Your search keyword '"Phaenark C"' showing total 6 results

1. Glyphosate and paraquat herbicides’ acute exposure and chronic effects on yellow mealworms, Tenebrio molitor

Author

Paejaroen, P., Phaenark, C., Chunchob, S., and Sawangproh, W.

Subjects

coleoptera, insects, non-target organisms, chronic effects, toxicology

Published

2022

2. Cd AND Zn ACCUMULATION IN PLANTS FROM THE PADAENG ZINC MINE AREA

Author

Phaenark, C., primary, Pokethitiyook, P., additional, Kruatrachue, M., additional, and Ngernsansaruay, C., additional

Published

2009

3. Ecological and health implications of heavy metal bioaccumulation in Thai Fauna: A systematic review.

Author

Phaenark C, Phankamolsil Y, and Sawangproh W

Subjects

Animals, Amphibians metabolism, Crustacea drug effects, Crustacea metabolism, Ecosystem, Fishes metabolism, Mollusca metabolism, Thailand, Bioaccumulation, Environmental Monitoring methods, Metals, Heavy analysis, Metals, Heavy metabolism, Water Pollutants, Chemical analysis, Water Pollutants, Chemical metabolism

Abstract

Heavy metals pose significant threats to ecosystems and human health due to their persistence and bioaccumulation. In Thailand, rapid industrialization, extensive agriculture, and urban development have exacerbated heavy metal pollution in both aquatic and terrestrial ecosystems. This systematic review, conducted according to PRISMA guidelines, evaluates study designs and methodologies to assess heavy metal bioaccumulation in Thai fauna, with a focus on ecological and health impacts. The review reveals that fish, particularly from families like Cyprinidae and Cichlidae, account for 42.11 % of studies, with species such as swamp eel, Henicorhynchus siamensis, Arius maculatus, Osteogeneiosus militaris, Puntioplites proctozystron, and Channa striata showing significant bioaccumulation. Molluscs (31.58 %), including Tegillarca granosa and Filopaludina martensi, serve as critical bioindicators of aquatic pollution due to their filter-feeding habits. Amphibians and crustaceans, like Fejervarya limnocharis and Fenneropenaeus merguiensis, also demonstrate vulnerability to heavy metal contamination. Key contamination hotspots include urban waterways in Bangkok, industrial discharges in Songkhla Lake, and mining sites in Loei Province, highlighting widespread environmental and health impacts. Despite extensive research, gaps remain, particularly concerning benthic scavengers and detritivores, which are vital for ecosystem functions. The review underscores the need for targeted monitoring and mitigation, including stricter regulations on industrial discharges, improved waste treatment, and better management of agricultural runoff. While metals like cadmium (Cd), lead (Pb), copper (Cu), and zinc (Zn) are well-studied, further research on less-examined metals and species-specific bioaccumulation patterns is crucial to enhancing environmental management, supporting biodiversity conservation, and improving ecosystem resilience in Thailand., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Moss biomass as effective biosorbents for heavy metals in contaminated water.

Author

Phaenark C, Nasuansujit S, Somprasong N, and Sawangproh W

Abstract

The study explored batch adsorption of Cd(II) and Pb(II) ions using moss biomass from Barbula consanguinea and Hyophila involuta , assessing removal efficiency concerning various parameters. Both moss species showed high removal rates for Cd(II) (87 % for B. consanguinea and 89 % for H. involuta ) and Pb(II) (93 % for B. consanguinea and 94 % for H. involuta ) from contaminated water, reaching equilibrium within 30 min. While Cd(II) removal was pH-independent, Pb(II) removal showed pH-dependence, peaking at pH 5.0-5.5. Adsorption isotherm analysis indicated that the Langmuir, Freundlich, Elovich, Sips, and Redlich-Peterson models best described Cd(II) and Pb(II) adsorption onto both moss species (except for Cd(II) adsorption onto  H. involuta ), with  R 2  > 0.98. This confirms a heterogeneous surface with both monolayer and multilayer adsorption sites. The pseudo-second-order kinetic model confirmed chemisorption on moss biomass from both species. FTIR spectra identified major binding sites such as phenols, alkaloids, amines, alkenes, nitro compounds, and low-molecular-weight carbohydrates. EDS analysis validated the bonding of Cd(II) and Pb(II) ions to the biomass surface by displacing Ca(II) ions. According to the Langmuir model, moss biomass exhibited selective adsorption, favoring Pb(II) over Cd(II).  B. consanguinea  showed a higher adsorption capacity than  H. involuta , which is attributed to its higher negative zeta potential. This study underscores the novelty of moss biomass for heavy metal removal in wastewater treatment, highlighting its sustainability, effectiveness, cost-efficiency, versatility, and eco-friendliness., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Author(s).)

