Performance and microbial analysis during long‐term anaerobic digestion of olive mill wastewater in a packed‐bed biofilm reactor

Enaime, Ghizlane; Nettmann, Edith; Berzio, Stephan; Baçaoui, Abdelaziz; Yaacoubi, Abdelrani; Wichern, Marc; Gehring, Tito; Lübken, Manfred

doi:10.1002/jctb.6275

Cited by 14 publications

(3 citation statements)

References 52 publications

(104 reference statements)

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“…Anaerobic digestion (AD) of agricultural by-products contributes not only to the reduction of GHG emitted by agricultural activities, but also allows the production of biogas that can be subsequently used as a biofuel with high energy content. The application of AD for the management of agricultural wastes enhances then the contribution of the agricultural sector in producing clean energy and protecting ecological systems (Monlau et al, 2013;Sambusiti et al, 2013;Enaime et al, 2020c). There is currently considerable potential for biogas technology using a variety of digestible residues; including agricultural wastes such as straw, animal and poultry manure and livestock farming (Lübken et al, 2007;Wichern et al, 2008).…”

Section: Coupling Biochar Application In Agriculture With Energy-wate...mentioning

confidence: 99%

Contribution of biochar application to the promotion of circular economy in agriculture

Enaime,

Wichern,

Lübken

2023

Front. Agron.

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The traditional linear model in agriculture based on the so-called ‘take-make-waste’ has created many problems such as resource scarcity, waste generation, climate change and biodiversity loss. Recently, with the increase in public awareness, the attentiveness in developing a circular economy model was doubled with a focus on proper waste management to bring some benefits to the agricultural sector. Although the increasing acceptance of biochar as a carbon-based material capable of playing a multidimensional role in reducing waste, mitigating climate change, and creating a closed-loop agricultural system, it is still far to move to a final conclusion that biochar application in agriculture could bring attractive environmental and economic benefits. Research conducted so far has led to many insights into how to enhance agricultural sustainability through biochar application, as the impact of biochar is strongly interrelated to their inherent properties, which vary deeply with the nature of biomass and the preparation conditions. In the present study, a systematic literature review was performed to investigate the state- of-the-art research related to the application of biochar in agriculture and its contribution in the establishment of circular economy concept. The interlinking between biochar application in agriculture with energy-water systems and its contribution to successfully build up a circular economy model has also been investigated.

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Section: Coupling Biochar Application In Agriculture With Energy-wate...mentioning

confidence: 99%

Contribution of biochar application to the promotion of circular economy in agriculture

Enaime,

Wichern,

Lübken

2023

Front. Agron.

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“…In recent years, there has been a steady increase in the number of research papers focused on the isolation, characterization, and optimization of biosurfactants producing microbes ( Das and Kumar, 2018 ; Olasanmi and Thring, 2018 ; Khanna and Pattnaik, 2019 ; Rawat et al, 2020 ). Biosurfactants are the type of “glycoconjugates (combination of glycoprotein and glycolipids),” and the study of its structure, function, and interaction with the living system is called “glycobiotechnology” ( Messner et al, 2013 ; Enaime et al, 2019 ). Microbes produce some extracellular biosurfactants such as rhamnolipids, sophorolipids and exopeptidases, and glycol-lipopeptides.…”

Section: Biosurfactants: the Next Age Compounds In Pesticide Remediation And Their Typesmentioning

confidence: 99%

Tapping the Role of Microbial Biosurfactants in Pesticide Remediation: An Eco-Friendly Approach for Environmental Sustainability

2021

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Pesticides are used indiscriminately all over the world to protect crops from pests and pathogens. If they are used in excess, they contaminate the soil and water bodies and negatively affect human health and the environment. However, bioremediation is the most viable option to deal with these pollutants, but it has certain limitations. Therefore, harnessing the role of microbial biosurfactants in pesticide remediation is a promising approach. Biosurfactants are the amphiphilic compounds that can help to increase the bioavailability of pesticides, and speeds up the bioremediation process. Biosurfactants lower the surface area and interfacial tension of immiscible fluids and boost the solubility and sorption of hydrophobic pesticide contaminants. They have the property of biodegradability, low toxicity, high selectivity, and broad action spectrum under extreme pH, temperature, and salinity conditions, as well as a low critical micelle concentration (CMC). All these factors can augment the process of pesticide remediation. Application of metagenomic and in-silico tools would help by rapidly characterizing pesticide degrading microorganisms at a taxonomic and functional level. A comprehensive review of the literature shows that the role of biosurfactants in the biological remediation of pesticides has received limited attention. Therefore, this article is intended to provide a detailed overview of the role of various biosurfactants in improving pesticide remediation as well as different methods used for the detection of microbial biosurfactants. Additionally, this article covers the role of advanced metagenomics tools in characterizing the biosurfactant producing pesticide degrading microbes from different environments.

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“…Glycobiotechnology, involves the transfer of the basic knowledge structure and functional relationship of glycoconjugates to practice-related synthetic and applied producers [ 11 ]. The term “glycoconjugate” indicates the combination of glycoproteins and glycolipids.…”

Section: Introductionmentioning

confidence: 99%

Microbial glycoconjugates in organic pollutant bioremediation: recent advances and applications

et al. 2021

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The large-scale application of organic pollutants (OPs) has contaminated the air, soil, and water. Persistent OPs enter the food supply chain and create several hazardous effects on living systems. Thus, there is a need to manage the environmental levels of these toxicants. Microbial glycoconjugates pave the way for the enhanced degradation of these toxic pollutants from the environment. Microbial glycoconjugates increase the bioavailability of these OPs by reducing surface tension and creating a solvent interface. To date, very little emphasis has been given to the scope of glycoconjugates in the biodegradation of OPs. Glycoconjugates create a bridge between microbes and OPs, which helps to accelerate degradation through microbial metabolism. This review provides an in-depth overview of glycoconjugates, their role in biofilm formation, and their applications in the bioremediation of OP-contaminated environments.

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Performance and microbial analysis during long‐term anaerobic digestion of olive mill wastewater in a packed‐bed biofilm reactor

Cited by 14 publications

References 52 publications

Contribution of biochar application to the promotion of circular economy in agriculture

Contribution of biochar application to the promotion of circular economy in agriculture

Tapping the Role of Microbial Biosurfactants in Pesticide Remediation: An Eco-Friendly Approach for Environmental Sustainability

Microbial glycoconjugates in organic pollutant bioremediation: recent advances and applications

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