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101. Efficiency of various biofilm carriers and microbial interactions with substrate in moving bed-biofilm reactor for environmental wastewater treatment

Author

Santhana Raj Deena, Gopalakrishnan Kumar, A.S. Vickram, Reeta Rani Singhania, Cheng–Di Dong, Karunakaran Rohini, K. Anbarasu, S. Thanigaivel, and Vinoth Kumar Ponnusamy

Subjects
Environmental Engineering, Bioreactors, Renewable Energy, Sustainability and the Environment, Biofilms, Microbial Interactions, Bioengineering, General Medicine, Biomass, Wastewater, Waste Management and Disposal, Waste Disposal, Fluid, Water Purification
Abstract

In a moving bed-biofilm reactor (MBBR), the fluidization efficiency, immobilization of microbial cells, and treatment efficiency are directly influenced by the shape and pores of biofilm carriers. Moreover, the efficacy of bioremediation mainly depends on their interaction interface with microbes and substrate. This review aims to comprehend the role of different carrier properties such as material shapes, pores, and surface area on bioremediation productivity. A porous biofilm carrier with surface ridges containing spherical pores sizes 1 mm can be ideal for maximum efficacy. It provides diverse environments for cell cultures, develops uneven biofilms, and retains various cell sizes and biomass. Moreover, the thickness of biofilm and controlled scaling shows a significant impact on MBBR performance. Therefore, the effect of these parameters in MBBR is discussed detailed in this review, through which existing literature and technical strategies that focus on the surface area as the primary factor can be critically assessed.

Published
2022

102. Adsorption of lead(II) onto PE microplastics as a function of particle size: Influencing factors and adsorption mechanism

Author

Thanh-Binh Nguyen, Thi-Bao-Chau Ho, C.P. Huang, Chiu-Wen Chen, Wei-Hsin Chen, Shuchen Hsieh, Shu-Ling Hsieh, and Cheng-Di Dong

Subjects
Ions, Environmental Engineering, Health, Toxicology and Mutagenesis, Microplastics, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Pollution, Lead, Polyethylene, Metals, Heavy, Environmental Chemistry, Adsorption, Particle Size, Plastics, Water Pollutants, Chemical
Abstract

The adsorption of Pb ions, on high-density polyethylene (PE) microplastics (MPs) with the diameter of 48-500 μm, was examined in this study. According to the Langmuir isotherm, MP of the smallest size, 48 μm, had the greatest adsorption capacity of 0.38 μmol g

Published
2022

103. A review on bismuth-based nanocomposites for energy and environmental applications

Author

PratimaDevi Sivasubramanian, Jih-Hsing Chang, Santhanalakshmi Nagendran, Cheng-Di Dong, Mohd Shkir, and Mohanraj Kumar

Subjects
Physical Phenomena, Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, Humans, General Medicine, General Chemistry, Pollution, Bismuth, Nanocomposites, Nanostructures
Abstract

Bismuth, a heavy metal which is found to be inexpensive and at a reduced cost, is utilized in the synthesis of different nanomaterials with novel structure, remarkable physical and chemical properties, adjustable bandgap, notable efficiency for photothermal conversion. These characteristics have made this element desirable for various applications such as storage and conversion of energy, electronics, sensors, photocatalysis, and other biomedical applications. These review papers are the vital points for the students, this report guides them to the research papers which focus on the impressive development in the area of bismuth and similar nanostructures. The purpose of the present review is to discuss the various synthesis routes of bismuth-based nanomaterials along with green synthesis, different nanostructures of bismuth, their significant properties, diverse applications and directions for the upcoming research. Therefore, with these different tuneable synthesis methods of bismuth-based nanomaterials combined with their novel properties, would elucidate on the future devices based on various nanostructures of bismuth.

Published
2022

104. Developing ecological risk assessment of metals released from sediment based on sediment quality guidelines linking with the properties: A case study for Kaohsiung Harbor

Author

Yun-Ru Ju, Chih-Feng Chen, Yee Cheng Lim, Chuan-Yi Tsai, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
Geologic Sediments, Environmental Engineering, Sulfides, Pollution, Risk Assessment, Carbon, Lead, Rivers, Metals, Heavy, Environmental Chemistry, Waste Management and Disposal, Water Pollutants, Chemical, Environmental Monitoring, Cadmium
Abstract

This study aimed to introduce sediment properties (total organic carbon (TOC), acid-volatile sulfides (AVS), particle size distribution) into sediment quality guideline-based risk quotients to assess the potential toxicity of metals (Ni, Cu, Zn, Cr, Cd, and Pb) released from sediments. Sediment was collected at three times points in 20 sampling sites in Kaohsiung Harbor. The Microtox® toxicity test was used to assess the sediment toxicity and the relationship between sediment toxicity and risk quotient estimated based on the metal concentration was constructed. To improve the toxicity prediction and modify the risk quotient according to the sediment properties, stepwise multiple linear regression (MLR) models that have been tested over wide ranges of TOC, AVS, and particle size distribution to determine the key sediment properties. Common multimetal indices, including the pollution load index, modified degree of contamination index, Nemerow pollution index, potential ecological risk index, and total toxic risk index, were compared with sediment toxicity to evaluate the degrees of correlation. By modifying the relationship between metal toxicity and the risk quotient by including TOC and AVS, the prediction showed that sediments in Kaohsiung Harbor were generally of slight acute toxicity to acute toxicity to organisms, with sampling sites near an industrial zone showing a higher probability of high acute toxicity. In particular, the acute risk of adverse effects on aquatic organisms from sediments in the Salt River estuary was significantly higher than that at other sites, which was consistent with the results of assessment based on the multimetal indices. This study suggests that the MLR-based approach may facilitate the adoption of updated site-specific metals standards that more accurately account for the parameters affecting metal bioavailability than metal concentration standard alone.