Published

2024

5. Metal toxicity in Bryum coronatum Schwaegrichen: impact on chlorophyll content, lamina cell structure, and metal accumulation.

Author

Phaenark C, Seechanhoi P, and Sawangproh W

Subjects

Biodegradation, Environmental, Soil Pollutants toxicity, Soil Pollutants metabolism, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical metabolism, Bryophyta, Lead toxicity, Lead metabolism, Chloroplasts metabolism, Bryopsida metabolism, Bryopsida drug effects, Cadmium toxicity, Cadmium metabolism, Metals, Heavy toxicity, Chlorophyll metabolism

Abstract

This research examined the impact of heavy metals, including Cd, Pb, and Zn, on chlorophyll content and lamina cell structure in Bryum coronatum . After exposure to varying metal concentrations (0.015, 0.065, 0.250, 1, and 4 mg/L), chlorophyll content, chloroplast numbers, lamina cell change, and metal accumulation were investigated. Chlorophyll content was assessed using spectrophotometry, whereas chloroplast numbers and lamina cell changes were examined under a light microscope. Metal accumulation was quantified through ICP-MS. The findings revealed that Cd notably reduced chlorophyll a content, while Pb and Zn showed minimal influence. Cd and Pb exposure decreased the number of chloroplasts in lamina cells, with no impact from Zn. The moss's capacity to absorb metals increased with higher exposure levels, indicating its potential as a biomonitor for heavy metal pollution. Cell mortality occurred in response to Cd and Pb, primarily in the median and apical lamina regions, while Zn had no effect. This study sheds light on heavy metal toxicity in B. coronatum , underscoring its significance for environmental monitoring. Further research on the mechanisms and consequences of heavy metal toxicity in bryophytes is essential for a comprehensive understanding of this critical issue.

Published

2024

6. Ethanol production from selected lignocellulosic hydrolysates by genome shuffled strains of Scheffersomyces stipitis.

Author

Bajwa PK, Phaenark C, Grant N, Zhang X, Paice M, Martin VJ, Trevors JT, and Lee H

Subjects

Fermentation, Hydrolysis, Wood chemistry, Yeasts growth & development, DNA Shuffling, Ethanol metabolism, Genome, Fungal genetics, Lignin metabolism, Yeasts genetics, Yeasts metabolism

Abstract

Two genome-shuffled Scheffersomyces stipitis strains, GS301 and GS302, exhibiting improved tolerance to hardwood spent sulphite liquor, were tested for growth and fermentation performance on three wood hydrolysates: (a) steam-pretreated enzymatically hydrolyzed poplar hydrolysate from Mascoma Canada, (b) steam pretreated poplar hydrolysate from University of British Columbia Forest Products Biotechnology Laboratory, and (c) mixed hardwoods pre-hydrolysate from FPInnovations (FPI). In the FPI hydrolysate, the wild type (WT) died off within 25 h, while GS301 and GS302 survived beyond 100 h. In fermentation tests, GS301 and GS302 completely utilized glucose and xylose in each hydrolysate and produced 0.39-1.4% (w/v) ethanol. In contrast, the WT did not utilize or poorly utilized glucose and xylose and produced non-detectable to trace amounts of ethanol. The results demonstrated cross tolerance of the mutants to inhibitors in three different wood hydrolysates and reinforced the utility of mating-based genome shuffling approach in industrial yeast strain improvement., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011