Chemical and microstructural behaviour of ferruginous rocky outcrops topsoils applied to degraded mining areas

Topsoil transposition is an efficient technique for recovering mining-degraded areas. However, storage time may reduce its functionality. To evaluate the effect of storage and litter addition, physical (microstructure) and chemical (fertility) properties were assessed in stored (3-months) and non-st...

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Published inInternational journal of mining, reclamation and environment Vol. 35; no. 3; pp. 219 - 234
Main Authors Rocha, Fernanda C. G., de Oliveira, Fábio S., Leite, Mariangela G. P., Dias, Diego D., Messias, Maria Cristina T. B., Kozovits, Alessandra R.
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 16.03.2021
Taylor & Francis Ltd
Subjects
fertility
Litter
micromorphology banded iron formation
Microstructure
Outcrops
Plant roots
recovery of degraded areas
Revegetation
Seed banks
Seeds
Soil fertility
Soil mechanics
Topsoil
Transposition
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Summary:Topsoil transposition is an efficient technique for recovering mining-degraded areas. However, storage time may reduce its functionality. To evaluate the effect of storage and litter addition, physical (microstructure) and chemical (fertility) properties were assessed in stored (3-months) and non-stored topsoils. Twelve months after transposition, regardless of the storage time, soil fertility and microstructure were improved, due to the mechanical work of plant roots recruited from topsoil seed bank or rain, and decomposition of pre-existing plant fragments. Litter addition did not affect chemical attributes but influenced microstructure transformations. Paedogenetic evolution was clearly fed by revegetation establishing a sustainable feedback system.
Bibliography:ObjectType-Article-1
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ISSN:1748-0930
1748-0949
DOI:10.1080/17480930.2020.1815932