Published
2022

105. Impacts of Fishing Vessels on the Heavy Metal Contamination in Sediments: A Case Study of Qianzhen Fishing Port in Southern Taiwan

Author

Yee-Cheng Lim, Chih-Feng Chen, Mei-Ling Tsai, Chung-Hsin Wu, Yi-Li Lin, Ming-Huang Wang, Frank Paolo Jay B. Albarico, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
heavy metal, sediment, fishing port, fishing vessel, pollution index, antifouling paint, Geography, Planning and Development, Aquatic Science, Biochemistry, Water Science and Technology
Abstract

Routine maintenance of fishing vessels and wastewater discharges are primary sources of heavy metals in fishing ports. Sediment pollution assessment is necessary in fishing port management, including sediment dredging and disposal, sewage treatment facility construction, and pollution source control. In this study, sediment heavy metal contents in Qianzhen Fishing Port, the largest pelagic fishery port in Taiwan, were investigated to assess the contamination levels and related potential ecological risks using multiple sediment pollution indices. Normalization methods were applied to identify the potential sources of heavy metals in fishing port sediments. Results showed that Cu, Zn, Pb, and Cr contents in the sediments of the inner fishing port (averages of 276, 742, 113, and 221 mg/kg, respectively) were 3–5 times greater compared to those along the port entrance and outside, indicating the strong impacts of anthropogenic pollution (EFCu: 5.6–12.5; EFZn: 2.8–4.3; EFPb: 2.4–5.4; EFCr: 1.1–3.2). Copper pollution was more severe, with high maxima contamination factor (CFCu: 15.1–24.8), probably contributed by copper-based antifouling paints used in fishing vessels. The sediments in the inner fishing port are categorized as having considerable ecological risk and toxicity (mERMq: 0.61–0.91; ΣTU: 7.5–11.7) that can potentially cause adverse effects on benthic organisms. Qianzhen Fishing Port sediments can be characterized as high Cu/Fe and Pb/Fe, moderate Zn/Fe, and high total grease content, indicating that the potential sources of heavy metals are primarily antifouling paints and oil spills from the fishing vessels. This study provides valuable data for pollution control, remediation, and environmental management of fishing ports.

Published
2022
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106. Suppression of polycyclic aromatic hydrocarbon formation during pyrolytic production of lignin-based biochar via nitrogen and boron co-doping

Author

Chang-Mao Hung, Chiu-Wen Chen, Chin-Pao Huang, Yan-Yi Yang, and Cheng-Di Dong

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Nitrogen, Charcoal, Bioengineering, General Medicine, Carbon Dioxide, Polycyclic Aromatic Hydrocarbons, Waste Management and Disposal, Lignin, Pyrolysis, Boron
Abstract

Polycyclic aromatic hydrocarbons are toxic byproducts of biochar production. The effects of pyrolysis atmosphere (i.e., N

Published
2022

107. Fabrication and modification of forward osmosis membranes by using graphene oxide for dye rejection and sludge concentration

Author

Chung-Hsin Wu, Ching-Shih Lin, Kuo-Lun Tung, Chiu-Wen Chen, Yi-Li Lin, and Cheng-Di Dong

Subjects
chemistry.chemical_classification, 021110 strategic, defence & security studies, Environmental Engineering, Materials science, General Chemical Engineering, Forward osmosis, 0211 other engineering and technologies, Oxide, Substrate (chemistry), 02 engineering and technology, Polymer, 010501 environmental sciences, 01 natural sciences, Casting, chemistry.chemical_compound, Membrane, Chemical engineering, chemistry, Environmental Chemistry, Polysulfone, Phase inversion (chemistry), Safety, Risk, Reliability and Quality, 0105 earth and related environmental sciences
Abstract

In this study, the preparation procedures for the polysulfone (PSf) substrate and polyamide (PA) selective layers were systematically investigated to determine their effects on the separation performance of thin-film composite (TFC) forward osmosis (FO) membranes in terms of the permeate flux (Jw) and reverse solute flux (Js). Furthermore, the PA active layer was modified by adding different proportions of an emerging material, graphene oxide (GO), to increase Jw and decrease Js. The experimental results indicated that special attention should be paid to the preparation of the PSf casting solution, which required thorough degassing, sealing, and humidity and temperature control. The optimum casting height was discovered to be 175 μm. For PA layer formation, the same amount of polymer solutions (resulting thickness of 78.5 μm) on the top surface of the PSf substrate (on the side facing the water during phase inversion) resulted in the highest FO performance. GO modification of the PA layer at the dosage of 0.0175 wt% considerably enhanced Jw to 14 L m−2 h−1 and reduced Js to 0.23 mol m−2 h−1. However, higher GO dosage (0.02 wt%) led to lower membrane performance due to aggregation of GO nanoparticles, as confirmed using scanning electron microscopy. Next, the prepared membranes were applied to dye rejection and sludge concentration for water recovery. The virgin and modified FO membranes both exhibited high rejection efficiency (≥96.0 %) for dyes commonly used in the textile industry. The 0.0175 %-GO-modified FO membrane exhibited a higher concentration factor (1.67) and greater water recovery (40.0 %) than the virgin membrane (1.45 and 31.2 %, respectively). Therefore, the application of FO for water recovery is economic and environmentally friendly in terms of saving the transportation cost of sludge disposal while recovering water for reuse in wastewater treatment plants.

Published
2020
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108. Nickel ferrite nanoenabled graphene oxide (NiFe2O4@GO) as photoactive nanocomposites for water treatment

Author

Cheng-Di Dong, Sergi Garcia-Segura, Allen Rhay B. Bayantong, Mark Daniel G. de Luna, and Yu Jen Shih

Subjects
Materials science, Nanocomposite, Graphene, Health, Toxicology and Mutagenesis, Advanced oxidation process, Oxide, General Medicine, 010501 environmental sciences, 01 natural sciences, Pollution, Nanomaterial-based catalyst, law.invention, Nanomaterials, chemistry.chemical_compound, Adsorption, chemistry, Chemical engineering, law, Photocatalysis, Environmental Chemistry, 0105 earth and related environmental sciences
Abstract

Nanocomposite materials can enhance the capabilities of water treatment processes such as photocatalysis. In this work, novel light-driven nanocatalysts were synthesized by using nickel ferrite (NiFe2O4) to nanoenable graphene oxide (GO) substrates. GO is an emerging 2D nanomaterial with high conductivity and adsorption properties. Moreover, the electric properties of GO improve photocatalytic performance by promoting charge carrier separation. Results of the characterization of the nickel ferrite nanoenabled graphene oxide (NiFe2O4@GO) nanocomposites demonstrate that homogeneous and stable photocatalysts were produced. The as-synthesized nanocatalysts enabled complete decolorization of the colored water matrix in short irradiation times of 150 min using minimal catalyst loading at 0.5 g L−1. The selective hook and destroy mechanism reduced the competitive effect of co-existing ions in solution. Furthermore, the use of specific scavengers helped to elucidate the degradation mechanisms of organic dye methylene blue by NiFe2O4@GO nanocomposites.

