Your search keyword '"Chromated copper arsenate"' showing total 161 results

1. Studies on the Effect of Chromated Copper Arsenate (CCA) and Chelating Agents on Biochemical Parameters of Acacia auriculiformis and Casuarina equisetifolia Tree Species

Author

Kumari, Bettaiah Mallamma Rathna and Nagaraja, Narayanappa

Published

2024

2. Gene expression analysis of antioxidant and DNA methylation on the rat liver after 4-week wood preservative chromated copper arsenate exposure.

Author

Naofumi Takahashi, Satoru Yamaguchi, Ryouichi Ohtsuka, Makio Takeda, Toshinori Yoshida, Tadashi Kosaka, and Takanori Harada

Subjects

*WOOD preservatives, *DNA methylation, *PROLIFERATING cell nuclear antigen, *COPPER, *ANTIOXIDANT analysis, *HEAT shock proteins, *BETAINE

Abstract

Our previous 4-week repeated dose toxicity study showed that wood preservative chromated copper arsenate (CCA) induced hepatocellular hypertrophy accompanied by biochemical hepatic dysfunction and an increase in oxidative stress marker, 8-hydroxydeoxyguanosine, in female rats. To further explore the molecular mechanisms of CCA hepatotoxicity, we analyzed 10%-buffered formalin-fixed liver samples from female rats for cell proliferation, apoptosis, and protein glutathionylation and conducted microarray analysis on frozen liver samples from female rats treated with 0 or 80 mg/kg/day of CCA. Chemical analysis revealed that dimethylated arsenical was the major metabolite in liver tissues of male and female rats. CCA increase labeling indices of proliferating cell nuclear antigen and decrease terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling accompanied with increased expression of protein glutathionylation, indicating a decrease in glutathione (GSH) in hepatocytes of female rats. Microarray analysis revealed that CCA altered gene expression of antioxidants, glutathione-S-transferase (GST), heat shock proteins and ubiquitin-proteasome pathway, cell proliferation, apoptosis, DNA methylation, cytochrome P450, and glucose and lipid metabolism in female rats. Increased expression of GSTs, including Gsta2, Gsta3, Mgstl, and Cdknlb (p27), and decreased expression of the antioxidant Mtl, and DNA methylation Dnmtl, Dnmt3a, and Ctcf were confirmed in the liver of female rats in a dose-dependent manner. Methylation status of the promoter region of the Mtl was not evidently changed between control and treatment groups. The results suggested that CCA decreased GSH and altered the expression of several genes, including antioxidants, GST, and DNA methylation, followed by impaired cell proliferation in the liver of female rats. [ABSTRACT FROM AUTHOR]

Published

2023

3. Physical and Mechanical Properties of Plywood Produced with Thermally Treated Pinus taeda Veneers.

Author

Ferreira, Bruno Santos, Arroyo, Felipe Nascimento, Kondo, Marcel Yuzo, Santos, Herisson Ferreira dos, Barreto, Rogério Lima, Dias, Alfredo Manuel Pereira Geraldes, Lahr, Francisco Antônio Rocco, Christoforo, André Luis, and Campos, Cristiane Inácio de

Subjects

PLYWOOD, LOBLOLLY pine, HEAT treatment, SPECIFIC gravity, WOOD, SURFACE properties

Abstract

Plywood is a structural composite mainly applied in construction. For this purpose, some sort of preservative treatment is recommended to increase its durability. One option of the available treatments is heat treatment, which promotes the modification of the wood properties. This treatment is carried out on the final product (plywood), because it can reduce strength if applied to the veneers. However, no study has proven such a reduction. Therefore, the aim of this work was to evaluate three different temperatures (160 °C, 180 °C and 200 °C) of the heat treatment on the veneer surface and on the physical properties (specific gravity, moisture content and swelling in thickness) and mechanical properties (MOE and MOR in static bending) of Pinus taeda plywood. A reduction was observed in the roughness of the veneer's surfaces and the total extractives content changed, with a minimum value reached in the 160 °C treatment. The plywood specific gravity initially increased with the heat treatment and did not change at higher temperatures, moisture content reduced, and thickness swelling was not affected. There was no change in the mechanical properties of the plywood, evidencing that the veneer heat treatment does not prejudice mechanically the final product. [ABSTRACT FROM AUTHOR]

Published

2022

4. Ecotoxic, genotoxic, and cytotoxic potential of leachate obtained from chromated copper arsenate-treated wood ashes.

Author

Scussel, Rahisa, Feltrin, Ana Carolina, Angioletto, Elidio, Galvani, Nathalia Coral, Fagundes, Mírian Ívens, Bernardin, Adriano Michael, Feuser, Paulo Emilio, de Ávila, Ricardo Andrez Machado, and Pich, Claus Tröger

Subjects

WOOD preservatives, LEACHATE, WOOD waste, ONIONS, LETTUCE, COPPER, WOOD ash

Abstract

Preservative treatments increase the durability of wood, and one of the alternative treatments involves the use of chromated copper arsenate (CCA). Due to the toxicity of CCA, the disposal of CCA-treated wood residues is problematic, and burning is considered to provide a solution. The ecotoxicological potential of ash can be high when these components are toxic and mutagenic. The aim of this study was to evaluate the toxicity and genotoxicity of bottom ash leachates originating from CCA-treated wood burning. Physical-chemical analysis of the leachates revealed that in treated wood ashes leachate (CCA-TWBAL), the contents of arsenic and chromium were 59.45 mg.L−1 and 54.28 mg.L−1, respectively. In untreated wood ashes leachate (UWBAL), these contents were 0.70 mg.L−1 and 0.30 mg.L−1, respectively. CCA-TWBAL caused significant toxicity in Lactuca sativa, Allium cepa, and microcrustacean Artemia spp. (LC50 = 12.12 mg.mL−1). Comet assay analyses using NIH3T3 cells revealed that concentrations ranging from 1.0 and 2.5 mg.mL−1 increase the damage frequency (DF) and damage index (DI). According to MTT assay results, CCA-TWBAL at concentrations as low as 1 mg.mL−1 caused a significant decrease in cellular viability. Hemolysis assay analyses suggest that the arsenic and chromium leachate contents are important for the ecotoxic, cytotoxic, and genotoxic effects of CCA-TWBAL. [ABSTRACT FROM AUTHOR]

Published

2022

5. Toxicity of fly ash effluent from the combustion of (chromated copper arsenate)-treated wood

Author

Débora de Medeiros Domingos, Rahisa Scussel, Sílvia Betta Canever, Bárbara Queiroz Soares, Elidio Angioletto, Adriano Michael Bernardin, and Claus Tröger Pich

Subjects

Chromated copper arsenate, Biomass, Treated wood, Ecotoxicology, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Wood is extensively used in Brazil and other countries to produce paper, building materials, and furniture, and a large amount of wood waste is produced. Chromated copper arsenate (CCA) is a preservative used in wood treatment because it can inhibit the action on biodeteriorating agents, therefore increasing the durability of the wood. As a result, environmental problems will arise due to the large amount of wood waste treated with CCA. The wasted CCA-treated wood is used as a fuel, resulting in the emission of toxic chemical compounds. Therefore, the aim of this work was to determine the toxicological effects of fly ash from the combustion of wood treated with CCA compared to the fly ash from untreated wood. Commercial samples of treated and untreated wood were subjected to controlled combustion. The particulate material, fly ash, was precipitated in water and in an acidic medium. The effluent from the HNO3 medium was submitted to analysis of metals (As, Cr, Cu) and polycyclic aromatic hydrocarbons (PAHs), and that collected in water was used for analysis of toxicity. The analysis of metals showed the presence of As and Cr in the effluent, main components of the chromated copper arsenate (CCA) salt. The toxicity analysis showed, in most cases, a significant increase in toxicity of the effluent from the combustion of the treated wood. However, there was some toxic effect on the effluent from the fly ashes of the untreated wood due to the presence of PAHs in them.

Published

2022

6. Nutrient-assisted phytoremediation of wood preservative–contaminated technosols with co-planting of Salix interior and Festuca arundinacea.

Author

Yavari, Sara, Courchesne, François, and Brisson, Jacques

Subjects

WILLOWS, PHYTOREMEDIATION, WOOD preservatives, FERTILIZER application, SUPPLY & demand, TALL fescue, BACTERIAL leaching

Abstract

The remediation of wood preservative–contaminated sites is an important issue due to the carcinogenic nature of some contaminants derived from wood preservatives (e.g., Cr+6, arsenate, and pentachlorophenol). This study evaluated the effects of fertilizer application on remediation potential of co-plantings of Salix interior Rowlee. (Salix) and Festuca arundinacea Schreb. (Festuca) in a wood preservative–spiked technosol while considering the potential contaminant and nutrient leaching. Two levels of nitrogen (N) and phosphorus (P) fertilizers, NaNO3 and NaH2PO4 (25 and 75 mg L−1), were applied to achieve three N:P ratios, i.e., 3:1 (75:25), 1:3 (25:75), and 1:1 (25:25), that were compared with a control treatment (0:0 N:P) in a mesocosm experiment. Roots of the plant supplied with 1:1 and 1:3 N:P had more than double arsenic (As) and copper (Cu) amounts (i.e., biomass × concentration) compared to the control ones. Highest As and Cu amounts in shoots were found for Salix stems and Festuca leaves in the 1:3 and 1:1 N:P treatments, respectively. Arsenic and P leaching was high in mesocosms supplied with 1:3 N:P. Contamination and nutrient leaching in the 1:1 N:P treatment did not differ from the control, except for Cu. In conclusion, 1:1 N:P treatment yielded the best results in terms of metal(loid) uptake and contaminant and nutrient leaching. In 1:1 N:P treatment, the maximum values of percent As, Cr, and Cu in Salix and Festuca aboveground were 0.18%, 0.024%, and 1.20% and 0.89%, 0.08%, and 1.78%, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

7. Using Native Woody Plants for Phytomanagement of Urban Technosols Contaminated by Wood Pole Preservatives.

Author

Heine, Philippe, Yavari, Sara, Frenette‐Dussault, Cédric, Zagury, Gérald J., Brisson, Jacques, and Labrecque, Michel

