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Model and field studies of the degradation of cross-linked polyacrylamide gels used during the revegetation of slate waste
- Source :
- The Science of the total environment. 336(1-3)
- Publication Year :
- 2003
-
Abstract
- Cross-linked polyacrylamide gels are increasingly being used in environmental restoration schemes and horticulture as a means of enhancing water supply to plants. However, the environmental impact of cross-linked polyacrylamide gel deployment in soil remains poorly understood. This study assessed the chemical, physical and biological properties of new and field-conditioned cross-linked polyacrylamide gels. Both monomeric acrylamide (11 microg l(-1)) and acrylic acid (285 microg l(-1)) were observed in new gel; however, the levels of monomers in field-conditioned gels (1-6 years old) were very low (acrylamide1 microg l(-1); acrylic acid7 microg l(-1)). Generally, freeze-thaw processes and exposure to UV radiation had little effect on gel acrylic acid and acrylamide concentrations. However, elevated temperatures (35 degrees C) caused a significant release of up to 144 mug l(-1) of acrylamide and 453 microg l(-1) of acrylic acid in new gel and up to 25 microg l(-1) of acrylamide and 157 microg l(-1) of acrylic acid in field-conditioned gels. In contrast, gel water holding capacity was highly dependent upon environmental conditions (UV exposure and freeze/thaw cycles produced the greatest loss of water holding in new gels) and gel age. Optical microscopy revealed that after placement in the field the gels became increasingly colonised over time by fungi and bacteria. In enrichment cultures, we were unable, however, to demonstrate microbial growth when cross-linked polyacrylamide was used as the sole nitrogen source. In summary, under a range of conditions cross-linked polyacrylamide did not release acrylamide above legally permitted limits, with the exception of gel subjected to elevated temperatures. However, their capacity for holding water decreased sharply within 18 months. We therefore conclude that cross-linked polyacrylamide placed in soil is relatively stable with respect to the production of potentially toxic acrylamide, a species with a short half-life, which degrades to the much less toxic acrylic acid. However, the loss of water holding capacity raises questions about its long-term effectiveness in land restoration schemes as this is the main reason it is used in this role.
- Subjects :
- Environmental Engineering
Ultraviolet Rays
Polyacrylamide
Acrylic Resins
Plant Development
Bacterial growth
Mining
chemistry.chemical_compound
Materials Testing
Environmental Chemistry
Ecotoxicology
Organic chemistry
Soil Pollutants
Waste Management and Disposal
Polyacrylamide gel electrophoresis
Acrylic acid
Chromatography
Temperature
Water
Biodegradation
Models, Theoretical
Pollution
Biodegradation, Environmental
chemistry
Acrylamide
Degradation (geology)
Half-Life
Subjects
Details
- ISSN :
- 00489697
- Volume :
- 336
- Issue :
- 1-3
- Database :
- OpenAIRE
- Journal :
- The Science of the total environment
- Accession number :
- edsair.doi.dedup.....1b80f13559c104851ffdeae9da0a8399