Add to ORKGAbstract Phthalates are synthesized in massive amounts to produce various plastics and have become widespread in environments following their release as a result of extensive usage and production. This has been of an environmental concern because phthalates are hepatotoxic, teratogenic, and carcinogenic by nature. Numerous studies indicated that phthalates can be degraded by bacteria and fungi under aerobic, anoxic, and anaerobic conditions. This paper gives a review on the biodegradation of phthalates and includes the following aspects: (1) the relationship between the chemical structure of phthalates and their biodegradability, (2) the biodegradation of phthalates by pure/mixed cultures, (3) the biodegradation of phthalates under various ...
The adipic and phthalic acid esters are plasticizers, have low water solubility, high partition octa...
Phthalates are primarily synthetic compounds have been widely used in industry and consequently beca...
Abstract: A Gram-negative strain (TJ) capable of growing aerobically on mixed phthalate esters (PAEs...
This review has four major objectives: I) to present the problem of phthalate pollution, II) to high...
To assess the impact of phthalates on soil microorganisms and to supplement the environmental risk a...
The environmentally relevant xenobiotic esters of phthalic acid (PA), isophthalic acid (IPA) and ter...
Phthalate diesters (DPEs) are a family of industrial chemicals used in a vast array of consumer prod...
AbstractBiodegradation of dimethyl phthalate (DMP), diethyl phthalate (DEP) and dibutyl phthalate (D...
The excessive use of phthalates (PHEs) plasticizers has promoted a serious environmental problem. Th...
More than one billion pounds of plasticizers are produced each year to supply the plastics industry....
Biodegradation of diethyl phthalate (DEP) has been shown to occur as a series of sequential steps co...
Phthalates are a common chemical compound used as plasticizers in various industries and exposure to...
Phthalic acid esters (PAEs) are one of the most widely used plasticizers and the well-studied enviro...
The three phthalate isomers are widely found in the environment due to their extensive use in the ma...
<p>Phthalic acid isomers (dicarboxy benzenes) play an important role in our human environment ...
The adipic and phthalic acid esters are plasticizers, have low water solubility, high partition octa...
Phthalates are primarily synthetic compounds have been widely used in industry and consequently beca...
Abstract: A Gram-negative strain (TJ) capable of growing aerobically on mixed phthalate esters (PAEs...
This review has four major objectives: I) to present the problem of phthalate pollution, II) to high...
To assess the impact of phthalates on soil microorganisms and to supplement the environmental risk a...
The environmentally relevant xenobiotic esters of phthalic acid (PA), isophthalic acid (IPA) and ter...
Phthalate diesters (DPEs) are a family of industrial chemicals used in a vast array of consumer prod...
AbstractBiodegradation of dimethyl phthalate (DMP), diethyl phthalate (DEP) and dibutyl phthalate (D...
The excessive use of phthalates (PHEs) plasticizers has promoted a serious environmental problem. Th...
More than one billion pounds of plasticizers are produced each year to supply the plastics industry....
Biodegradation of diethyl phthalate (DEP) has been shown to occur as a series of sequential steps co...
Phthalates are a common chemical compound used as plasticizers in various industries and exposure to...
Phthalic acid esters (PAEs) are one of the most widely used plasticizers and the well-studied enviro...
The three phthalate isomers are widely found in the environment due to their extensive use in the ma...
<p>Phthalic acid isomers (dicarboxy benzenes) play an important role in our human environment ...
The adipic and phthalic acid esters are plasticizers, have low water solubility, high partition octa...
Phthalates are primarily synthetic compounds have been widely used in industry and consequently beca...
Abstract: A Gram-negative strain (TJ) capable of growing aerobically on mixed phthalate esters (PAEs...