Published
2020
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109. Detecting phthalate esters in sludge particulates from wastewater treatment plants

Author

Chung-Hsin Wu, Ken-Lin Chang, Ming-Huang Wang, Yu Jen Shih, Chih-Feng Chen, Chiu-Wen Chen, Yi-Li Lin, Cheng-Di Dong, and Shu-Hui Lee

Subjects
021110 strategic, defence & security studies, Environmental Engineering, Sewage, Phthalic Acids, Taiwan, 0211 other engineering and technologies, Phthalate, 02 engineering and technology, General Medicine, Wastewater, 010501 environmental sciences, Particulates, Pulp and paper industry, 01 natural sciences, Gas Chromatography-Mass Spectrometry, Water Purification, chemistry.chemical_compound, chemistry, Diethylhexyl Phthalate, Sewage treatment, 0105 earth and related environmental sciences
Abstract

This study proposed a method for analysis of 10 phthalate esters compounds from wastewater treatment plant sludges. The analytical efficiency of GC-MS for of target compounds was verified by a standard mixture of phthalate esters. The response factors related to the respective internal standards from a five-point calibration curve quantified the phthalate esters in individual compounds. Based on the literature compiled by environmental agencies, new generation phthalate compounds have been developed, such as di-iso-nonyl phthalate (DiNP), di-iso-decyl phthalate (DiDP), as alternative to conventional phthalates. The analytical results showed that the total PAEs concentration was in the range from 7.4 to 138.6 mg kg

Published
2020
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110. Remediation of petroleum-hydrocarbon contaminated groundwater using optimized in situ chemical oxidation system: Batch and column studies

Author

Francis Verpoort, Cheng-Di Dong, Shaohua Chen, Zong-Han Yang, Chiu-Wen Chen, and Chih-Ming Kao

Subjects
inorganic chemicals, chemistry.chemical_classification, 021110 strategic, defence & security studies, Environmental Engineering, Environmental remediation, General Chemical Engineering, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, Persulfate, 01 natural sciences, Toluene, Toluene oxidation, Ferrous, chemistry.chemical_compound, Hydrocarbon, chemistry, In situ chemical oxidation, Environmental chemistry, Environmental Chemistry, Safety, Risk, Reliability and Quality, Benzene, 0105 earth and related environmental sciences
Abstract

In this study, Fenton oxidation and activated persulfate oxidation were used to investigate the optimized in situ chemical oxidation (ISCO) process for its efficiency on petroleum-hydrocarbon contaminated groundwater cleanup. In the batch and column experiments using benzene and toluene as the target compounds, oxidant depletion, soil oxidant demand (SOD), adsorption of oxidant on soils, and oxidation kinetics were studied. Results show that Fenton oxidation process was more catalytic than activated persulfate oxidation by ferrous iron catalysis. Higher SOD value was obtained for H2O2 than persulfate because H2O2 had higher reactivity to soil organic matter. In addition, increased benzene and toluene oxidation rates were observed with increased concentrations of H2O2 and persulfate oxidants. The calculated pseudo first-order decay rate constants (k’) for Fenton and activated persulfate oxidation processes were 1.65 and 0.13 1/h for benzene and 1.28 and 0.1 1/h for toluene, respectively. Compared to persulfate oxidation, results indicate that Fenton oxidation had much higher reaction rates on petroleum hydrocarbon oxidation. Results from the column experiment show that up to 5.94 pore volumes (PVs) of H2O2 solution and 12.85 PVs of persulfate solution were required to cleanup benzene and toluene contaminated groundwater with an oxidant concentration of 10 wt%, ferrous iron concentration of 100 mg/L, and initial contaminant concentration of 50 mg/L. Results indicate that the Fenton oxidation process would be a more practical and efficient approach to remediate petroleum-hydrocarbon contaminated groundwater. The results would be useful in developing an ISCO system for a practical field application to cleanup benzene and toluene contaminated groundwater.

Published
2020
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111. Microalgae‐microbial fuel cell ( <scp>mMFC</scp> ): an integrated process for electricity generation, wastewater treatment, <scp> CO 2 </scp> sequestration and biomass production

Author

Hong-Wei Yen, Adi Kusmayadi, Yoong Kit Leong, Cheng-Di Dong, Jo Shu Chang, and Chi Yu Huang

Subjects
Fuel Technology, Electricity generation, Microbial fuel cell, Nuclear Energy and Engineering, Renewable Energy, Sustainability and the Environment, Scientific method, Energy Engineering and Power Technology, Environmental science, Production (economics), Biomass, Sewage treatment, Carbon sequestration, Pulp and paper industry
Published
2020
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112. Lactic Acid Production from Renewable Feedstocks Using Poly(vinyl alcohol)-Immobilized Lactobacillus plantarum 23

Author

Jo Shu Chang, Duu-Jong Lee, Atika Nandini, Dillirani Nagarajan, and Cheng-Di Dong

Subjects
Vinyl alcohol, biology, business.industry, General Chemical Engineering, food and beverages, 02 engineering and technology, General Chemistry, Raw material, 021001 nanoscience & nanotechnology, biology.organism_classification, complex mixtures, Industrial and Manufacturing Engineering, Lactic acid, Renewable energy, carbohydrates (lipids), chemistry.chemical_compound, 020401 chemical engineering, chemistry, Fermentation, Food science, 0204 chemical engineering, 0210 nano-technology, business, health care economics and organizations, Lactobacillus plantarum
Abstract

Microbial fermentation is the source of commercial lactic acid (LA), and the price of fermentation-derived LA is heavily challenged by the feedstock price. This study evaluated four different categ...

Published
2020
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113. Novel MoS2 quantum dots as a highly efficient visible-light driven photocatalyst in water remediation

Author

Shu-Ling Hsieh, Chia-Hung Kuo, Wei-Hsiang Chen, Chiu-Wen Chen, Linjer Chen, Cheng-Di Dong, and Shuchen Hsieh

Subjects
Materials science, X-ray photoelectron spectroscopy, Absorption spectroscopy, Quantum dot, General Chemical Engineering, Photocatalysis, Degradation (geology), Nanotechnology, General Chemistry, High-resolution transmission electron microscopy, Hydrothermal circulation, Visible spectrum
Abstract

A direct and efficient hydrothermal system has been established for the synthesis of MoS2 quantum dots (QDs). Novel MoS2 QDs are an excellent potential photocatalysts to enhance photocatalytic response by charge separation under visible light irradiation. The optimum capability of QDs demonstrated the excellent photocatalytic ability for the degradation of organic pollutants. The microstructural, morphological, and optical properties of the MoS2 QDs are defined via X-ray diffraction (XRD), SEM, HRTEM, XPS, and UV-Vis absorption spectroscopy techniques. Under visible light irradiation, MoS2 QDs have great photocatalytic response for the degradation of Rh B that is 20 times higher than those of bulk MoS2 materials. The QDs possess practically the same catalytic response after 5 recycle runs, which is an evident proof of its stability. This course might pave the route toward creating current visible-light caused QD photocatalyst strategies for the highly valuable degradation of organic pollutants or antibiotics.