Subjects

WOOD preservatives, WOODY plants, NATIVE plants, URBAN plants, SOIL pollution

Abstract

Technosols are a major component of urban areas with little to no value, but many benefits can be gained by the use of native plants for their ecological reclamation. The aim of this study is to examine the capacity of North American native woody species to establish in and remediate a wood preservative‐contaminated technosol. Nine species are planted in mesocosms containing highly contaminated or non‐contaminated synthetic technosols. Remediation potential and plant physiology parameters (survival, photosynthesis and root growth) are monitored during one growing season. Results show an inverse relation between species performance ranking in the non‐contaminated technosol compared to ranking in contaminated soil. Overall, Salix bebbiana and Sambucus canadensis show good potential for phytomanagement of heterogenous contaminated technosols, offering the best compromise between performance in non‐contaminated and contaminated soils. Most species are able to phytoextract copper (Cu), with Rhus typhina, Alnus crispa, and S. bebbiana showing the highest Cu concentrations in stems. The use of multiple native species for technosol reclamation can be beneficial due to the heterogeneous nature of soil contaminants. [ABSTRACT FROM AUTHOR]

Published

2021

8. Biocorrosion, Biodeterioration, and Biofouling in Civil Engineering

Author

Ivanov, Volodymyr, Stabnikov, Viktor, Ivanov, Volodymyr, and Stabnikov, Viktor

Published

2017

9. Identification and quantification of Cr, Cu, and As incidental nanomaterials derived from CCA-treated wood in wildland-urban interface fire ashes

Author

Alam, Mahbub, Alshehri, Talal, Wang, Jingjing, Singerling, Sheryl A., Alpers, Charles N., Baalousha, Mohammed, Alam, Mahbub, Alshehri, Talal, Wang, Jingjing, Singerling, Sheryl A., Alpers, Charles N., and Baalousha, Mohammed

Abstract

In addition to the combustion of vegetation, fires at the wildland-urban interface (WUI) burn structural mate-rials, including chromated copper arsenate (CCA)-treated wood. This study identifies, quantifies, and charac-terizes Cr-, Cu-, and As-bearing incidental nanomaterials (INMs) in WUI fire ashes collected from three residential structures suspected to have originated from the combustion of CCA-treated wood. The total elemental concentrations were determined by inductively coupled plasma-time of flight-mass spectrometry (ICP-TOF-MS) following acid digestion. The crystalline phases were determined using transmission electron micro-scopy (TEM), specifically using electron diffraction and high-resolution imaging. The multi-element single particle composition and size distribution were determined by single particle (SP)-ICP-TOF-MS coupled with agglomerative hierarchical clustering analysis. Chromium, Cu, and As are the dominant elements in the ashes and together account for 93%, 83%, and 24% of the total mass of measured elements in the ash samples. Chromium, Cu, and As phases, analyzed by TEM, most closely match CrO3, CrO2, eskolaite (Cr2O3), CuCrO2, CuCr2O4, CrAs2O6, As2O5, AsO2, claudetite (As2O3, monoclinic), or arsenolite (As2O3, cubic), although a bona fide phase identification for each particle was not always possible. These phases occur predominantly as het-eroaggregates. Multi-element single particle analyses demonstrate that Cr occurs as a pure phase (i.e., Cr oxides) as well as in association with other elements (e.g., Cu and As); Cu occurs predominantly in association with Cr and As; and As occurs as As oxides and in association with Cu and Cr. Several Cr, Cu, and As clusters were identified and the molar ratios of Cr/Cu and Cr/As within these clusters are consistent with the crystalline phases identified by TEM as well as their heteroaggregates. These results indicate that WUI fires can lead to significant release of CCA constituents and their combustio

Published

2023

10. Plant-Pollutant Interaction

Author

Rehman, Rida, Gul, Alvina, Öztürk, Münir, editor, Ashraf, Muhammad, editor, Aksoy, Ahmet, editor, Ahmad, M. S. A., editor, and Hakeem, Khalid Rehman, editor

Published

2015

11. Influence of CCA-A Preservative on Physical-mechanical Properties of Brazilian Tropical Woods.

Author

de Souza Almeida, Andréa, Criscuolo, Gabriel, de Almeida, Tiago Hendrigo, Christoforo, André Luis, Chahud, Eduardo, Branco, Luiz A. M. N., Pinheiro, Roberto V., and Lahr, Francisco Antonio Rocco

Subjects

*TIMBER, *WOOD chemistry, *CHROMATED copper arsenate, *WOOD products, *SCANNING electron microscopy

Abstract

Fast-growing species are gradually being used more in the Brazilian timber market. Such species are more susceptible to deterioration and require conservative treatment to prolong their service life. This work analyzed the influence of the chromated copper arsenate oxide (CCA-A) treatment on the physical-mechanical properties of the tropical woods Simarouba amara (C20), Cedrelinga catenaeformis (C30), and Erisma uncinatum (C40), which were chosen to cover the three lower strength classes, as prescribed by Brazilian Standard Norm. The CCA-A was applied to the wood with the vacuum-pressure process, which could increase the amount of surface defects and weaken the wood properties. To investigate the influence of this process, complete characterization of the species with and without CCA-A was performed, and a Tukey's multiple comparisons test (5% significance level) was applied. Also, scanning electron microscopy (SEM) images and energy dispersive spectra (EDS) were obtained to investigate the behavior of the preservative at the cellular level. Through the obtained results, it was concluded that the CCA did not affect the physical-mechanical properties of the studied species. [ABSTRACT FROM AUTHOR]

Published

2019

12. Factors governing the solid phase distribution of Cr, Cu and As in contaminated soil after 40 years of ageing.

Author

Tardif, Stacie, Cipullo, Sabrina, Sø, Helle U., Wragg, Joanna, Holm, Peter E., Coulon, Frederic, Brandt, Kristian K., and Cave, Mark

Abstract

Abstract The physico-chemical factors affecting the distribution, behavior and speciation of chromium (Cr), copper (Cu) and arsenic (As) was investigated at a former wood impregnation site (Fredensborg, Denmark). Forty soil samples were collected and extracted using a sequential extraction technique known as the Chemometric Identification of Substrates and Element Distributions (CISED) and a multivariate statistical tool (redundancy analysis) was applied. CISED data was linked to water-extractable Cr, Cu and As and bioavailable Cu as determined by a whole-cell bacterial bioreporter assay. Results showed that soil pH significantly affected the solid phase distribution of all three elements on site. Additionally, elements competing for binding sites, Ca, Mg and Mn in the case of Cu, and P, in the case of As, played a major role in the distribution of these elements in soil. Element-specific distributions were observed amongst the six identified soil phases including residual pore salts, exchangeable, carbonates (tentative designation), Mn-Al oxide, amorphous Fe oxide, and crystalline Fe oxide. While Cr was strongly bound to non-extractable crystalline Fe oxide in the oxic top soil, Cu and notably, As were associated with readily extractable phases, suggesting that Cu and As, and not Cr, constitute the highest risk to environmental and human health. However, bioavailable Cu did not significantly correlate with CISED identified soil phases, suggesting that sequential extraction schemes such as CISED may not be ideally suited for inferring bioavailability to microorganisms in soil and supports the integration of receptor-specific bioavailability tests into risk assessments as a complement to chemical methods. Graphical abstract Unlabelled Image Highlights • CISED and redundancy analysis was used to assess factors affecting the solid phase distribution of Cr, Cu and As. • pH is the key parameter affecting all three elements. • P with As and Ca, Mg and Mn with Cu could compete for binding sites. • As and Cu were associated with readily extractable phases while Cr was not. • Cu bioavailability to microbes cannot be inferred solely using CISED. [ABSTRACT FROM AUTHOR]

Published

2019

13. The Use of Chemical and Biological Agents in the Recovery of Heavy Metals from Treated Woods - A Brief Review.

Author

Lopes, Dercilio Junior Verly, Stokes, C. Elizabeth, and dos Santos Bobadilha, Gabrielly

Subjects

*HEAVY metals, *BIOREMEDIATION, *TEMPERATURE effect, *EXTRACTION (Chemistry), *LANDFILLS

Abstract

This manuscript provides a brief review about chemical and biological agents used to bioremediate treated wood waste. Wood preservatives have been used to increase wood's useful life, because any species is subject to decay. Studies indicate that the disposal of treated wood after its service has drawn concern and scrutiny. Practices have included disposal in landfills or construction sites as well as destruction by burning, so it is apparent that more environmentally friendly options are needed. To mitigate these problems, acidic agents, fungi, and bacteria can be used as alternatives to remove heavy metals. At optimum temperature and concentration, acids play a major role in the removal process. The process is enhanced when a bioremediation technique is used after chemical extraction. In fact, bioremediation has been shown to be a remarkable technique for recovering copper, arsenic, creosote, and other compounds. The major drawback is the extensive duration of fungal activity for release of heavy metals. [ABSTRACT FROM AUTHOR]

Published

2019

14. Bioavailability and risk estimation of heavy metal(loid)s in chromated copper arsenate treated timber after remediation for utilisation as garden materials.

