Real-time monitoring of water quality of stream water using sulfur-oxidizing bacteria as bio-indicator

Sedky H.A. Hassan; Anup Gurung; Woo chang Kang; Beom Soo Shin; Mostafa Rahimnejad; Byong Hun Jeon; Jung Rae Kim; Sang Eun Oh

doi:10.1016/j.chemosphere.2019.01.089

Real-time monitoring of water quality of stream water using sulfur-oxidizing bacteria as bio-indicator

Sedky H.A. Hassan, Anup Gurung, Woo chang Kang, Beom Soo Shin, Mostafa Rahimnejad, Byong Hun Jeon, Jung Rae Kim, Sang Eun Oh^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

In aquatic ecosystems, real-time water-quality (WQ) biomonitoring has become the most effective technology for monitoring toxic events by using living organisms as a biosensor. In this study, an online WQ monitoring system using sulfur oxidizing bacteria (SOB) was tested to monitor WQ changes in real-time in natural stream water. The WQ monitoring system consisted of three SOB reactors (one continuous and two semi-continuous mode reactors). The SOB system did not detect any toxicity in relatively-unpolluted, natural stream water when operated for more than six months. When diluted swine wastewater (50:1) was added to the influent of the reactors, the system detected toxic conditions in both the continuous and semi-continuous operational modes, showing 90% inhibition of SOB activity within 1 h of operation. The addition of 30 mg/L NO₂⁻-N or 2 mg/L of Cr⁶⁺ to the influents of SOB reactors resulted in the complete inhibition of the SOB activity within 1–2 h. The results demonstrated the successful application of an SOB bioassay as an online toxicity monitoring system for detecting pollutants from stream or river waters.

Original language	English
Pages (from-to)	58-63
Number of pages	6
Journal	Chemosphere
Volume	223
DOIs	https://doi.org/10.1016/j.chemosphere.2019.01.089
Publication status	Published - May 2019
Externally published	Yes

Keywords

Biomonitoring
Chromium
Nitrite ion (NO-N)
Swine wastewater
Toxicity

ASJC Scopus subject areas

Public Health, Environmental and Occupational Health
Pollution
General Chemistry
Health, Toxicology and Mutagenesis
Environmental Engineering
Environmental Chemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.chemosphere.2019.01.089

Cite this

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title = "Real-time monitoring of water quality of stream water using sulfur-oxidizing bacteria as bio-indicator",

abstract = "In aquatic ecosystems, real-time water-quality (WQ) biomonitoring has become the most effective technology for monitoring toxic events by using living organisms as a biosensor. In this study, an online WQ monitoring system using sulfur oxidizing bacteria (SOB) was tested to monitor WQ changes in real-time in natural stream water. The WQ monitoring system consisted of three SOB reactors (one continuous and two semi-continuous mode reactors). The SOB system did not detect any toxicity in relatively-unpolluted, natural stream water when operated for more than six months. When diluted swine wastewater (50:1) was added to the influent of the reactors, the system detected toxic conditions in both the continuous and semi-continuous operational modes, showing 90% inhibition of SOB activity within 1 h of operation. The addition of 30 mg/L NO2−-N or 2 mg/L of Cr6+ to the influents of SOB reactors resulted in the complete inhibition of the SOB activity within 1–2 h. The results demonstrated the successful application of an SOB bioassay as an online toxicity monitoring system for detecting pollutants from stream or river waters.",

keywords = "Biomonitoring, Chromium, Nitrite ion (NO-N), Swine wastewater, Toxicity",

author = "Hassan, {Sedky H.A.} and Anup Gurung and Kang, {Woo chang} and Shin, {Beom Soo} and Mostafa Rahimnejad and Jeon, {Byong Hun} and Kim, {Jung Rae} and Oh, {Sang Eun}",

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year = "2019",

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doi = "10.1016/j.chemosphere.2019.01.089",

language = "English",

volume = "223",

pages = "58--63",

journal = "Chemosphere",

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TY - JOUR

T1 - Real-time monitoring of water quality of stream water using sulfur-oxidizing bacteria as bio-indicator

AU - Hassan, Sedky H.A.

AU - Gurung, Anup

AU - Kang, Woo chang

AU - Shin, Beom Soo

AU - Rahimnejad, Mostafa

AU - Jeon, Byong Hun

AU - Kim, Jung Rae

AU - Oh, Sang Eun

PY - 2019/5

Y1 - 2019/5

N2 - In aquatic ecosystems, real-time water-quality (WQ) biomonitoring has become the most effective technology for monitoring toxic events by using living organisms as a biosensor. In this study, an online WQ monitoring system using sulfur oxidizing bacteria (SOB) was tested to monitor WQ changes in real-time in natural stream water. The WQ monitoring system consisted of three SOB reactors (one continuous and two semi-continuous mode reactors). The SOB system did not detect any toxicity in relatively-unpolluted, natural stream water when operated for more than six months. When diluted swine wastewater (50:1) was added to the influent of the reactors, the system detected toxic conditions in both the continuous and semi-continuous operational modes, showing 90% inhibition of SOB activity within 1 h of operation. The addition of 30 mg/L NO2−-N or 2 mg/L of Cr6+ to the influents of SOB reactors resulted in the complete inhibition of the SOB activity within 1–2 h. The results demonstrated the successful application of an SOB bioassay as an online toxicity monitoring system for detecting pollutants from stream or river waters.

AB - In aquatic ecosystems, real-time water-quality (WQ) biomonitoring has become the most effective technology for monitoring toxic events by using living organisms as a biosensor. In this study, an online WQ monitoring system using sulfur oxidizing bacteria (SOB) was tested to monitor WQ changes in real-time in natural stream water. The WQ monitoring system consisted of three SOB reactors (one continuous and two semi-continuous mode reactors). The SOB system did not detect any toxicity in relatively-unpolluted, natural stream water when operated for more than six months. When diluted swine wastewater (50:1) was added to the influent of the reactors, the system detected toxic conditions in both the continuous and semi-continuous operational modes, showing 90% inhibition of SOB activity within 1 h of operation. The addition of 30 mg/L NO2−-N or 2 mg/L of Cr6+ to the influents of SOB reactors resulted in the complete inhibition of the SOB activity within 1–2 h. The results demonstrated the successful application of an SOB bioassay as an online toxicity monitoring system for detecting pollutants from stream or river waters.

KW - Biomonitoring

KW - Chromium

KW - Nitrite ion (NO-N)

KW - Swine wastewater

KW - Toxicity

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JO - Chemosphere

JF - Chemosphere

ER -

Real-time monitoring of water quality of stream water using sulfur-oxidizing bacteria as bio-indicator

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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