Published
2020
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116. Consolidated bioprocessing of lignocellulosic biomass: Technological advances and challenges

Author

Reeta Rani Singhania, Anil Kumar Patel, Anusuiya Singh, Dibyajyoti Haldar, Shveta Soam, Chiu-Wen Chen, Mei-Ling Tsai, and Cheng-Di Dong

Subjects
Technology, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Biofuels, Fermentation, Bioengineering, General Medicine, Biomass, Waste Management and Disposal, Lignin
Abstract

Consolidated bioprocessing (CBP) is characterized by a single-step production of value-added compounds directly from biomass in a single vessel. This strategy has the capacity to revolutionize the whole biorefinery concept as it can significantly reduce the infrastructure input and use of chemicals for various processing steps which can make it economically and environmentally benign. Although the proof of concept has been firmly established in the past, commercialization has been limited due to the low conversion efficiency of the technology. Either a native single microbe, genetically modified microbe or a consortium can be employed. The major challenge in developing a cost-effective and feasible CBP process is the recognition of bifunctional catalysts combining the capability to use the substrates and transform them into value-added products with high efficiency. This article presents an in-depth analysis of the current developments in CBP around the globe and the possibilities of advancements in the future.

Published
2022

117. Ecological responses of coral reef to polyethylene microplastics in community structure and extracellular polymeric substances

Author

Chang-Mao Hung, Chiu-Wen Chen, Chin-Pao Huang, Shu-Ling Hsieh, and Cheng-Di Dong

Subjects
Coral Reefs, Extracellular Polymeric Substance Matrix, Health, Toxicology and Mutagenesis, Microplastics, General Medicine, Toxicology, Anthozoa, Dissolved Organic Matter, Pollution, Polyethylene, Animals, Plastics, Ecosystem, Water Pollutants, Chemical
Abstract

The relationships and interactions between extracellular polymeric substances (EPS) and microplastics (MPs) in coral reef ecosystems were symmetrically investigated. The current study aims to investigate the responses of scleractinian coral (Goniopora columna) to exposure of model MPs, exemplified by polyethylene (PE), in the size range of 40-48 μm as affected by MPs concentration of MP in the range between 0 and 300 mg L

Published
2022

118. Butyltin Contamination in Fishing Port Sediments after the Ban of Tributyltin Antifouling Paint: A Case of Qianzhen Fishing Port in Taiwan

Author

Shu-Hui Lee, Yung-Sheng Chen, Chih-Feng Chen, Frank Paolo Jay B. Albarico, Yee Cheng Lim, Ming-Huang Wang, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
Geography, Planning and Development, butyltins, fishing port, sediments, tributyltin (TBT), organotins, Aquatic Science, Biochemistry, Water Science and Technology
Abstract

This study investigated the concentrations of monobutyltin (MBT), dibutyltin (DBT) and tributyltin (TBT) in the sediments of the Qianzhen Fishing Port (Taiwan) in 2020. Further, the pollution status, composition, and potential ecotoxicity of BTs were evaluated. This case study provides a reference for the benefits of the ban of TBT-based antifouling paint to date. Results showed that the total butyltin (ΣBTs, sum of TBT, DBT, and MBT) concentrations measured in the sediments of the Qianzhen Fishing Port ranged between 14.2–807 ngSn·g−1 dw, with an average of 356 ± 305 ngSn·g−1 dw. TBT was the most dominant species, with an average concentration of 303 ± 287 ngSn·g−1 dw. This average TBT concentration is about 4.3 times lower than in 2003, showing the progress of gradual degradation of TBT in the sediments. Still, the degradation is rather slow, with a half-life of about 8.09 years. An analysis of the effects of TBT on organisms in the sediments of the Qianzhen Fishing Port was carried out according to the TBT toxicity guidelines of the US Environmental Protection Agency and the assessment class criterion for imposex (ACCI) of the Oslo and Paris Commission (OSPAR). The results showed that TBT levels in 80% of the sediments may pose negative effects on sensitive gastropods, and half of the sediments may even have an impact on gastropod reproduction. These show that marine life is still affected and threatened by TBT compounds, despite the decline of TBT concentrations since the ban of TBT-containing antifouling paints on ships in 2008. Therefore, it is necessary to continue paying attention to the changes of TBT concentrations and their potential ecological risks in the marine environment, and to formulate TBT management plans and strategies to mitigate their impacts in marine ecosystems.

Published
2022
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119. Anti-Obesity Effect of Nostoc commune Ethanol Extract In Vitro and In Vivo

Author

Sheng-Chieh Tsai, Yu-Wen Huang, Chih-Chung Wu, Jyh-Jye Wang, Ya-Ting Chen, Reeta Rani Singhania, Chiu-Wen Chen, Cheng-Di Dong, and Shu-Ling Hsieh

Subjects
Nutrition and Dietetics, Nostoc commune, phytochemical, anti-oxidations ability, 3T3-L1 pre-adipocytes, obesity, Food Science
Abstract

Nostoc commune is an edible terrestrial blue-green alga. It has shown many beneficial effects on human health. This study aimed to investigate the phytochemical assay of N. commune ethanol extract (NEE) and its anti-obesity effects. The effect of a high-calorie diet on lipid accumulation in 3T3-L1 preadipocytes is investigated, and a Wistar rat model is used to demonstrate the anti-obesity effect of NEE and its mechanism. The results showed that the NEE has phytochemical compounds, such as total polyphenol, total flavonoids, and total terpenoids. NEE was also shown to suppress cell proliferation and lipid accumulation (26.9%) in 3T3-L1 preadipocytes. Furthermore, NEE reduced the body weight (13.5%), fat tissue weight (13.3%), and the serum FFA (19.4%), TG (14.2%), TC (11.8%), and LDL-C (16.4%) of rats. In histopathology, NEE was shown to diminish the size of adipocytes and hepatic lipid droplets. The NEE downregulated the mRNA expression of adipogenesis (PPAR-γ, SREBP-1c) and lipid lysis-related genes (ATGL, HSL) in epididymal adipose tissue. The NEE also upregulated the mRNA expression of β-oxidation related genes (AMPK, CPT-1, PPAR-α) in the liver. Overall, this study suggests NEE has the potential to be developed as a functional food for anti-obesity.