Author

Liu, Yanju, Du, Jianhua, Dong, Zhaomin, Rahman, Mohammad Mahmudur, Gao, Yongchao, Yan, Kaihong, and Naidu, Ravi

Subjects

*BIOAVAILABILITY, *SEMIMETALS, *TIMBER, *CHROMATED copper arsenate, *WOOD preservatives & the environment, *SPINACH

Abstract

Abstract There is increasing concern about the use of chromated copper arsenate (CCA) treated timber due to the possible leaching of toxic metals or metalloids. CCA-treated timber waste are currently stockpiled across Australia with limited information about their risks to the environment or human health. In this study, the treatment and utilisation of CCA-treated timber waste as garden mulch, garden retaining walls, and soil additive were investigated. Iron materials were used as immobilising agents. The bioavailability of Cr, Cu and As to Spinacia oleracea from CCA-treated timber, before and after treatment, was determined in the context of human health risk assessment. The results showed that the iron-based treatments resulted in significant decreases in the concentrations of Cu and As in spinach grown in CCA-treated timber in soil. Analyses of CCA derived Cu and As in spinach showed that they accumulated in the roots rather than in the leaves. The risks of toxicity to humans varied for different utilisation scenarios and the immobilisation amendments were shown to reduce carcinogenic and non-carcinogenic risks. The information obtained in this study can inform development of utilisation options for CCA-treated timber wastes. Graphical abstract Image 1 Highlights • Iron materials reduced leachability, bioavailability and risks for CCA metal(loid). • As, Cr mainly accumulated in root of spinach rather than leaves. • Most As and Cr present in leaves are As(V) (50–90%) and Cr (III) (50–100%). • Treated mulch showed acceptable low carcinogenic and non-carcinogenic risks. [ABSTRACT FROM AUTHOR]

Published

2019

15. Journal of Hazardous Materials

Author

Mahbub Alam, Talal Alshehri, Jingjing Wang, Sheryl A. Singerling, Charles N. Alpers, and Mohammed Baalousha

Subjects

Wildland-urban interface fires, Environmental Engineering, Health, Toxicology and Mutagenesis, Chromium Copper and Arsenic, Environmental Chemistry, Chromated Copper Arsenate, Pollution, Waste Management and Disposal, Incidental nanomaterials, Phase identification

Abstract

In addition to the combustion of vegetation, fires at the wildland-urban interface (WUI) burn structural mate-rials, including chromated copper arsenate (CCA)-treated wood. This study identifies, quantifies, and charac-terizes Cr-, Cu-, and As-bearing incidental nanomaterials (INMs) in WUI fire ashes collected from three residential structures suspected to have originated from the combustion of CCA-treated wood. The total elemental concentrations were determined by inductively coupled plasma-time of flight-mass spectrometry (ICP-TOF-MS) following acid digestion. The crystalline phases were determined using transmission electron micro-scopy (TEM), specifically using electron diffraction and high-resolution imaging. The multi-element single particle composition and size distribution were determined by single particle (SP)-ICP-TOF-MS coupled with agglomerative hierarchical clustering analysis. Chromium, Cu, and As are the dominant elements in the ashes and together account for 93%, 83%, and 24% of the total mass of measured elements in the ash samples. Chromium, Cu, and As phases, analyzed by TEM, most closely match CrO3, CrO2, eskolaite (Cr2O3), CuCrO2, CuCr2O4, CrAs2O6, As2O5, AsO2, claudetite (As2O3, monoclinic), or arsenolite (As2O3, cubic), although a bona fide phase identification for each particle was not always possible. These phases occur predominantly as het-eroaggregates. Multi-element single particle analyses demonstrate that Cr occurs as a pure phase (i.e., Cr oxides) as well as in association with other elements (e.g., Cu and As); Cu occurs predominantly in association with Cr and As; and As occurs as As oxides and in association with Cu and Cr. Several Cr, Cu, and As clusters were identified and the molar ratios of Cr/Cu and Cr/As within these clusters are consistent with the crystalline phases identified by TEM as well as their heteroaggregates. These results indicate that WUI fires can lead to significant release of CCA constituents and their combustion-transformed by-products into the surrounding environment. This study also provides a method to identify and track CCA constituents in environmental systems based on multi-element analysis using SP-ICP-TOF-MS. RAPID grant from the National Science Foundation (NSF) [2101983]; Nanoscale Characterization and Fabrication Laboratory; Virginia Tech National Center for Earth and Environmental Nanotechnology Infrastructure (NanoEarth) - NSF [ECCS 1542100, ECCS 2025151]; U.S. Geological Survey (USGS) Toxic Substances Hydrology Program, Minerals Integrated Science Team, under the Environmental Health Program of the USGS Ecosystem Mission Area; Directorate For Engineering; Div Of Chem, Bioeng, Env, & Transp Sys [2101983] Funding Source: National Science Foundation Published version This work was supported by a RAPID grant (2101983) from the National Science Foundation (NSF), by the Nanoscale Characterization and Fabrication Laboratory and the Virginia Tech National Center for Earth and Environmental Nanotechnology Infrastructure (NanoEarth), a member of the National Nanotechnology Coordinated Infrastructure (NNCI), supported by NSF (ECCS 1542100 and ECCS 2025151), and by the U.S. Geological Survey (USGS) Toxic Substances Hydrology Pro-gram, Minerals Integrated Science Team, under the Environmental Health Program of the USGS Ecosystem Mission Area. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Public domain – authored by a U.S. government employee

Published

2023

16. Macrophyte Potential to Treat Leachate Contaminated with Wood Preservatives: Plant Tolerance and Bioaccumulation Capacity

Author

Emmanuelle Demers, Margit Kõiv-Vainik, Sara Yavari, Michel Mench, Lilian Marchand, Julie Vincent, Chloé Frédette, Yves Comeau, and Jacques Brisson

Subjects

chromated copper arsenate, chlorinated phenols, phytoremediation, constructed treatment wetland, Typha angustifolia, Phalaris arundinacea, Botany, QK1-989

Abstract

Pentachlorophenol and chromated copper arsenate (CCA) have been used worldwide as wood preservatives, but these compounds can toxify ecosystems when they leach into the soil and water. This study aimed to evaluate the capacity of four treatment wetland macrophytes, Phalaris arundinacea, Typha angustifolia, and two subspecies of Phragmites australis, to tolerate and treat leachates containing wood preservatives. The experiment was conducted using 96 plant pots in 12 tanks filled with three leachate concentrations compared to uncontaminated water. Biomass production and bioaccumulation were measured after 35 and 70 days of exposure. There were no significant effects of leachate contamination concentration on plant biomass for any species. No contaminants were detected in aboveground parts of the macrophytes, precluding their use for phytoextraction within the tested contamination levels. However, all species accumulated As and chlorinated phenols in belowground parts, and this accumulation was more prevalent under a more concentrated leachate. Up to 0.5 mg pentachlorophenol/kg (from 81 µg/L in the leachate) and 50 mg As/kg (from 330 µg/L in the leachate) were accumulated in the belowground biomass. Given their high productivity and tolerance to the contaminants, the tested macrophytes showed phytostabilization potential and could enhance the degradation of phenols from leachates contaminated with wood preservatives in treatment wetlands.

Published

2020

17. Metals content of recycled construction and demolition wood before and after implementation of best management practices.

Author

Robey, Nicole M., Solo-Gabriele, Helena M., Jones, Athena S., Marini, Juniper, and Townsend, Timothy G.

Subjects

CONSTRUCTION & demolition debris, WOOD recycling, METAL toxicology, WOOD preservatives, X-ray fluorescence

Abstract

Abstract A limitation to recycling wood from construction and demolition (C&D) waste is contamination of metals from the inadvertent inclusion of preservative treated wood, in particular wood treated with chromated copper arsenate (CCA) and newer copper-based formulations. To minimize contamination many regions have developed best management practices (BMPs) for separating treated from untreated wood. The objective of this study was to evaluate the fraction of preservative treated wood in recycled C&D wood after the implementation of BMPs, using Florida as a case study. Methods involved collecting recycled C&D wood samples from throughout the state, measuring metals concentrations (As, Cu, and Cr) in the samples to compute the fraction of recycled wood treated with waterborne wood preservatives, and comparing measurements with those taken prior to the formalization of BMPs. Metals concentrations were measured using two methods, one based on traditional laboratory digestion methods and another using a more rapid hand-held X-ray Fluorescence (XRF) device in the field. The proportion of waterborne preservative-treated wood in recycled wood products has reduced significantly in the intervening 20 years (from 6% to 2.9%), and the fraction of CCA-treated wood has been reduced even further, to 1.4%. The remaining fraction of waterborne preservative-treated wood is comprised of new formulations of copper-based preservatives. This suggests that restrictions from the wood preservation industry and best management practices implemented at recycling facilities have been effective in reducing heavy metal contamination from pressure treated lumber in recycled wood products. Graphical abstract Image 1 Highlights • In previous work, 6% of recycled wood was treated with chromated copper arsenate. • Since then, industry-led changes have influenced the recycled wood market. • Copper-based wood preservatives are replacing CCA in the market. • This study found that 1.4% of recycled wood was treated with CCA, 1.5% with copper. • In 20 years, waterborne preservatives in recycled wood has decreased by 50%, CCA by 75%. Best management practices and changes to the preservative wood industry have resulted in a reduction in arsenic-treated wood within recycled C&D wood by a factor of 4. [ABSTRACT FROM AUTHOR]

Published

2018

18. Resistance of Eucalyptus and Corymbia Treated Woods against Three Fungal Species.

Author

Verly Lopes, Dercilio Junior, Paes, Juarez Benigno, and dos Santos Bobadilha, Gabrielly

Subjects

*CHROMATED copper arsenate, *FUNGI, *BIOLOGICAL assay, *EUCALYPTUS grandis, *OUTCROPS (Geology)

Abstract

The genera Eucalyptus and Corymbia are widely used in Brazil. Although they present remarkable applicability, they manifest substantial endsplitting and surface checks, which allows wood decay organisms to penetrate the wood. Thereby, the resistance of Eucalyptus grandis x Eucalyptus urophylla (EU) and Corymbia citriodora (CT) treated with chromated copper arsenate type-C (CCA-C) against fungi decay was evaluated. Seventy-two fence posts were assessed; for each species, there were 18 posts treated with CCA-C and 18 non-treated posts. The posts were 2.20 m long and classified into three classes of diameter. The 2% active ingredient was used with a vacuum-pressure cycle. On each fence, disks measuring 2.0 cm thick were cut at the outcrop zone. Two sets of depths were analyzed: the edge at 0 cm to 1.5 cm as well as the inner part at 1.5 cm to 3.0 cm. The samples were subjected to Postia placenta, Gloeophyllum trabeum, and Trametes versicolor attack. The treatment was effective against all fungi, but for CT, the diameter range of 8 cm to 12 cm was optimal. The treated wood from EU samples reached the lowest weight loss for all fungi. Heartwood-sapwood ratio played a major role. By comparing the non-treated woods, EU yielded the highest mass loss. [ABSTRACT FROM AUTHOR]

Published

2018

19. Pathological and Clinical Pathological Changes Induced by Four-week, Repeated-dose, Oral Administration of the Wood Preservative Chromated Copper Arsenate in Wistar Rats.

