaral Sobrinho Nelson Moura Brasil,
García Andrés Calderín
Publication year - 2018
Publication title -
land degradation and development
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.403
H-Index - 81
eISSN - 1099-145X
pISSN - 1085-3278
DOI - 10.1002/ldr.2839
Subject(s) - soil water , soil structure , chemistry , soil fertility , organic matter , monoculture , environmental chemistry , crop rotation , agronomy , environmental science , soil science , crop , biology , organic chemistry
Sandy soils in tropical climates with low organic matter (OM) content result in degradation and fertility loss. It is important to note that humified OM accumulation and stabilization increases soil fertility. This study aimed to characterize humic acids (HAs) in sandy soils on an agroecological farm operating for more than 20 years. The structures of the HA of two Planosols under a grazing (G) and crop rotation (R) management system and of an Acrisol under an agroforestry management system (AFS) were characterized using HA extracted from a local Organosol under cassava monoculture (M) as a structural reference. Lower C HA /C FA ratio in sandy soil reveals a slightly humified OM and higher E 4 /E 6 ratio value in HA confirming lower aromatic structure condensation. The HA in Planosols (R and G) and Acrisols (AFS) are predominantly formed by C Alq‐O,N –, C Alq‐O –, and C Alq‐di‐O structures closely related to the soil physical properties and preserved by interaction with the mineral fraction confirmed by νO‐H, νSi‐O stretching of kaolinite and hematite bands in FTIR spectroscopy. Management and vegetal carbon type (−20.65‰ AFS ‐C 3 ) or (−15.55‰ (G) and −17.82‰ (R) ‐C 4 ) had no effect on HA formation. Evolution of structural change in HA modeled by chemometric analyses showed that more recalcitrant structure characteristic in HA can enhance OM preservation in these sandy soils. This study elucidated the OM stabilization mechanisms of sandy soil HA, their relationship with soil properties and models structural changes for humified OM recovery and preservation, which contribute to increased fertility and agricultural production.

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