Published
2022
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121. Bioprospecting of marine microalgae from Kaohsiung Seacoast for lutein and lipid production

Author

Anil Kumar Patel, Akash Pralhad Vadrale, Yi-Sheng Tseng, Chiu-Wen Chen, Cheng-Di Dong, and Reeta Rani Singhania

Subjects
Bioprospecting, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Lutein, Microalgae, Bioengineering, General Medicine, Biomass, Chlorella, Waste Management and Disposal, Lipids
Abstract

A bioprospecting study was conducted from Seawater samples collected at Kaohsiung Seacoast, Taiwan. The current research was aimed to isolate potential lutein-producing strain, evaluate and optimize the best cultivation mode, lutein accumulation stage, lutein-extraction method, and condition to recover maximum lutein (main product) and lipid (byproduct). Biorefinery is the latest approach worldwide to extract multi-products for cost-effectiveness. Selected isolate among several isolates, identified as Chlorella sorokiniana Kh12 and exploited under biorefinery concept for lutein and lipid extraction. Kh12 cultivated under mixotrophy: 2X-(HT)-9k yielded maximum biomass (3.46 g L

Published
2022

122. Algae as an emerging source of bioactive pigments

Author

Anil Kumar Patel, Frank Paolo Jay B. Albarico, Pitchurajan Krishna Perumal, Akash Pralhad Vadrale, Cherry T Nian, Ho Thi Bao Chau, Choirul Anwar, Henna Mohi ud din Wani, Anugunj Pal, Reetu Saini, Le Hai Ha, Balamurugan Senthilkumar, Yi-Sheng Tsang, Chiu-Wen Chen, Cheng-Di Dong, and Reeta Rani Singhania

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Chlorophyceae, Zeaxanthins, Lutein, Microalgae, Bioengineering, General Medicine, Chlorella, Waste Management and Disposal, Carotenoids
Abstract

Algae have been identified as natural producer of bioactive commercial pigments. To perform photosynthesis, algae use pigments to harvest sunlight energy. The pigments found in algae are categorized in chlorophylls, phycobilins, and carotenoids. Popular carotenoids include astaxanthin, lutein,fucoxanthin, canthaxanthin, zeaxanthin, β-cryptoxanthin and finds application as antioxidant, anti-inflammatory, immunoprophylactic, antitumor activities among others. Due to double-bonds in their structure, they exhibit broad health applications while protecting other molecules from oxidative stress induced by active radicals using various mechanisms. These carotenoids are synthesized by certain species as major products however they also present as byproducts in several species based on the pathway and genetic capability. Haematococcus pluvialis and Chlorella zofingiensis are ideal strains for commercial astaxanthin production. This review provides recent updates on microalgal pigment production, extraction, and purification processes to standardize and analyze for commercial production. Also, discussed the factors affecting its production, application, market potential, bottlenecks, and future prospects.

Published
2022

123. Method Development for Low-Concentration PAHs Analysis in Seawater to Evaluate the Impact of Ship Scrubber Washwater Effluents

Author

Chih-Feng Chen, Yee Cheng Lim, Yun-Ru Ju, Frank Paolo Jay B. Albarico, Jia-Wei Cheng, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
Water supply for domestic and industrial purposes, polycyclic aromatic hydrocarbons (PAHs), Geography, Planning and Development, seawater, maximum permissible concentrations (MPCs), pre-concentration system, Hydraulic engineering, Aquatic Science, TC1-978, Biochemistry, TD201-500, Water Science and Technology
Abstract

A naval ship’s exhaust gas scrubber may discharge polycyclic aromatic hydrocarbons (PAHs) into seawater. Due to the high lipophilicity and low water solubility of PAHs, their concentrations in seawater are extremely low, making them difficult to detect or accurately determine. To accurately assess the impact of scrubber washwater effluent on the PAHs concentration of seawater, appropriate analysis methods must be established. In this study, a large-volume pre-concentration water sampler was used onboard to concentrate PAHs in surface seawater (100 L) from four sites offshore of southern Taiwan. The quantitative and qualitative analysis of dissolved PAHs in seawater and quality control samples were implemented using a GC/MS system with the aid of internal and surrogate standards. Results showed that the field and equipment blank samples of quality control samples were lower than twice the detection limit. The detection limit of individual PAHs is between 0.001 (naphthalene, NA) and 0.014 ng/L (dibenzo[a,h]anthracene, DBA), which meets the requirements for evaluating PAHs in seawater (that is, less than the maximum permissible concentrations (MPCs)). The concentration of total PAHs (TPAHs) in the four seawater samples ranged from 2.297 to 4.001 ng/L and had an average concentration of 3.056 ± 0.727 ng/L. The concentrations of 16 PAHs were determined in each seawater sample, indicating that the analytical method in this study is suitable for the determination of low-concentration PAHs in seawater. Phenanthrene (PHE) is the most dominant compound in seawater samples accounting for 59.6 ± 12.6% of TPAHs, followed by fluorine (FL) accounting for 8.5 ± 3.7%. The contribution of high-ring PAHs to TPAHs is not high (0.5–9.2%), but the observed concentrations can cause a higher risk to aquatic organisms than low-ring PAHs. The diagnostic ratio showed that the sources of PAHs in the seawater collected offshore of southern Taiwan may include mixed sources such as petrogenic, petroleum combustion, and biomass combustion. The results can be used for regular monitoring, which contributes to pollution prevention and management of the marine environment.

Published
2022
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124. Selective Electrochemical Sensing Platform Based on the Synergy between Carbon Black and Single-Crystalline Bismuth Sulfide for Rapid Analysis of Antipyretic Drugs

Author

Sea-Fue Wang, Raja Nehru, Cheng-Di Dong, Chiu-Wen Chen, and Yung-Fu Hsu

Subjects
Materials science, Antipyretics, Biochemistry (medical), Biomedical Engineering, Reproducibility of Results, General Chemistry, Carbon black, Sulfides, Electrochemistry, Carbon, Biomaterials, Pharmaceutical Preparations, Soot, Bismuth sulfide, Antipyretic drugs, Bismuth, Nuclear chemistry, Acetaminophen
Abstract

Nanomaterials are of significant interest in acetaminophen (APAP) detection in pharmaceutical samples. Herein, a carbon black/single-crystalline rodlike bismuth sulfide (CB/Bi

Published
2022

125. A review on global perspectives of sustainable development in bioenergy generation

Author

Prangan Duarah, Dibyajyoti Haldar, Anil Kumar Patel, Cheng-Di Dong, Reeta Rani Singhania, and Mihir Kumar Purkait

Subjects
Fossil Fuels, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Biofuels, Bioengineering, General Medicine, Biomass, Sustainable Development, Waste Management and Disposal
Abstract

Over the last few decades, the globe has much relied on fossil fuels; however, environmental concerns forced the World to look at biofuel as an alternative for stable economic development. Biofuel also facilitates national energy security maintenance and reduces environmental complications. The present study is focused on an in-depth analysis of bioenergy policy measures undertaken by various federal agencies of different countries in order to shed light on the bottlenecks that impede biofuel's growth as a sustainable and alternative fuel. An in-depth assessment of feedstock utilization, blending targets, and policy assistance schemes have been thoroughly reviewed. In addition, the potential of commercial firms for the production of bioenergy is highlighted in order to grasp the current bioenergy market scenario better. Finally, the article is concluded with the viewpoints of the authors to address the standing issues of global bioenergy generation.