Author

Takahashi, Naofumi, Yoshida, Toshinori, Kojima, Sayuri, Yamaguchi, Satoru, Ohtsuka, Ryoichi, Takeda, Makio, Kosaka, Tadashi, and Harada, Takanori

Subjects

*ANEMIA, *PARIS green, *OXIDATIVE stress

Abstract

Chromated copper arsenate (CCA) is used as a wood preservative worldwide. Exposure to it may adversely affect human health. Some events have increased human exposure to CCA, including the Great East Japan Earthquake, which generated a large amount of lumber debris from CCA-treated woods. We elucidated the toxicity due to daily exposure to CCA over a 4-week period at doses of 0,8,40, and 80 mg/kg/day in Wistar Hannover rats. Chromium (Cr) and arsenic (As), but not copper, were detected in the plasma samples of rats treated with various doses of CCA. Males and females showed sedation, and males had poor body weight gain. The clinical pathologies observed in both sexes included hypochromic and microcytic anemia, hepatic and renal dysfunction, and changes in lipid and glucose levels. Histopathologically, males and females showed forestomach hyperkeratosis, mucosal epithelial hyperplasia in the small intestine, rectal goblet cell hypertrophy, and lipofuscin deposition in the proximal renal tubule. Females showed diffuse hepatocellular hypertrophy with increased 8-hydroxydeoxyguanosine levels. These results indicated that oral administration of CCA mainly affected hematopoietic, gastrointestinal, hepatic, and renal systems owing to the toxic effects of As and/or Cr. Major toxic effects were observed in both sexes receiving 40 and 80 mg/kg/day. [ABSTRACT FROM AUTHOR]

Published

2018

20. Arsenic immobilization in soil using starch-stabilized Fe/Cu nanoparticles: a case study in treatment of a chromated copper arsenate (CCA)-contaminated soil at lab scale.

Author

Babaee, Yassaman, Mulligan, Catherine N., and Rahaman, Md. Saifur

Subjects

CHROMATED copper arsenate, SOIL pollution, NANOPARTICLES

Abstract

Purpose: The present study investigates the possible use and effectiveness of starch-stabilized Fe/Cu nanoparticles for in situ immobilization of arsenic in contaminated soils.Materials and methods: For this purpose, 0.04 wt.% starch-stabilized Fe/Cu nanoparticles were synthesized and tested through batch and column tests for the immobilization of arsenic in a loamy soil contaminated by chromated copper arsenate (CCA).Results and discussion: When the CCA-contaminated loamy soil was treated with 0.4 g/L of starch-stabilized Fe/Cu nanoparticles (0.04 wt.%) at a soil-to-liquid ratio of 0.1, water-leachable arsenic was reduced by 92% and the toxicity characteristic leaching procedure (TCLP) leachability was reduced by 98%. Column elution experiments showed that through application of starch-stabilized Fe/Cu nanoparticles to CCA-contaminated soil, nearly all water-soluble arsenic was transferred to the nanoparticle phase. The TCLP leachability of arsenic remaining in the soil column was reduced by 70% due to the immobilization of arsenic by nanoparticles.Conclusions: In addition to an extremely high arsenic sorption capacity, starch-stabilized Fe/Cu nanoparticles exhibited excellent mobility in the soil environment. Both the high sorption capacity and the excellent mobility in the soil environment suggest potential for application of these nanoparticles to the contaminated soil for potential in situ arsenic immobilization. [ABSTRACT FROM AUTHOR]

Published

2018

21. Effects of Environmental Aging on the Durability of Wood-Flour Filled Recycled PET/PA6 Wood Plastic Composites

Author

Yung-Chuan Chiou, Chin-Lung Chiang, Yi-Luen Li, Wei-Min Lai, and Ming-Yuan Shen

Subjects

Environmental Engineering, Materials science, Polymers and Plastics, Composite number, Wood flour, Elastomer, Polyolefin, chemistry.chemical_compound, chemistry, Creep, Materials Chemistry, Polyethylene terephthalate, Polymer blend, Chromated copper arsenate, Composite material

Abstract

Outdoor building materials made of wood require preservatives containing chromated copper arsenate and other carcinogenic substances but still are subject to decay, hence they need to be replaced every few years. Wood-plastic composite (WPC) is an environmental-friendly composite of wood flour/fiber reinforced thermoplastic polymers (i.e., plastic). As WPC is made of plastic to evenly cover the wood flour, it has a lower moisture content than wood. In this study, maleic anhydride grafted polyolefin elastomers (POE-g-ma) and methyl methacrylate-butadiene-styrene copolymer (MBS) were used as impact modifiers to prepare WPCs from recycled polyethylene terephthalate (rPET) and recycled polyamide 6 (rPA6) blends (PET/PA6). The thermal properties of the WPCs with different mixing ratio polymer blends of rPET to rPA6 (E60/A40, E50/A50, and E40/A60) were investigated, as well as their mechanical properties after accelerated weathering. In addition, the creep behavior of the E40/A60 WPC under different environmental conditions was investigated. During the 10-h creep test, the POE-g-ma/WPC strain varied significantly more than MBS/WPC under environmental aging and higher loadings. The test results of impact and creep also show that the toughening effect of POE-g-ma/WPC was slightly better than that of MBS/WPC. In summary, the higher PET content resulted in lower flowability and a higher initial decomposition temperature, with the E60/A40 WPC having better anti-aged mechanical properties and more suitable for outdoor building applications.

Published

2021

22. Static Bending Strength of Heat-Treated and Chromated Copper Arsenate-Treated Plywood.

Author

Santos Ferreira, Bruno, Felippe Silva, João Vitor, and de Campos, Cristiane Inácio

Subjects

*BENDING strength, *HEAT treatment, *CHROMATED copper arsenate, *PLYWOOD, *FURNITURE industry, *STRENGTH of materials

Abstract

Plywood can be used in the furniture industry and in civil construction due to its structural strength. However, for long useful life in construction, especially in tropical countries, it needs to undergo treatments against xylophagous organisms. The most common preservative treatment is the chemical chromated copper arsenate (CCA); there are alternatives, such as heat treatment, that do not use chemicals. The objective of this work was to evaluate the mechanical resistance of CCA and heat-treated plywood prepared at three different temperatures (160 °C, 180 °C, and 200 °C). Pinus taeda plywood with seven veneers and phenol-formaldehyde adhesive was produced and subjected to the preservative treatments. The results showed that the CCA treatment reduced the mechanical strength of the panels, while the heat treatment did not. Heat treatment also decreased panel hygroscopicity, indicating a better dimensional stability. [ABSTRACT FROM AUTHOR]

Published

2017

23. Preparation and characterization of a metal-rich activated carbon from CCA-treated wood for CO2 capture.

Author

Botomé, Michele Leoratto, Poletto, Patrícia, Junges, Janaína, Perondi, Daniele, Dettmer, Aline, and Godinho, Marcelo

Subjects

*ACTIVATED carbon, *PYROLYSIS, *CARBON dioxide adsorption, *PORE size distribution, *CHROMATED copper arsenate, *WOOD preservatives

Abstract

The disposal of eucalyptus poles used in the electricity network distribution is considered a potential contamination to the environment due to the chromated copper arsenate (CCA) used as a wood preservative. The thermochemical process can be an alternative to this toxic waste disposal. In this work, the slow pyrolysis of CCA-treated wood followed by the production and application of activated carbon was proposed. Metal retention (ICP-OES), concentration of non-condensable gases produced in the pyrolysis process (via GC), as well as the capacity of activated carbon on CO 2 adsorption (via TGA) were investigated. The highest formation rate of non-condensable gases was observed at 500 °C, while the maximum H 2 concentration was at 700 °C. The char obtained in the pyrolysis was chemically treated with H 3 PO 4 and activated in CO 2 flow. The pore size distribution of activated carbons showed pore sizes lower than 1 nm. The activated carbons showed a CO 2 adsorption capacity of 70–83 mg/g. The presence of chromium and copper may have influenced the CO 2 adsorption. The fast adsorption and desorption showed by the activated carbon produced from CCA-treated wood is interesting to systems that operate in short-time cycles, as pressure swing adsorption (PSA). The reuse of CCA-treated wood for activated carbon production and its application in the CO 2 adsorption could be a solution to minimize the environmental damage caused by this waste. [ABSTRACT FROM AUTHOR]

Published

2017

24. Persistent Hazardous Waste and the Quest Toward a Circular Economy: The Example of Arsenic in Chromated Copper Arsenate-Treated Wood.

Author

Augustsson, Anna, Sörme, Louise, Karlsson, Anna, and Amneklev, Jennie

Subjects

*ARSENIC & the environment, *CHROMATED copper arsenate, *HAZARDOUS wastes, *HAZARDOUS waste management, *INDUSTRIAL ecology, *ECONOMICS

Abstract

The importance of a circular economy is today widely accepted and advocated, but among the challenges in achieving this, we find difficulties in the implementation of legislation and policies designed to control various waste streams from society. The example used in this article is wood that has been treated with chromated copper arsenate (CCA), which, in Sweden, has been covered by the rules for hazardous waste since 2002. One year later, in 2003, a survey showed that only 42% to 50% of the expected amount of CCA waste could be traced to the public waste management system. An updated material flow analysis for 2010 revealed that the figure had increased to 73%, whereas the fraction of correctly treated CCA wood waste had increased from 11% to 35%. However, almost one third of the expected volume was still not tracable, and half of the amount that was correctly submitted was incinerated together with nontoxic waste fractions. This results in, for example, arsenic contamination of slag and fly ashes that prevents the further use of these residue products. So, despite legislative instruments, there is still an urgent need for an improved collection of hazardous wood waste, as well as better routines for identifying hazardous flows and separating them from nonhazardous ones. For a circular economy to be achievable, a key priority should be to reduce the gap between intended directions and legislation, on one hand, and activities in practice on the other. [ABSTRACT FROM AUTHOR]

Published

2017

25. Characteristics of a Protective Layer on Oil Heat-Treated Scots Pine and Fir Wood.

Author

Kesik, Haci Ismail, Özkan, Osman Emre, and Öncel, Mustafa

Subjects

*SCOTS pine, *PRESERVATION of wood, *HEAT treatment, *SURFACE hardening, *CHROMATED copper arsenate

Abstract

Effects of natural weathering were studied relative to the adhesion strength, surface hardness, and color change of coated heat-treated and untreated Turkish fir and Scots pine wood. For this study, water-based coatings (varnish and paint) were applied on heat-treated samples. The coated heat-treated, and untreated samples were naturally weathered for one year. The difference between several properties such as adhesion strength, hardness, and color were measured before and after weathering. The test results showed that varnished heat-treated samples had good performance as compared to those of the untreated samples. [ABSTRACT FROM AUTHOR]

Published

2017

26. Novel biomaterials from citric acid fermentation as biosorbents for removal of metals from waste chromated copper arsenate wood leachates.

