Martin Esteban Kuc scite author profile

Martin Esteban Kuc

5Publications

39Citation Statements Received

50Citation Statements Given

How they've been cited

How they cite others

157

Affiliations

University of Haifa

Publications

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Biodegradation of the Endocrine-Disrupting Chemical 17α-Ethynylestradiol (EE2) by Rhodococcus zopfii and Pseudomonas putida Encapsulated in Small Bioreactor Platform (SBP) Capsules

Menashe¹,

Raizner

Kuc

et al. 2020

Applied Sciences

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In this study, we present an innovative new bio-treatment approach for 17α-ethynyestradiol (EE2). Our solution for EE2 decontamination was accomplished by using the SBP (Small Bioreactor Platform) macro-encapsulation method for the encapsulation of two bacterial cultures, Rhodococcus zopfii (R. zopfii ) and Pseudomonas putida F1 (P. putida). Our results show that the encapsulated R. zopffi presented better biodegradation capabilities than P. putida F1. After 24 h of incubation on minimal medium supplemented with EE2 as a sole carbon source, EE2 biodegradation efficacy was 73.8% and 86.5% in the presence of encapsulated P. putida and R. zopfii, respectively. In the presence of additional carbon sources, EE2 biodegradation efficacy was 75% and 56.1% by R. zopfii and P. putida, respectively, indicating that the presence of other viable carbon sources might slightly reduce the EE2 biodegradation efficiency. Nevertheless, in domestic secondary effluents, EE2 biodegradation efficacy was similar to the minimal medium, indicating good adaptation of the encapsulated cultures to sanitary effluents and lack of a significant effect of the presence of other viable carbon sources on the EE2 biodegradation by the two encapsulated cultures. Our findings demonstrate that SBP-encapsulated R. zopfii and P. putida might present a practical treatment for steroidal hormones removal in wastewater treatment processes.

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Phenol biodegradation by bacterial cultures encapsulated in 3D microfiltration-membrane capsules

Kurzbaum

Raizner

Kuc

et al. 2019

Environmental Technology

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Small bioreactor platform capsules provide persistent digestive biomass for continuous bioreactors operated under short hydraulic retention times

Kurzbaum

Raizner

Kuc

et al. 2020

Journal of Water Process Engineering

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Advanced oxidation process UV-H2O2 combined with biological treatment for the removal and detoxification of phenol

Bar-Niv

Azaizeh

Kuc

et al. 2022

Journal of Water Process Engineering

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Efficient biodegradation of phenol at high concentrations by Acinetobacter biofilm at extremely short hydraulic retention times

Kuc

Azerrad

Menashe³

et al. 2022

Journal of Water Process Engineering

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