Published
2022

126. Development of alternative disposals for waste rice husk and dredged harbor sediment by sintering as lightweight aggregates

Author

Yee Cheng Lim, Chih-Feng Chen, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
Environmental Chemistry, General Medicine, Waste Management and Disposal, Water Science and Technology
Abstract

This study developed the alternative disposals for dredged harbor sediments by co-sintering with waste rice husk into lightweight aggregates (LWA) to benefit resource sustainability and waste valorization. The effects of rice husk addition and sintering temperature on LWA performances such as water absorption, particle density, crushing strength, weight loss, volume shrinkage, and open porosity were investigated. The key parameters (e.g. C/Fe ratio in raw materials) controlling the LWA performances and engineering applications were determined. Results showed that dredged harbor sediments could be made into suitable LWA for engineering applications from the controlled rice husk addition and sintering temperature. The addition of rice husk led to lower LWA particle density, but raised water absorption and reduced crushing strength. The increase of sintering temperature reduced water absorption and improved crushing strength. The aggregates with 10–15% rice husk, sintered at 1150 °C had appropriate particle density (1.60–1.73 g/cm3), water absorption (11.8–16.6%), and crushing strength (6.0–10.6 MPa), which could be suitable for lightweight concrete applications. Low water-soluble chloride and heavy metals leachabilities aligned with Taiwan’s regulatory standards for concrete aggregates. Co-treating waste rice husk and dredged harbor sediment into LWA can benefit the waste reduction and circular economy, and reduce the environmental impacts associated with their disposals.

Published
2022
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134. Bioprocess development to enhance biomass and lutein production from Chlorella sorokiniana Kh12

Author

Akash Pralhad Vadrale, Cheng-Di Dong, Dibyajyoti Haldar, Chien-Hui Wu, Chiu-Wen Chen, Reeta Rani Singhania, and Anil Kumar Patel

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Waste Management and Disposal
Abstract

Present study focused on optimizing bioprocess condition for microalgal lutein production. From previous baseline yields of biomass (3.46 g/L) and lutein (13.7 mg/g), this study examined few key parameters. The 3X:3X ratio macro- and micronutrients was the most affecting parameter with highest biomass and lutein yields of 4.61 g/L and 14.3 mg/g. Temperature 30 °C enhanced the lutein up to 17.3 mg/g but reduced the biomass to 3 g/L. The light effects study showed 10k lux was most effective for lutein up to 14 mg/g, and effect of increasing salinity (25-75%) was detrimental. All the above parameters' optimization resulted in a lipid content of 22.5-26.5%. A maximum lutein productivity and yield of 0.451 mg/L/d and 65.74 mg/L with a 3X:3X macro- and micronutrient ratio was achieved. The Chlorella sorokiniana Kh12 strain exhibited one of the highest yields among recent reports; hence it could be a source for commercial lutein production.

Published
2023
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139. Microbial community structure and potential function associated with poly-3-hydroxybutyrate biopolymer-boosted activation of peroxymonosulfate for waste-activated sludge decontamination

Author

Chang-Mao, Hung, Chiu-Wen, Chen, Chin-Pao, Huang, Der-Shyan, Sheu, and Cheng-Di, Dong

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Waste Management and Disposal
Abstract

Excess waste-activated sludge (WAS) is a major biosolid management problem due to its biohazardous and recalcitrant content of phthalate esters (PAEs). This study aimed to assess the combined use of biopolymer, poly-3-hydroxybutyrate and peroxymonosulfate to degrade PAEs and decontaminate WAS. Poly-3-hydroxybutyrate was biosynthesized by Cupriavidus sp. L7L. The combined poly-3-hydroxybutyrate and peroxymonosulfate process removed 86 % of PAEs from WAS in 12 h. The carbonyl groups of poly-3-hydroxybutyrate were conducive to peroxymonosulfate activation leading to PAE degradation followed the radical pathway and surface-mediated electron transfer. Poly-3-hydroxybutyrate and peroxymonosulfate also enriched the PAE-biodegrading microbes in WAS. The microbial population and the functional composition in response to peroxymonosultate treatment was identified, with the genus Sulfurisoma being the most abundant. This synergistic treatment, i.e., advanced oxidation process, was augmented by highly promising microbial polyesters, exhibited important implications for WAS pretreatment toward circular bioeconomy that encompasses carbon-neutral biorefinery and mitigate pollution.

Published
2023
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140. Removal of heavy metals from aqueous solutions by high performance capacitive deionization process using biochar derived from Sargassum hemiphyllum

Author

Quoc-Minh, Truong, Thanh-Binh, Nguyen, Wei-Hsin, Chen, Chiu-Wen, Chen, Anil Kumar, Patel, Xuan-Thanh, Bui, Reeta Rani, Singhania, and Cheng-Di, Dong

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Bioengineering, General Medicine, Waste Management and Disposal
Abstract

Capacitive deionization (CDI) has been considered as an efficient, energy-saving and environmental friendly technology for water treatment. For the practical application of CDI, high-performance electrode materials beyond standard activated carbon should be developed. In this study, biochar derived from brown algae Sargassum hemiphyllum prepared by pyrolysis at 300-700 °C and then used as the CDI electrode to remove Cu(II) from aqueous solutions. According to the findings, the optimal pyrolysis temperature was 700 °C, and the electrosorption capacity of BAB700 was 75-120 mg·g

Published
2023
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141. Laccase: A potential biocatalyst for pollutant degradation

Author

Cheng-Di Dong, Ashutosh Tiwari, Grace Sathyanesan Anisha, Chiu-Wen Chen, Anusuiya Singh, Dibyajyoti Haldar, Anil Kumar Patel, and Reeta Rani Singhania