Author

Dhillon, Gurpreet Singh, Lea Rosine, Guitaya Mande, Kaur, Surinder, Hegde, Krishnamoorthy, Brar, Satinder Kaur, Drogui, Patrick, and Verma, Mausam

Subjects

*WASTE products, *FERMENTATION, *CITRIC acid, *METAL wastes, *CHROMATED copper arsenate, *LEACHATE

Abstract

The paper discusses the potential of different waste biomaterials for biosorption. Waste biomaterials after citric acid fermentation and chitosan extraction using Aspergillus niger were evaluated for biosorption of toxic metals (Cu, Cr and As) from leachates of chromated copper arsenate woods. The different waste BMs, such as fungal biomass (living and dead), alkali insoluble material and acid and alkali insoluble material were used in this study. The effect of different parameters, such as biosorbent concentration, metal concentration and contact time were investigated. The fitness of biosorption data for Freundlich and Langmuir adsorption models was investigated through batch adsorption technique. Among the adsorption isotherm tested, Langmuir isotherm gave the best fit with correlation coefficients (R 2 ) value ranging from 0.89 to 0.97; 0.96–0.99 and 0.76–0.95 for As, Cr and Cu, respectively using solid state fermented biomass. Similarly, the significant removal of metals (>60% in leachate 2) from waste CCA wood leachate was achieved with the different BMs. Therefore, this study demonstrates the potential of CA fermentation derived waste BMs for biosorption of toxic metals from waste waters. [ABSTRACT FROM AUTHOR]

Published

2017

27. Evaluating sustainable product alternatives by combining life cycle assessment with full-cost accounting: A highway guardrail case study

Author

Stephen S. Kelley, Richard A. Venditti, Adam Scouse, and T. Eric McConnell

Subjects

chemistry.chemical_compound, Environmental Engineering, chemistry, Environmental full-cost accounting, Shadow price, Environmental science, Bioengineering, Chromated copper arsenate, Waste Management and Disposal, Civil engineering, Life-cycle assessment, Valuation (finance), Life cycle inventory

Abstract

Full-cost accounting techniques incorporate the environmental and societal burdens a product generates through its manufacture, use, and disposal into that product’s price. This research generates full-cost prices for functionally equivalent chromated copper arsenate (CCA) treated wood and galvanized steel guardrail posts by combining previously conducted life cycle inventory analyses results with secondary emission valuation data. Based on the analysis, both CCA-treated posts and galvanized steel posts have environmental damage costs associated with emissions generated through the product’s manufacturing, use, and disposal stages. After developing full-cost prices for product alternatives, CCA-treated wood guardrail posts were found to be a more economical and environmentally responsible alternative to galvanized steel. In addition to generating full-cost prices, this research uses Monte Carlo simulation to provide estimates of variability around CCA-treated wood and galvanized steel damage costs.

Published

2020

28. Mobility of Chromium, Copper and Arsenic in Amended Chromated Copper Arsenate Contaminated Soils

Author

Timothy Omara, Caroline Kiwanuka Nakiguli, John Wasswa, Emmanuel Ntambi, and Walter Ojok

Subjects

Phytoremediation, chemistry.chemical_compound, Chromium, Contaminated soils, chemistry, Environmental chemistry, chemistry.chemical_element, Ocean Engineering, Heavy metals, Chromated copper arsenate, Mobility factor, Copper, Arsenic

Abstract

Aim: The use of copper-based preservatives such as chromated copper arsenate (CCA) and creosote to prolong the life of lumber present environmental concerns because they contain heavy metals and polycyclic aromatic hydrocarbons which are toxic to humans. The aim of this study was to investigate the effects of sewage sludge biosolid amendment on the distribution and mobility of chromium, copper and arsenic in chromated copper arsenate contaminated soils subjected to phytoremediation using maize (Zea mays L.). Place and Duration of the Study: Random composite soil samples from Kitetika wood factory, Wakiso, Uganda and sewage sludge biosolid from National Water and Sewerage Corporation plant in Bugolobi, Kampala, Uganda were collected and prepared. Maize grains were obtained from FICA Seeds Limited (Uganda). The pot experiments and analysis of samples were done at Mbarara University of Science and Technology (Mbarara) and Directorate of Government Analytical Laboratory, Kampala (Uganda), respectively. Methodology: The fresh CCA contaminated soils and sewage sludge biosolid were analyzed for physicochemical parameters and heavy metals (chromium, copper and arsenic). Sewage sludge biosolid was added to 1 kg of the contaminated soils at 5-25% (w/w) in 2 L plastic containers, watered and maintained at 25 ℃ for 14 days to stabilize. Controls were set up with unamended soils. Thereafter, maize was planted in the potted soils for 40 days. The concentrations of the trace metals in the soils were determined after 20 and 40 days of maize growth by atomic absorption spectroscopy. Results: The concentrations of chromium, copper and arsenic in fresh CCA contaminated soils were 365.8 ± 6.18 mg/kg, 109.72 ± 14.04 mg/kg and 28.22 ± 3.8 mg/kg, respectively. Basing on mobility factor, bioavailability of the trace metals followed the chemical sequence copper (8.9%) < chromium (17.1%) < arsenic (30.2%). Conclusion: The maize variety experimented could be used to phytoextract or phytostabilize the trace metals in the CCA contaminated soils without or with 5-25% amendment. Amendment with sewage sludge biosolid improved the phytoremediation potential of maize. Arsenic was the most mobile and bioavailable metal in CCA contaminated soils. Further studies should use other local maize varieties such as Longe series.

Published

2020

29. A four-year phytoremediation trial to decontaminate soil polluted by wood preservatives: phytoextraction of arsenic, chromium, copper, dioxins and furans

Author

Aymeric Yanitch, Cédric Frenette-Dussault, Michel Labrecque, Hafssa Kadri, Frederic E. Pitre, and Simon Joly

Subjects

Chromium, 0106 biological sciences, Canada, Preservative, chemistry.chemical_element, Plant Science, 010501 environmental sciences, Dioxins, 01 natural sciences, Arsenic, Soil, chemistry.chemical_compound, Soil Pollutants, Environmental Chemistry, Chromated copper arsenate, Furans, 0105 earth and related environmental sciences, Quebec, Wood, Pollution, Copper, Pentachlorophenol, Phytoremediation, Biodegradation, Environmental, chemistry, Environmental chemistry, Arsenates, 010606 plant biology & botany

Abstract

Widely used as wood preservatives for the last century, Pentachlorophenol (PCP) and chromated copper arsenate (CCA) have been shown to leach from treated surfaces and contaminate soil of wood storage sites. We performed a four-year field phytoremediation trial in southern Quebec (Canada) on a site contaminated with PCP and CCA with the following objectives: (1) assess the potential of willow, fescue, alfalfa and Indian mustard to tolerate and translocate CCA and PCP residues in their aerial tissues, (2) investigate the possibility of phytoextraction of dioxins and furans, and (3) test the effect of nitrogen fertilizer on phytoremediation performance. We showed that while nitrogen fertilization increased the chlorophyll content of plants, it did not result in a significantly greater plant biomass. We also showed that plants grown in the presence of PCP/CCA residues were able to translocate and concentrate trace elements in their aerial tissues, but also dioxins and furans (PCDD/F). This suggests that plants grown on sites polluted by PCP might contain dioxins and furans and should be treated as contaminated by these toxic chemicals. Finally, the reduction of soil contaminants at the end of the trial suggests that phytoremediation is a promising approach for decontaminating such sites.

Published

2020

30. Release of copper-amended particles from micronized copper-pressure-treated wood during mechanical abrasion.

Author

Civardi, Chiara, Schlagenhauf, Lukas, Kaiser, Jean-Pierre, Hirsch, Cordula, Mucchino, Claudio, Wichser, Adrian, Wick, Peter, and Schwarze, Francis W. M. R.

Subjects

*NANOPARTICLES, *CHROMATED copper arsenate, *WOOD preservatives, *EPITHELIAL cells, *CELL-mediated cytotoxicity

Abstract

Background: We investigated the particles released due to abrasion of wood surfaces pressure-treated with micronized copper azole (MCA) wood preservative and we gathered preliminary data on its in vitro cytotoxicity for lung cells. The data were compared with particles released after abrasion of untreated, water (0% MCA)-pressure-treated, chromated copper (CC)-pressure-treated wood, and varnished wood. Size, morphology, and composition of the released particles were analyzed. Results: Our results indicate that the abrasion of MCA-pressure-treated wood does not cause an additional release of nanoparticles from the unreacted copper (Cu) carbonate nanoparticles from of the MCA formulation. However, a small amount of released Cu was detected in the nanosized fraction of wood dust, which could penetrate the deep lungs. The acute cytotoxicity studies were performed on a human lung epithelial cell line and human macrophages derived from a monocytic cell line. These cell types are likely to encounter the released wood particles after inhalation. Conclusions: Our findings indicate that under the experimental conditions chosen, MCA does not pose a specific additional nano-risk, i.e. there is no additional release of nanoparticles and no specific nano-toxicity for lung epithelial cells and macrophages. [ABSTRACT FROM AUTHOR]

Published

2016

31. Determination of biological performance, dimensional stability, mechanical and thermal properties of wood–plastic composites produced from recycled chromated copper arsenate-treated wood.

Author

Tascioglu, Cihat, Tufan, Mursit, Yalcin, Mesut, and Sen, Selim

Subjects

*CHROMATED copper arsenate, *CHEMICAL stability, *MECHANICAL behavior of materials, *COMPOSITE materials, *CHEMICAL decomposition

Abstract

The aim of this study was to investigate the dimensional stability, mechanical and biological performance and thermal degradation of wood–plastic composites made from high-density polyethylene and recycled wood treated with chromated copper arsenate (CCA), a commonly used wood preservative chemical. Virgin pine wood samples were also prepared with and without a coupling agent and used as the control group. Samples of CCA-treated Scots pine (Pinus sylvestris L.) with varying wood content were produced by adding different ratios of the coupling agent. The recycled CCA-treated wood-filled composites exhibited better flexural and tensile strength properties and dimensional stability than the control group, whilst their impact strength was less. Biological test values showed improved durability against termites and fungus with the recycled CCA-treated wood-filled composites. In addition, the leaching of heavy metals was significantly diminished when the coupling agent was utilized at a level of 5% (w/w), thus presenting a much lower impact on the environment. [ABSTRACT FROM AUTHOR]

Published

2016

32. Elimination of arsenic-containing emissions from gasification of chromated copper arsenate wood.

Author

Kramb, Jason, Konttinen, Jukka, Backman, Rainer, Salo, Kari, and Roberts, Michael

Subjects

*CHROMATED copper arsenate, *BIOMASS gasification, *THERMODYNAMIC equilibrium, *CONDENSATION, *FUEL research

Abstract

The behavior of arsenic in chromated copper arsenate containing wood during gasification was modeled using thermodynamic equilibrium calculations. The results of the model were validated using bench-scale gasification tests. It is shown that over 99.6% of arsenic can be removed from the product gas by a hot filter when the gas is cooled below the predicted condensation temperature. [ABSTRACT FROM AUTHOR]

Published

2016

33. Potential arsenic exposures in 25 species of zoo animals living in CCA-wood enclosures.

Author

Gress, J., da Silva, E.B., de Oliveira, L.M., Zhao, Di, Anderson, G., Heard, D., Stuchal, L.D., and Ma, L.Q.

