Recycling of gas-to-liquid sludge as a potential organic amendment: Effect on soil and cotton properties under hyperarid conditions

Oumaima Mabrouk; Helmi Hamdi; Sami Sayadi; Mohammad A Al-Ghouti; Mohammed Abu-Dieyeh; Reginald Kogbara; Ali Al-Sharshani; Osman Abdalla; Sabah Solim; Nabil Zouari

doi:10.1016/j.jenvman.2023.119319

Recycling of gas-to-liquid sludge as a potential organic amendment: Effect on soil and cotton properties under hyperarid conditions

J Environ Manage. 2023 Dec 15:348:119319. doi: 10.1016/j.jenvman.2023.119319. Epub 2023 Oct 17.

Authors

Affiliations

¹ Environmental Sciences Program, Department of Biological and Environmental Sciences, College of Arts and Sciences, Qatar University, Doha, Qatar.
² Food-Water-Waste-Sustainability (FWWS) Program, Center for Sustainable Development, College of Arts and Sciences, Qatar University, Doha, Qatar. Electronic address: hhamdi@qu.edu.qa.
³ Food-Water-Waste-Sustainability (FWWS) Program, Center for Sustainable Development, College of Arts and Sciences, Qatar University, Doha, Qatar.
⁴ Environmental Engineering Department, Izmir Institute of Technology, Izmir, Turkey.
⁵ Qatar Shell Research and Technology Center, QSTP LLC, Doha, Qatar.
⁶ Department of Agricultural Research, Ministry of Municipality, Doha, Qatar.
⁷ Environmental Sciences Program, Department of Biological and Environmental Sciences, College of Arts and Sciences, Qatar University, Doha, Qatar. Electronic address: nabil.zouari@qu.edu.qa.

PMID: 37857211
DOI: 10.1016/j.jenvman.2023.119319

Abstract

Gas-to-liquid (GTL) sludge is a specific wastewater treatment by-product, which is generated during the industrial process of natural gas conversion to transportation fuels. This least studied sludge is pathogen-free and rich in organic carbon and plant nutrients. Therefore, it can be reused for soil enhancement as a sustainable management strategy to mitigate landfill gas emissions. In this field study, we compared the performance of soil treatments with GTL sludge to the more conventional chemical fertilizers and cow manure compost for the cultivation of cotton under hyperarid conditions. After a complete growing season, GTL sludge application resulted in the enhancement of soil properties and plant growth compared to conventional inputs. As such, there was a significant dose-dependent increase of soil organic matter (4.01% and 4.54%), phosphorus (534 and 1090 mg kg^-1), and cumulative lint yield (4.68 and 5.67 t ha^-1) for GTL sludge application rates of 1.5% and 3%, respectively. The produced fiber quality was adequate for an upland cotton variety (Gossypium hirsutum var. MAY 344) and appeared more dependent on the prevailing climate conditions than soil treatments. On the other hand, the adverse effects generally related to industrial sludge reuse were not significant and did not affect the designed agro-environmental system. Accordingly, plants grown on GTL sludge-amended soils showed lower antioxidant activity despite significant salinity increase. In addition, the concentrations of detected heavy metals in soil were within the standards' limits, which did not pose environmental issues under the described experimental conditions. Leachate analysis revealed no risks for groundwater contamination with phytotoxic metals, which were mostly retained by the soil matrix. Therefore, recycling GTL sludge as an organic amendment can be a sustainable solution to improve soil quality and lower carbon footprint. To reduce any environmental concerns, an application rate of 1.5% could be provisionally recommended since a two-fold increase in sludge dose did not result in a significant yield improvement.

Keywords: Cotton growth; Gas-to-liquid sludge; Heavy metals; Hyperarid conditions; Soil enhancement.

MeSH terms

Carbon
Fertilizers / analysis
Gossypium
Metals, Heavy* / analysis
Sewage / chemistry
Soil / chemistry
Soil Pollutants* / analysis

Substances

Soil
Sewage
Soil Pollutants
Carbon
Metals, Heavy
Fertilizers