Phytotoxicity assessment of treated vegetable oily wastewater via environmentally coagulation/flocculation and membrane filtration technologies using lettuce (Lactuca sativa) seeds

Ghofrane Louhichi; Amine El Khouni; Ahmed Ghrabi; Imen Khouni

doi:10.1007/s11356-023-31594-2

Phytotoxicity assessment of treated vegetable oily wastewater via environmentally coagulation/flocculation and membrane filtration technologies using lettuce (Lactuca sativa) seeds

Environ Sci Pollut Res Int. 2024 Jan 4. doi: 10.1007/s11356-023-31594-2. Online ahead of print.

Authors

Ghofrane Louhichi¹, Amine El Khouni², Ahmed Ghrabi¹, Imen Khouni³

Affiliations

¹ Laboratoire Eaux Usées Et Environnement, Centre de Recherches Et Des Technologies Des Eaux (CERTE), BP 273-8020, Soliman, Tunisia.
² Laboratoire de Production Oléicole Intégrée, Institut de L'Olivier, Cité Mahrajène, BP 208, 1082, Tunis, Tunisia.
³ Laboratoire Eaux Usées Et Environnement, Centre de Recherches Et Des Technologies Des Eaux (CERTE), BP 273-8020, Soliman, Tunisia. imen.khouni.certe@gmail.com.

PMID: 38175507
DOI: 10.1007/s11356-023-31594-2

Abstract

The present investigation highlights the necessity of monitoring some basic physico-chemical water quality indicators and their phytotoxic effect using ecotoxicological bioassays such as "seed germination tests." The phytotoxicity of raw and treated vegetable oil refinery wastewater (VORW) using different treatment processes was assessed through some physiological responses (relative seed germination (RSG), seedling elongation, and germination index (GI)) using Lactuca sativa cultivar. Biotest results of different raw water samples revealed a noticeable correlation between the organic matter content and water phytotoxicity. In fact, VORW showed a very low RSG (17 ± 0.7 to -47 ± 0.58%) and high phytotoxic effects (GI < 50%). The use of coagulation/flocculation (CF) allowed a satisfactory phytotoxicity removal where RSG obtained ranged from 83 ± 1.58 to 90 ± 1.2%. However, the effluent still presents high to moderate phytotoxicity since GI remained below 80% which indicates the presence of toxic elements remaining after CF treatment. When VORW were treated using membrane processes, their phytotoxicity was gradually decreased with the decrease in the membrane pore size. The use of microfiltration membranes (MF), with pore size of 5 µm, 1.2 µm, 0.45 µm, and 0.22 µm, showed RSG values ranged from 37 ± 1.15 to 77 ± 1.68% and GI of less than 80% indicating a moderate to high phytotoxicity. However, the use of ultrafiltration (UF) membranes with molecular weight cut-off (MWCO) of 100 kDa, 30 kDa, and 10 kDa made it possible to achieve an RSG of 100% and an IG exceeding 80% showing that the VORW-treated using UF does not exhibit any phytotoxicity effect. Hence, UF appears to be the most efficient and environmentally friendly technology that could be used for safely treated VORW irrigation purposes compared to CF and MF processes.

Keywords: Coagulation/flocculation; Germination; Lactuca Sativa; Membrane filtration; Phytotoxicity; Vegetable oil refinery wastewater.