Subjects

*CHROMATED copper arsenate, *PHYSIOLOGICAL effects of arsenic, *ARSENIC & the environment, *WOOD preservatives, *ZOO animals

Abstract

Animal enclosures are often constructed from wood treated with the pesticide chromated copper arsenate (CCA), which leaches arsenic (As) into adjacent soil during normal weathering. This study evaluated potential pathways of As exposure in 25 species of zoo animals living in CCA-wood enclosures. We analyzed As speciation in complete animal foods, dislodgeable As from CCA-wood, and As levels in enclosure soils, as well as As levels in biomarkers of 9 species of crocodilians (eggs), 4 species of birds (feathers), 1 primate species (hair), and 1 porcupine species (quills). Elevated soil As in samples from 17 enclosures was observed at 1.0–110 mg/kg, and enclosures housing threatened and endangered species had As levels higher than USEPA's risk-based Eco-SSL for birds and mammals of 43 and 46 mg/kg. Wipe samples of CCA-wood on which primates sit had dislodgeable As residues of 4.6–111 μg/100 cm 2 , typical of unsealed CCA-wood. Inorganic As doses from animal foods were estimated at 0.22–7.8 μg/kg bw/d. Some As levels in bird feathers and crocodilian eggs were higher than prior studies on wild species. However, hair from marmosets had 6.37 mg/kg As, 30-fold greater than the reference value, possibly due to their inability to methylate inorganic As. Our data suggested that elevated As in soils and dislodgeable As from CCA-wood could be important sources of As exposure for zoo animals. [ABSTRACT FROM AUTHOR]

Published

2016

34. Decontamination of CCA-treated eucalyptus wood waste by acid leaching.

Author

Ferrarini, Suzana Frighetto, dos Santos, Heldiane Souza, Miranda, Luciana Gampert, Azevedo, Carla Maria Nunes, Maia, Sandra Maria, and Pires, Marçal

Subjects

*CHROMATED copper arsenate, *LEACHING, *DECONTAMINATION (From gases, chemicals, etc.), *EUCALYPTUS, *WOOD waste, *EXTRACTION (Chemistry)

Abstract

Preservatives such as chromated copper arsenate (CCA) are used to increase the resistance of wood to deterioration. The components of CCA are highly toxic, resulting in growing concern over the disposal of the waste generated. The aim of this study was to investigate the removal of Cu, Cr and As present in CCA-treated eucalyptus wood from utility poles removed from service in southern Brazil, in order to render them non-hazardous waste. The removal was carried out by acid leaching in bench-scale and applying optimal extractor concentration, total solid content, reactor volume, temperature and reaction time obtained by factorial experiments. The best working conditions were achieved using three extraction steps with 0.1 mol L −1 H 2 SO 4 at 75 °C for 2 h each (total solid content of 15%), and 3 additional 1 h-long washing steps using water at ambient temperature. Under these conditions, removal of 97%, 85% and 98% were obtained for Cu, Cr and As, respectively, rendering the decontaminated wood non-hazardous waste. The wastewater produced by extraction showed acid pH, high organic loading as well as high concentrations of the elements, needing prior treatment to be discarded. However, rinsing water can be recycled in the extraction process without compromising its efficiency. The acid extraction is a promising alternative for CCA removal from eucalyptus wood waste in industrial scale. [ABSTRACT FROM AUTHOR]

Published

2016

35. Application of near-infrared spectroscopy for the fast detection and sorting of wood-plastic composites and waste wood treated with wood preservatives.

Author

Mauruschat, Dirk, Plinke, Burkhard, Aderhold, Jochen, Gunschera, Jan, Meinlschmidt, Peter, and Salthammer, Tunga

Subjects

*NEAR infrared radiation, *WOOD preservatives, *PRESERVATION of wood, *PROTECTIVE coatings, *CHROMATED copper arsenate

Abstract

The aim of this work was to increase the amount of recycled waste wood in the wood-processing industry. Contaminations such as plastics and wood preservatives therefore have to be identified and removed. A promising technique to detect this foreign matter is near-infrared (NIR) spectroscopy. For several organic and inorganic active compounds for wood preservation, the NIR reflectance spectra acquired with sensors with the capability of on-line measurements were characterized. Some of them were significantly different from those of previously published spectra. Moreover, untreated wood was distinguishable from wood treated with preservatives. Confounding factors, such as the water content, wood species and solvent of the preservative, were examined which had so far massively interfered the NIR detection and classification. Chemometric-based solutions are presented in this work to cope with analytical challenges arisen from the complexity of waste wood samples. This formed the basis for a sorting trial in which treated wood chips were detected in real time with an NIR spectrometer and automatically separated by pneumatic nozzles, showing that the laboratory experiments can be transferred into small industrial scale. Additionally, the experiments showed that wood-plastic composites (WPC) of different plastic types were distinguishable with NIR spectroscopy and can be sorted by ejection based on this information. Unmixed material is a major prerequisite for a high-quality recycling of WPC and has never been demonstrated on a technical scale. Furthermore, three different NIR devices (hyperspectral imaging camera, miniaturized spectrometer and sorting plant) were evaluated regarding their applicability in the waste wood recycling process. [ABSTRACT FROM AUTHOR]

Published

2016

36. Biomonitoring of Uruguayan workers exposed to arsenic from chromated copper arsenate (CCA) used in wood impregnation process

Author

Valery Bühl, Cristina Álvarez, Paulina Pizzorno, Mariela Pistón, and Nelly Mañay

Subjects

chemistry.chemical_compound, chemistry, Environmental chemistry, Biomonitoring, General Earth and Planetary Sciences, chemistry.chemical_element, Chromated copper arsenate, Arsenic, General Environmental Science

Published

2021

37. Water-Borne Wood Preservation and End-of-Life Removal History and Projection

Author

Stephen T. Smith

Subjects

Preservative, Zinc arsenate, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Pulp and paper industry, 01 natural sciences, 0104 chemical sciences, Arsenic contamination of groundwater, chemistry.chemical_compound, Ingredient, chemistry, Demolition, Environmental science, Chromated copper arsenate, 0210 nano-technology, Mulch, Arsenic

Abstract

Use of water-borne wood preservatives began in approximately the 1950s. Residential and commercial uses rapidly developed for products such as decking, fences, and other outdoor structures. Nearly all such products were treated by preservatives using arsenic as a major ingredient. The most common preservative was chromated copper arsenate (CCA). A smaller volume used ammoniacal copper zinc arsenate (ACZA). Preservative label changes made in 2003 limited uses of these arsenical treatments to industrial or agricultural type uses, such as poles, piles, ties, bridges, and fencing. Use volumes of preservative-treated wood continued to grow after the label change, but the types of preservatives used changed greatly. The amounts of water-borne treated wood reaching end-of-life and being disposed also continued to grow, reflecting the increasing inventory of volume in service. However, the volume of arsenical-treated wood being disposed peaked in approximately 2008 and is now only approximately one-quarter of that volume. Most of the arsenical-treated wood now being disposed consists of large, easily identified and separated pieces, such as round poles, piles, and fence posts and timbers, which can be easily managed separated from other wood construction and demolition (C & D) waste. Thus, managing C & D waste to limit arsenic contamination of potential products, such as mulch, will be much more practical than some have feared.

Published

2020

38. Effects of sewage sludge biosolid amendments on the potential of maize (Zea mays L.) in phytoremediation of trace metals in chromated copper arsenate contaminated soils

Author

Timothy Omara, Caroline Kiwanuka Nakiguli, and Emmanuel Ntambi

Subjects

0303 health sciences, Chemistry, Amendment, chemistry.chemical_element, 010501 environmental sciences, 01 natural sciences, Copper, 03 medical and health sciences, Phytoremediation, Chromium, chemistry.chemical_compound, Environmental chemistry, Soil water, Chromated copper arsenate, Sludge, Arsenic, 030304 developmental biology, 0105 earth and related environmental sciences

Abstract

The effect of sewage sludge amendment (5-25% w/w) on the potential of maize (MM3 variety) to phytoextract trace metals from chromated copper arsenate (CCA) contaminated soils was investigated. The metal content of fresh soils, and soils, maize roots and shoots after 80 days of planting were determined by atomic absorption spectroscopy. The concentrations of chromium, copper and arsenic in fresh CCA soils were 365.8 ± 6.18, 109.72 ± 14.04 and 28.22 ± 3.8 mg/kg respectively. The MM3 maize variety could be used to phytoextract or phytostabilize the trace metals in the CCA contaminated soils without or with 5-25% sewage sludge amendment.

