Unlocking the potential of Euglena gracilis cultivated in piggery wastewater: biomass production, nutrient removal, and biostimulant potential in lettuce and tomato plants

Author:

Butzke Valéria Louzada Leal1,Ferreira Alice2,Corrêa Diego Oliveira2,Furlan Júnior Mendes3,Gouveia Luisa2,Schneider Rosana de Cássia de Souza1,Corbellini Valeriano Antonio1

Affiliation:

1. University of Santa Cruz do Sul (UNISC)

2. National Laboratory of Energy and Geology I.P - Bioenergy and Biorefineries Unit (LNEG – UBB)

3. Federal University of Pampa (UNIPAMPA)

Abstract

Abstract

Microalgae are increasingly recognized as a valuable resource for bolstering sustainability in agriculture. Yet, current research often overlooks the diversity of microalgae species. Euglena gracilis (Euglenophyta) is a microalga renowned for its resilience to diverse environmental stressors and capability to produce a variety of bioactive metabolites. This study investigated the potential of cultivating E. gracilis in piggery wastewater for nutrient recycling and as a source of beneficial biomolecules, particularly for biostimulant use. Utilizing raw wastewater diluted to 25% (P25) and pre-treated wastewater with photo-Fenton (PF), the research found that E. gracilis exhibited elevated cell density, biomass concentration, and overall cell health in both wastewaters compared to a synthetic medium (BG11-NPK). This was due to its efficient removal of nutrients, especially ammoniacal-nitrogen and phosphate, resulting in a biomass rich in polyunsaturated fatty acids, amino acids, and paramylon content. The whole-cell biomass significantly enhanced the germination index of lettuce and tomato seeds compared to the water control. Additionally, it promoted cell expansion and root formation in cucumber cotyledons, exhibiting similarities to phytohormones such as gibberellin, cytokinin, and auxin. Furthermore, it is suggested that E. gracilis biomass contains molecules related to resistance to environmental stresses, particularly in tomatoes, given the enhancement in the seedling vigor index. E. gracilis exhibited remarkable adaptability to piggery wastewater, recycling nutrients and yielding biomass rich in bioactive molecules with potential as plant biostimulants. These findings significantly contribute to understanding E. gracilis's potential applications in agriculture and developing a circular bioeconomy.

Publisher

Research Square Platform LLC

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