4.7 Article

Effects of technosols based on organic amendments addition for the recovery of the functionality of degraded quarry soils under semiarid Mediterranean climate: A field study

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 816, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2021.151572

Keywords

Soil recovery; Technosols; Composting; Humic substances; Thermal analysis; Analytical pyrolysis

Funding

  1. Spanish Ministry of Economy and Competitiveness (MINECO)
  2. FEDER funds [CGL2017-88734-R, UAL18-RNM-A021-B, PAIDI2020, PY20_01073, P18-RT-4112]
  3. Ramon y Cajal Research Grant [RYC-2016-21191]
  4. Spanish Ministry of Economy and Competitiveness
  5. University of Almeria Research Plan
  6. FPI fellowship [BES-2017-079811]

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This study aims to evaluate the effects of different organic amendments on the restoration of degraded soils in a semiarid limestone quarry. The results showed that the amended technosols had improved soil quality, functionality, and organic matter dynamics compared to unamended and natural soils. The molecular composition of the organic matter in technosols amended with plant compost was similar to that of nearby natural soils.
This study aims to evaluate the effects of technosols made with different organic amendments to restore degraded soils in a semiarid limestone quarry. The effects on soil quality, functionality and organic matter dynamics of the technosols amended with waste of gardening, greenhouse horticultural, stabilized sewage sludge and two mixtures of sludge with both vegetable composts were assessed. Several physical and chemical properties, humus fractions, soil respiration and molecular composition was performed after 6 and 18 months. Unamended soils, and nearby natural undegraded soils served as reference. Amended technosols increased water retention capacity, electrical conductivity, total organic carbon and nitrogen, respect to not amended and natural soils. Humus fraction composition was not altered over time. Un-amended soils, very poor in organic matter, did not show any pyrolyzable compounds or labile soil organic matter by thermogravimetry. In contrast, the pyrochromatograms of natural soils showed lignocellulosic materials, polypeptides and a noticeable presence of alkylic compounds. In technosols with both types vegetable compost, the organic matter structure was more complex, showing compounds from lignin-derived and long-chain alkyl, polysaccharides, chlorophyll isoprenoids and nitrogen. In sludge technosol, a set of sterols was outstanding. The mixtures showed a molecular fingerprint of materials derived from the decomposition of the organic amendments that formed them. These signs of the contribution of different organic matter forms derived from the amendments were also reported by the series exothermic peaks found in the calorimetry. This short-term study indicates a clear effect of the amendments on the recovery of soil organic matter and presumably of its functionality. After the amendments application, microbial activity and soil respiration rates increased rapidly but ceased 18 months later. The molec-ular composition of the organic matter of the soils amended with plant compost was very similar to that of nat-ural, non-degraded soils in nearby areas. (c) 2021 Elsevier B.V. All rights reserved.

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