Published

2020

39. Estudio Comparativo Entre Fluorescencia De Rayos-X Y Reflectancia Difusa De Infrarrojos Cercanos Para La Determinación De La Retención En Madera Impregnada Con Arseniato De Cobre Cromatado

Author

Ricardo Baettig-Palma, Jorge Cornejo-Troncoso, Marina Salas-Maureira, and Jaime Tapia-Sanhueza

Subjects

atomic absorption, chromated copper arsenate, near-infrared diffuse reflectance, treated wood, x-ray fluorescence, absorción atómica, Forestry, SD1-669.5, Manufactures, TS1-2301

Abstract

Se realizó un análisis comparativo de la precisión de los resultados en la determinación de la retención de óxidos de cobre, cromo y arsénico en madera impregnada con arseniato de cobre cromatado entre fluorescencia de rayos X y espectrometría de reflectancia difusa de infrarrojos cercanos. Los resultados de la calidad de las predicciones fueron comparados entre sí y con valores de retención obtenidos experimentalmente por método gravimétrico, absorción atómica y por cenizas resultantes de su calcinación. Los resultados del coeficiente de determinación del análisis de regresión entre la intensidad de fluorescencia de rayos X de las líneas K-Alpha y entre el espectro de reflectancia difusa de infrarrojos con respecto a la retención medida por métodos convencionales se encontraron en un rango de 0,909 a 0,986. Los resultados obtenidos pueden ser considerados aceptables para fines predictivos o incluso adecuados para propósitos de control de calidad. A su vez, al ser comparados por sus niveles de error de estimación, estos resultados fueron mejores que los obtenidos por otros estudios similares. Abstract This paper evaluated the precision of predictions for chromated copper arsenate preservative retention in wood using X-ray fluorescence and near infrared diffuse reflectance. The quality of the predictions were compared with each other and with retention values obtained experimentally by gravimetric method, atomic absorption and total ash content. Coefficients of determination between the K-Alpha fluorescence intensities and near infrared diffuse reflectance with regard to conventional methods were between 0,909 and 0,986. The results can be considered acceptable for predictive purposes or even good for quality control purposes. In turn, the prediction errors were better than obtained by several studies.

Published

2015

40. Mold resistance of bamboo treated with copper complexes-grafted silica gel and its microdistribution in treated bamboo

Author

Li Dan, Luo Sha, Yang Luo, Wu Yiqiang, Ji Ning, Yang Shoulu, and Huang Anxiang

Subjects

Bamboo, Materials science, Scanning electron microscope, Mold resistance, chemistry.chemical_element, 02 engineering and technology, medicine.disease_cause, lcsh:TH1-9745, Biomaterials, chemistry.chemical_compound, Mold, medicine, Fourier transform infrared spectroscopy, Chromated copper arsenate, lcsh:Forestry, HSM, 040101 forestry, Silica gel, TEOS, 04 agricultural and veterinary sciences, 021001 nanoscience & nanotechnology, Copper, APTES, Microdistribution, Silanol, chemistry, 0401 agriculture, forestry, and fisheries, lcsh:SD1-669.5, 0210 nano-technology, Nuclear chemistry, lcsh:Building construction

Abstract

Bamboo is readily discolored by mold fungi, which greatly limits its applications. An effective antifungal agent, copper(II) chloride (CuCl2)-grafted silica gel, was prepared by a sol–gel process using tetraethoxysilane (TEOS)/3-aminopropyltriethoxysilane (APTES) mixtures. The elemental composition and the chemical combinations of homogeneous sol mixture (HSM) and bamboo were determined via Fourier transform infrared (FTIR) spectroscopy and scanning electron microscopy with energy-dispersive X-ray spectrometry (SEM–EDS). The mold resistance of bamboo treated with HSM, alkaline copper quat (ACQ), chromated copper arsenate (CCA), and purified water was characterized by an indoor mold test. The micro-morphology of bamboo treated with HSM was investigated using scanning electron microscopy (SEM). HSM penetrated into the bamboo vessels, and formed xerogels, which was able to coordinate copper(II) cations. SEM–EDS investigations suggest that Si–O–Cu linkages may be formed through an exchange reaction between silanol groups and copper complexes. The bamboo samples treated with HSM showed highly efficient mold resistance due to a good penetration of HSM. Furthermore, no fungal hyphae were found in the structure of HSM-treated bamboo after a 5-week mold test. The copper complexes grafted to silica gel developed in this work provide an efficient antifungal agent for a wide range of potential applications in bamboo protection.

Published

2019

41. Pressure treatment of rubberwood (Heavea brasiliensis) with waterborne micronized copper azole: Effects on retention, copper leaching, decay resistance and mechanical properties

Author

J. Zhang, S.R. Shukla, and D.P. Kamdem

Subjects

chemistry.chemical_classification, Active ingredient, Chemistry, 0211 other engineering and technologies, chemistry.chemical_element, 020101 civil engineering, 02 engineering and technology, Building and Construction, Field tests, Leaching rate, Copper, 0201 civil engineering, chemistry.chemical_compound, 021105 building & construction, cardiovascular system, Azole, General Materials Science, cardiovascular diseases, Chromated copper arsenate, Rubberwood, Copper leaching, Civil and Structural Engineering, Nuclear chemistry

Abstract

This study objective was to investigate the biological efficacy of a commercial dispersion of micronized copper azole (MCA) on plantation grown rubberwood. MCA is a formulation containing micronized copper carbonates and azole, an organic co-biocide. The impact of MCA pressure treatments with various concentrations of the active ingredients and the treatment durations on retentions, leaching rate, mechanical properties and biological performance against brown and white rots were evaluated. Biological performance of MCA treated rubberwood at minimum retention of 2.8 ± 0.3 kg/m3 was found to be comparable to that of chromated copper arsenate (CCA) treatment at 15.1 ± 2.3 kg/m3. Field tests are being conducted to confirm the laboratory findings.

Published

2019

42. An uptake and elimination kinetics approach to assess the bioavailability of chromium, copper, and arsenic to earthworms (Eisenia andrei) in contaminated field soils

Author

Ari Väisänen, Cornelis A.M. van Gestel, Johanna Kilpi-Koski, Olli-Pekka Penttinen, Animal Ecology, Ecosystems and Environment Research Programme, Helsinki Institute of Sustainability Science (HELSUS), and Teachers' Academy

Subjects

Chromium, LUMBRICUS-RUBELLUS, Bioavailability, Eisenia andrei, Health, Toxicology and Mutagenesis, 010501 environmental sciences, 01 natural sciences, TOXICITY, chemistry.chemical_compound, Soil, biosaatavuus, metallit, Finland, biology, General Medicine, Lumbricus rubellus, Pollution, Bioaccumulation, FOLSOMIA-CANDIDA, CD, bioaccumulation, Metals, Environmental chemistry, uptake and elimination kinetics, Arsenates, Metalloid, maaperän saastuminen, CU, Research Article, lierot, Metals and metalloids, metals and metalloids, METAL ACCUMULATION, chemistry.chemical_element, Biological Availability, Arsenic, HEAVY-METALS, Environmental Chemistry, Animals, Chromated copper arsenate, Oligochaeta, SPECIATION, 1172 Environmental sciences, 0105 earth and related environmental sciences, CCA-contaminated soil, Earthworm, biology.organism_classification, FOETIDA, Kinetics, chemistry, kertyminen, ZN, Uptake and elimination kinetics, puunsuoja-aineet, Environmental Pollution, Copper

Abstract

The aim of this study was to determine the bioavailability of metals in field soils contaminated with chromated copper arsenate (CCA) mixtures. The uptake and elimination kinetics of chromium, copper, and arsenic were assessed in the earthworm Eisenia andrei exposed to soils from a gradient of CCA wood preservative contamination near Hartola, Finland. In soils contaminated with 1480–1590 mg Cr/kg dry soil, 642–791 mg Cu/kg dry soil, and 850–2810 mg Ag/kg dry soil, uptake and elimination kinetics patterns were similar for Cr and Cu. Both metals were rapidly taken up and rapidly excreted by Eisenia andrei with equilibrium reached within 1 day. The metalloid As, however, showed very slow uptake and elimination in the earthworms and body concentrations did not reach equilibrium within 21 days. Bioaccumulation factors (BAF) were low for Cu and Cr (

Published

2019

43. Arsenic, copper, and chromium from treated wood products in the U.S. disposal sector

Author

Juniper Marini, Timothy G. Townsend, Athena S. Jones, Nicole M. Robey, and Helena M. Solo-Gabriele

Subjects

Chromium, Preservative, 020209 energy, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Arsenic, chemistry.chemical_compound, 0202 electrical engineering, electronic engineering, information engineering, Chromated copper arsenate, Waste Management and Disposal, 0105 earth and related environmental sciences, Contamination, Pulp and paper industry, Wood, chemistry, Arsenates, Environmental science, Leaching (metallurgy), Environmental Pollution, Tonne, Mulch, Copper

Abstract

Construction and demolition (C&D) wood can be recycled as mulch for landscaping or cogeneration. Limitations to such recycling are dependent on metals concentrations in mulch (As, Cu, and Cr) from the inclusion of waterborne-preservative treated wood. The objective of this study was to evaluate the amount of waterborne-preservative treated wood (by wood volume and by mass of metal) that enters the C&D wood waste stream in the U.S. by utilizing a mass balance approach. A model was developed using wood treatment industry production statistics, estimated leaching rates of metal-based preservatives, and typical service lives of wood products. Outputs of the model indicate that the volumes of waterborne preservative treated wood disposed of may exceed 16 million m3 per year by 2030. The peak yearly metal mass disposed of corresponded to 18,400 metric tons for arsenic and 24,500 tons of chromium in 2013. Given the current trends in production, the mass of copper disposed of will increase to 20,900 tons by 2030. In order to meet regulatory guidelines regarding metals in recycled C&D wood, waterborne-preservative treated wood must be separated and removed. This separation mitigates environmental contamination from wood preservatives such as chromated copper arsenate (CCA).

Published

2019

44. Assessment of biochar and zero-valent iron for in-situ remediation of chromated copper arsenate contaminated soil

Author

Stacie Tardif, Hanna Frick, Peter E. Holm, Kristian K. Brandt, and Ellen Kandeler

Subjects

Environmental Engineering, Bioavailability, 010504 meteorology & atmospheric sciences, Soil test, Denmark, Iron, Soil remediation, Zero-valent iron, Environmental aspects, 010501 environmental sciences, Metal-contaminated soils, 01 natural sciences, Soil quality, Soil, chemistry.chemical_compound, Biochar, Soil Pollutants, Environmental Chemistry, Chromated copper arsenate, Waste Management and Disposal, Soil Microbiology, 0105 earth and related environmental sciences, Zerovalent iron, Chemistry, Microbiota, Whole-cell biosensors, 15. Life on land, Pollution, Soil contamination, 6. Clean water, Soil conditioner, Biodegradation, Environmental, Charcoal, Environmental chemistry, Arsenates, Microcosm, Environmental Monitoring

Abstract

Chromated copper arsenates (CCA) have been extensively used as wood impregnation agents in Europe and North America. Today, CCA contaminated sites remain abundant and pose environmental risks that need to be properly managed. Using a TRIAD approach that combined chemical, ecotoxicological and ecological assessment of soil quality, we investigated the abilities of biochar and zero-valent iron (ZVI) to remediate CCA contaminated soil in a microcosm experiment. Soil samples from a highly contaminated CCA site (1364, 1662 and 540 μg g−1 of As, Cu and Cr, respectively) were treated with two different biochars (fine and coarse particle size; 1% w w−1) and ZVI (5% w w−1), both as sole and as combined treatments, and incubated for 56 days at 15 °C. In general, bioavailable As (Asbio) and Cu (Cubio) determined by whole-cell bacterial bioreporters corresponded well to water-extractable As and Cu (Aswater and Cuwater). However, in biochar treatments, only Cubio and not Cuwater was significantly reduced. In contrast, under ZVI treatments only Cuwater and not Cubio was reduced, demonstrating the value of complementing analytical with bacterial bioreporter measurements to infer bioavailability of elements to soil microorganisms. The combined fine particle size biochar and ZVI treatment effectively reduced water extractable concentrations of Cr, Cu, and As on site by 45%, 45% and 43% respectively, and led to the highest ecological recovery of the soil bacterial community, as measured using the [3H]leucine incorporation technique. We conclude that the combined application of biochar and ZVI as soil amendments holds promise for in-situ stabilization of CCA contaminated sites.

