posted on 2015-04-07, 00:00authored bySopheak Net, Richard Sempéré, Anne Delmont, Andrea Paluselli, Baghdad Ouddane
Because
of their large and widespread application, phthalates or
phthalic acid esters (PAEs) are ubiquitous in all the environmental
compartements. They have been widely detected throughout the worldwide
environment. Indoor air where people spend 65–90% of their
time is also highly contaminated by various PAEs released from plastics,
consumer products as well as ambient suspended particulate matter.
Because of their widespread application, PAEs are the most common
chemicals that humans are in contact with daily. Based on various
exposure mechanisms, including the ingestion of food, drinking water,
dust/soil, air inhalation and dermal exposure the daily intake of
PAEs may reach values as high as 70 μg/kg/day. PAEs are involved
in endocrine disrupting effects, namely, upon reproductive physiology
in different species of fish and mammals. They also present a variety
of additional toxic effects for many other species including terrestrial
and aquatic fauna and flora. Therefore, their presence in the environment
has attracted considerable attention due to their potential impacts
on ecosystem functioning and on public health. This paper is a synthesis
of the extensive literature data on behavior, transport, fate and
ecotoxicological state of PAEs in environmental matrices: air, water,
sediment, sludge, wastewater, soil, and biota. First, the origins
and physicochemical properties of PAEs that control the behavior,
transport and fate in the environment are reviewed. Second, the compilation
of data on transport and fate, adverse environmental and human health
effects, legislation, restrictions, and ecotoxicological state of
the environment based on PAEs is presented.