Subjects
Health, Toxicology and Mutagenesis, General Medicine, Toxicology, Pollution
Abstract

In the continual march to a predominantly urbanized civilization, anthropogenic activities have increased scrupulously, industrialization have occurred, economic growth has increased, and natural resources are being exploited, causing huge waste management problems, disposal issues, and the evolution of several pollutants. In order to have a sustainable environment, these pollutants need to be removed and degraded. Bioremediation employing microorganisms or enzymes can be used to treat the pollutants by degrading and/or transforming the pollutants into different form which is less or non-toxic to the environment. Laccase is a diverse enzyme/biocatalyst belonging to the oxidoreductase group of enzymes produced by microorganisms. Due to its low substrate specificity and monoelectronic oxidation of substrates in a wide range of complexes, it is most commonly used to degrade chemical pollutants. For degradation of emerging pollutants, laccase can be efficiently employed; however, large-scale application needs reusability, thermostability, and operational stability which necessitated strategies like immobilization and engineering of robust laccase possessing desirable properties. Immobilization of laccase for bioremediation, and treatment of wastewater for degrading emerging pollutants have been focussed for sustainable development. Challenges of employing biocatalysts for these applications as well as engineering robust laccase have been highlighted in this study.

Published
2023
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142. Advancement in algal bioremediation for organic, inorganic, and emerging pollutants

Author

Siddhant Dubey, Chiu-Wen Chen, Dibyajyoti Haldar, Vaibhav Sunil Tambat, Prashant Kumar, Ashutosh Tiwari, Reeta Rani Singhania, Cheng-Di Dong, and Anil Kumar Patel

Subjects
Health, Toxicology and Mutagenesis, General Medicine, Toxicology, Pollution
Abstract

Rapidly changing bioremediation prospects are key drive to develop sustainable options that can offer extra benefits rather than only environmental remediation. Algal remediating is gaining utmost attention due to its mesmerising sustainable features, removing odour and toxicity, co-remediating numerous common and emerging inorganic and organic pollutants from gaseous and aqueous environments, and yielding biomass for a range of valuable products refining. Moreover, it also improves carbon footprint via carbon-capturing offers a better option than any other non-algal process for several high CO

Published
2023
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143. Role of hydrothermal pretreatment towards sustainable biorefinery

Author

Anusuiya, Singh, Mei-Ling, Tsai, Chiu-Wen, Chen, Reeta, Rani Singhania, Anil, Kumar Patel, Vaibhav, Tambat, and Cheng-Di, Dong

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, Biofuels, Bioengineering, Biomass, General Medicine, Cellulose, Lignin, Waste Management and Disposal
Abstract

Recently, the world is experiencing a shift from petroleum refineries to biorefineries due to fossil fuel depletion and environmental concerns. To achieve sustainable development of biorefineries and other components of the biofuel production process, eco-friendly and cost-effective approaches are necessary. Therefore, lignocellulosic biomass (LCB) must be exploited in biorefineries for the generation of a broad spectrum of products. The complex structure of LCB prevents its direct saccharification by enzymatic means, so pretreatment is necessary. There are several pretreatment technologies for disrupting the lignocellulosic structure, but hydrothermal pretreatment is the leading pretreatment technology for recovering hemicellulose fraction with a low number of inhibitors and an increased amount of cellulose. The severity of hydrothermal pretreatment plays a principal role in affecting cellulose, hemicellulose, and lignin structure. A detailed account of microwave-assisted hydrothermal pretreatment technologies and the cost-effectiveness, eco-friendliness, and upcoming challenges of this technology for commercialization with the probable solution is presented.

Published
2023
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144. Recent advances in biowaste management towards sustainable environment

Author

Grzegorz Piechota, Yuwalee Unpaprom, Cheng–Di Dong, and Gopalakrishnan Kumar

Subjects
Waste Products, Technology, Environmental Engineering, Waste Management, Renewable Energy, Sustainability and the Environment, Humans, Bioengineering, General Medicine, Waste Management and Disposal, Refuse Disposal
Abstract

Bio-wastes and their utilization has been increasing enormously, due to its generation and management practices towards making the clearner environment. Bio-waste disposal that follow the emerging global human population has commended the hunt to certain methods sustainably for the bio-waste management to overwhelmed the ecological issues, prompted by means of the collection of such waste materials. The bio-conversion process of the various bio-wastes into high value added products seems to be practicable in various venues in terms of technological and financial supports. Thereby, this preface presentat about of bio-wastes management and new trends towards circular economy and challenges to acheive it by considering the Virtual Special Issue (VSI) dedicated in Bioresourse Technology Journal.

Published
2023
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145. Evaluation of Clove Extract for Drug Therapy of Ciliate Infection in Coral (

Author

Tah-Wei, Chu, Chiu-Min, Cheng, Yu-Rong, Cheng, Cheng-Di, Dong, Chih-Hung, Chuang, Chih-Hung, Pan, Wei-Ting, Sun, and De-Sing, Ding

Abstract

In recent years, ciliate infections have caused serious casualties to corals in the ocean. Infected corals die within a short period of time, which not only poses a threat to wild coral reefs, but also has a major impact on large scale aquaculture of coral. Clove is a kind of Chinese medicine with antifungal, antibacterial, antiviral, insecticidal, and other functions. Clove is a natural product. If it can be used in the treatment of coral ciliates, it will reduce this threat to the environment. The clove extract was diluted with sterile seawater to 500 ppm, 1500 ppm, 2500 ppm, 5000 ppm, 7500 ppm, and 10,000 ppm to carry out virulence test on ciliates. The results show that the LC

Published
2021

146. Organic wastes bioremediation and its changing prospects

Author

Anil Kumar Patel, Reeta Rani Singhania, Frank Paolo Jay B. Albarico, Ashok Pandey, Chiu-Wen Chen, and Cheng-Di Dong

Subjects
Environmental Engineering, Biodegradation, Environmental, Environmental Chemistry, Soil Pollutants, Pollution, Waste Management and Disposal
Abstract