Published

2019

45. Physical and Mechanical Properties of Plywood Produced with Thermally Treated Pinus taeda Veneers

Author

Bruno Santos Ferreira, Felipe Nascimento Arroyo, Marcel Yuzo Kondo, Herisson Ferreira dos Santos, Rogério Lima Barreto, Alfredo Manuel Pereira Geraldes Dias, Francisco Antônio Rocco Lahr, André Luis Christoforo, and Cristiane Inácio de Campos

Subjects

Forestry, heat treatment, chromated copper arsenate, wood panels, bonding quality, mechanical properties

Abstract

Plywood is a structural composite mainly applied in construction. For this purpose, some sort of preservative treatment is recommended to increase its durability. One option of the available treatments is heat treatment, which promotes the modification of the wood properties. This treatment is carried out on the final product (plywood), because it can reduce strength if applied to the veneers. However, no study has proven such a reduction. Therefore, the aim of this work was to evaluate three different temperatures (160 °C, 180 °C and 200 °C) of the heat treatment on the veneer surface and on the physical properties (specific gravity, moisture content and swelling in thickness) and mechanical properties (MOE and MOR in static bending) of Pinus taeda plywood. A reduction was observed in the roughness of the veneer’s surfaces and the total extractives content changed, with a minimum value reached in the 160 °C treatment. The plywood specific gravity initially increased with the heat treatment and did not change at higher temperatures, moisture content reduced, and thickness swelling was not affected. There was no change in the mechanical properties of the plywood, evidencing that the veneer heat treatment does not prejudice mechanically the final product.

Published

2022

46. Biological and chemical remediation of CCA treated eucalypt poles after 30 years in service

Author

Juarez Benigno Paes, Victor Fassina Brocco, Amy B. Bishell, Lais Gonçalves da Costa, and Grant T. Kirker

Subjects

Environmental Engineering, Environmental remediation, Health, Toxicology and Mutagenesis, Corymbia citriodora, Oxalic acid, chemistry.chemical_element, chemistry.chemical_compound, Bioremediation, Environmental Chemistry, Chromated copper arsenate, Antrodia, Arsenic, biology, Basidiomycota, Extraction (chemistry), Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Pollution, Wood, chemistry, Environmental chemistry, Arsenates, Polyporales, Copper

Abstract

The aim of this study was to evaluate the efficacy of biological and chemical remediation of chromated copper arsenate (CCA) treated Corymbia citriodora poles, removed from service after 30 years. The presence of arsenic (As), chromium (Cr) and copper (Cu) was quantified by inductively coupled plasma optical emission spectrometry (ICP–OES). Twelve species of decay fungi were used for the biological remediation assay. For chemical remediation oxalic, citric, maleic and ethylenediamine tetraacetic (EDTA) acids were used for 24 and 48 h. In biological remediation, copper-tolerant brown-rot fungi, Wolfiporia cocos, Antrodia xantha and Fibroporia radiculosa, performed the best results, with the highest removals for As (59–85 %) and Cr (38–61 %). Cu was the most easily extracted, with removals above 60 % among the tested fungi, with the best results (90–98 %) for F. radiculosa, Coniophora puteana, Antrodia vaillantii and Postia placenta. In chemical remediation, the extraction time of 48 h was the most effective, and oxalic acid generally reached the highest removals. The EDTA + oxalic acid combination reached the highest value for Cu extraction (98 %).

Published

2021

47. Use of Eucalyptus grandis clones treated with a water repellent to improve the dimensional stability of utility poles

Author

Damian Gherscovic and Claudia Marcela Ibanez

Subjects

Eucalyptus grandis, Abiotic component, Single stage, Materials Science (miscellaneous), wood poles, Forestry, Weathering, water repellent, Pulp and paper industry, Stability (probability), Eucalyptus, Durability, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Water repellent, chemistry, Anti-shrink efficiency, shrinking-swelling, Chemical Engineering (miscellaneous), dimensional stability, Chromated copper arsenate

Abstract

Wood is a common construction material used in most environments. However, its sensibility to abiotic agents, in particular those that affect the dimensional stability, limits the durability of the material and decreases its properties. In this work, the efficiency of a paraffin-emulsion-based product as a water repellent, combined with the selection of Eucalyptus grandis clones with a low cracking index, was tested for its use in utility poles in order to improve the woods dimensional stability. Four selected Eucalyptus grandis clones were treated with the product mixed with Chromated Copper Arsenate - the most commonly used wood protector - in a single stage by the Bethell method at two retention levels. The dimensional stability of the treated samples was studied through the determination of anti-shrink efficiency. Test samples were also exposed to accelerated weathering processes for 200 h, and later analyzed by SEM microscopy. Results showed a significant improvement in the dimensional stability of treated wood when compared to samples without the water repellent, with variable efficacy depending on the clone used. Despite the weathering process slightly affected the appearance of the wood surface, the product is suitable for exterior use.

Published

2021

48. Optical properties of CCA films prepared with poly[styrene-co-sodium 1-allyloxy-2-hydroxypropane sulphonate] particles.

Author

Choo, H.-S. and Lee, K.-C.

Subjects

*CHROMATED copper arsenate, *POLYSTYRENE, *EMULSION polymerization, *PHOTONIC crystals, *PHOTONIC crystal fibers

Abstract

In this study, we investigated the optical properties of CCA films prepared with poly[styrene-co-sodium 1-allyloxy-2-hydroxypropane sulphonate] particles via soap-free emulsion polymerisation. Experiments were performed by adjusting the several reaction factors such as styrene concentration, sodium 1-allyloxy-2-hydroxypropane sulphonate concentration, polymerisation temperature, initiator and divinylbenzene concentration. All latexes showed uniform spherical particles and they showed a size range of 160-550 nm. All CCA films prepared with self-assembled array showed the respective shiny structural colours from their photonic crystals. It is found that the changes in such polymerisation factors greatly affect the number of particles and particle diameter and refractive indices. Refractive indices and the reflectivity increased with sodium 1-allyloxy-2-hydroxypropane sulphonate concentration, on the other hand, and decreased with divinylbenzene concentration. [ABSTRACT FROM AUTHOR]

Published

2015

49. FIXATION AND LEACHING CHARACTERISTICS OF CCA-TREATED MALAYSIAN HARDWOOD.

Author

Sabiha, S., Syaidatul, S., Zaidon, A., Hamami, S. Mohd, Choi, Y. S., and Kim, G. H.

Subjects

*CHROMATED copper arsenate, *HARDWOODS, *ACACIA, *LEACHING, *TIMBER

Abstract

Effects of chromated copper arsenate (CCA) on fixation and leaching characteristics of eight Malaysian commercial hardwood, namely, acacia (Acacia mangium), bintangor (Calophyllum sp.), geronggang (Cratoxylum arborescens), medang (Litsea sp.), meranti rambai daun (Shorea acuminata), putat (Planchonia sp.), ramin (Gonystylus sp.) and simpuh (Dillenia sp.) were studied. CCA-fixation rate in wood was evaluated by monitoring the reduction of hexavalent to trivalent chromium in expressates. The amounts of copper, chromium and arsenic remaining in the unfixed state after 14 days were also determined. Acacia was the most suitable species for treatment with CCA. In comparison with radiata pine, leaching of CCA components from treated timbers was high and varied between species owing to their chemical composition especially lignin content. An additional study was conducted with geronggang and ramin to determine the effect of pre-extraction on fixation. Results indicated that differences in fixation and leaching characteristics of CCA-treated timbers (especially geronggang and ramin) were influenced by the extractive content of the wood. [ABSTRACT FROM AUTHOR]

Published

2015

50. Cleaning-induced arsenic mobilization and chromium oxidation from CCA-wood deck: Potential risk to children.

Author

Gress, J., de Oliveira, L.M., da Silva, E.B., Lessl, J.M., Wilson, P.C., Townsend, T., and Ma, L.Q.

Subjects

*WOOD decay, *HEALTH risk assessment, *CHILDREN'S health, *CHROMATED copper arsenate, *HEXAVALENT chromium

Abstract

Concern about children's exposure to arsenic (As) from wood treated with chromated-copper-arsenate (CCA) led to its withdrawal from residential use in 2004. However, due to its effectiveness, millions of American homes still have CCA-wood decks on which children play. This study evaluated the effects of three deck-cleaning methods on formation of dislodgeable As and hexavalent chromium (CrVI) on CCA-wood surfaces and in leachate. Initial wipes from CCA-wood wetted with water showed 3–4 times more dislodgeable As than on dry wood. After cleaning with a bleach solution, 9.8–40.3 μg/100 cm 2 of CrVI was found on the wood surface, with up to 170 μg/L CrVI in the leachate. Depending on the cleaning method, 699–2473 mg of As would be released into the environment from cleaning a 18.6-m 2 -deck. Estimated As doses in children aged 1–6 after 1 h of playing on a wet CCA-wood deck were 0.25–0.41 μg/kg. This is the first study to identify increased dislodgeable As on wet CCA-wood and to evaluate dislodgeable CrVI after bleach application. Our data suggest that As and CrVI in 25-year old CCA-wood still show exposure risks for children and potential for soil contamination. [ABSTRACT FROM AUTHOR]

Published

2015