Increasing inappropriate anthropogenic activities and industrialization have resulted in severe environmental pollution worldwide. Their effective treatment is vital for general health concerns. Depending on the characteristics of pollutants, the severity of pollution may differ. For sustainable treatment of polluted environments, bioremediation is accepted as the most efficient, economical, and environmentally friendly method hence largely preferred. However, every bioremediation technique has its own unique advantages and limitations due to its defined applications criteria. In bioremediation, microorganisms play a decisive role in detoxification by degrading, mineralizing and accumulating various forms of harmful and biodegradable pollutants from the surroundings and transforming them into less lethal forms. Bioremediation is performed ex-situ or in-situ, based on location of polluted site as well as characteristics, type and strength of the pollutants. Furthermore, the most popular methodologies for bioremediation include bioaugmentation, biostimulation, bioattenuation among others which depend on the prevailing environmental factors into the microbial system. Implementing them appropriately and effectively under ex-situ or in-situ method is extremely important not only for obtaining efficient treatment but also for the best economic, environmental, and social impacts. Therefore, this review aims to analyze various bioremediation methods for organic pollutants remediation from soil/sediments and wastewater, their strength, limitation, and insights for the selection of appropriate bioremediation techniques based on nature, types, degree, and location of the pollution. The novelty aspect of the article is to give updates on several key supporting technologies which have recently emerged and exhibited great potential to enhance the present bioremediation efficiency such as nanobubble, engineered biochar, mixotrophic microalgae, nanotechnology etc. Moreover, amalgamation of these technologies with existing bioremediation facilities are significantly changing the scenario and scope of environmental remediation towards sustainable bioremediation.

Published
2021

147. Carnosine suppresses human colorectal cancer cell proliferation by inducing necroptosis and autophagy and reducing angiogenesis

Author

Shu-Ling, Hsieh, Jia-Huei, Li, Cheng-Di, Dong, Chiu-Wen, Chen, and Chih-Chung, Wu

Subjects
carnosine, autophagy, angiogenesis, Cancer Research, cell proliferation, Oncology, apoptosis, necroptosis, Articles
Abstract

Carnosine (β-alanyl-L-histidine) is found in beef and fish. The present study aimed to investigate the effects of carnosine on the cell proliferation of human colorectal cancer cells. After human colorectal cancer HCT-116 cells were treated carnosine for 72 or 96 h, the cell proliferation, apoptosis, autophagy, necroptosis, angiogenesis and the expression of related regulatory molecules were detected using MTT assays, fluorescence image analysis and RT-qPCR in this study. Treatment of HCT-116 cells with 5, 10 or 15 mM carnosine for 72 or 96 h significantly decreased cell viability (P

Published
2021
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148. Effects of Temperature and Salinity on Growth, Metabolism and Digestive Enzymes Synthesis of

Author

De-Sing, Ding, Anil Kumar, Patel, Reeta Rani, Singhania, Chiu-Wen, Chen, and Cheng-Di, Dong

Abstract

Climate change is causing dramatic changes in global ocean temperature and salinity, threatening coral survival. Coral growth and metabolism are greatly affected by the temperature, salinity and feeding time of the environment. In order to explore the threats to coral survival caused by climate change, this study will investigate the changes in body composition, digestive enzymes and metabolism of

Published
2021

149. Impact of polyethylene microplastics on coral Goniopora columna causing oxidative stress and histopathology damages

Author

Ya-Ting Chen, De-Sing Ding, Yee Cheng Lim, Reeta Rani Singhania, Shuchen Hsieh, Chiu-Wen Chen, Shu-Ling Hsieh, and Cheng-Di Dong

Subjects
Oxidative Stress, Environmental Engineering, Polyethylene, Microplastics, Environmental Chemistry, Animals, Anthozoa, Pollution, Waste Management and Disposal, Plastics, Antioxidants, Water Pollutants, Chemical
Abstract

In recent years, the increase of microplastics in the sea exerted a negative impact on coral health. This study has been undertaken to analyze the impact of microplastics on corals. Here, Goniopora columna was exposed to different concentrations of polyethylene microplastics (PE-MP). The daily polyps length and adaptability were recorded. Analysis of the zooxanthellae density and antioxidant activity of coral was done after 1, 3, 5 and 7 days. Further tissue morphology and accumulation of PE-MP were analyzed. The results showed that PE-MP at different concentrations can be adsorbed on the surface of corals and enter inside corals after 7 days. PE-MP at different concentrations reduced polyps length, adaptability and cause the changes in the density of zooxanthellae to be the reason for unbalancing of corals. PE-MP at different concentrations reduced the superoxide dismutase (SOD) activity after exposure to 1 day. PE-MP increased the catalase (CAT) activity at 100 mg/L after exposure; even after reducing the concentration has the same effect. PE-MP at various concentrations increased the glutathione peroxidase (GPx) activity after exposure to 5 and 7 days. It also increased the glutathione transferase (GST) and glutathione (GSH) activity after exposure to 5 and 7 days. PE-MP at different concentrations increased the malondialdehyde (MDA) content after exposure from 1 to 7 days. Analysis of tissue morphology and tissue accumulation shows that different concentrations of PE-MP cause mesenteric atrophy, vacuole, and accumulation in the coral mesenteric. These results indicate that the PE-MP can impact the antioxidant system and hampers the function of enzymes responsible for detoxification of G. columna, increase lipid peroxide content and also cause tissue damage through accumulating in the coral mesenteric.

Published
2021

150. Assessment of trace metal concentrations in Indian Ocean silky sharks Carcharhinus falciformis and their toxicological concerns

Author

Ming-Huang Wang, Chiu-Wen Chen, Chih-Feng Chen, Wen-Pei Tsai, and Cheng-Di Dong

Subjects
Male, Metals, Heavy, Sharks, Animals, Female, Aquatic Science, Oceanography, Pollution, Indian Ocean, Environmental Monitoring, Trace Elements
Abstract

This study assessed the concentrations of nine trace metals from juvenile C. falciformis caught from Indian Ocean. This study also discussed the metal pollution index (MPI) and bioconcentration factor (BCF) of each element, and their correlations. Further, the potential health risks of consuming shark muscles (THI) were evaluated. Results showed the mean concentrations of 9 elements as follows: Cu (0.36 ± 0.17), Zn (5.19 ± 16.6), Pb (0.12 ± 0.23), Cd (0.17 ± 0.21), Cr (0.57 ± 1.61), Ni (0.086 ± 0.51), As (1.36 ± 0.83), Co (0.000073 ± 0.0074), and V (0.0024 ± 0.0094) mg/kg ww. The BCF values of the elements were higher than 1, with Co and V being the lowest indicating their bioaccumulative behavior. Correlation analysis showed MPI to be highly correlated with Cu, indicating its greater contributions to the total pollution load. Principal components analysis explained 81.0% of the variability in biometric characteristics and metal concentrations. Health risk assessment for consuming shark muscle in Taiwanese male and female adults suggests potential chronic non-carcinogenic health hazards.

Published
2021

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