Kinetic Assessment of the Biodegradability of Gel-Forming Soil Conditioners in Incubation Experiments with Instrumental Monitoring of Carbon Dioxide

Kinetic Assessment of the Biodegradability of Gel-Forming Soil Conditioners in Incubation Experiments with Instrumental Monitoring of Carbon Dioxide

A quantitative study of the biodegradability of polymer soil conditioners is necessary for a reasonable prediction of their stability and functioning in soils. For this purpose, a new methodological approach based on PASCO (USA) equipment was proposed. This approach allows recording continuous kinet...

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Bibliographic Details
Published in:Eurasian soil science Vol. 56; no. 12; pp. 1963 - 1977
Main Authors: Smagin, A. V., Sadovnikova, N. B., Belyaeva, E. A., Korchagina, K. V., Kokoreva, A. A., Krivtsova, V. N.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-12-2023
Springer Nature B.V
Subjects:
Biodegradability
Biodegradation
Biological activity
Carbon dioxide
Carbon dioxide emissions
Composts
Earth and Environmental Science
Earth Sciences
Economics
Gels
Geotechnical Engineering & Applied Earth Sciences
Half-life
Hydrogels
Laboratory experimentation
Liquid phases
Moisture content
Polymers
Profitability
Quantitative research
Silver
Soil
Soil conditioners
Soil conditions
Soil Physics
Soil water
CO
emission, gel superabsorbents
half-life, process modeling
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Summary:A quantitative study of the biodegradability of polymer soil conditioners is necessary for a reasonable prediction of their stability and functioning in soils. For this purpose, a new methodological approach based on PASCO (USA) equipment was proposed. This approach allows recording continuous kinetic curves of CO 2 emission in laboratory experiments based on incubation of composite gel-forming soil conditioners. Several characteristic types of respiration curves have been identified, and new physically based models have been proposed for their description with subsequent calculation of the half-lives of composite hydrogels. For the traditionally considered non-biodegradable acrylic superabsorbents of soil water, the possibility of rapid biodegradation was shown for the first time in the case of the addition of a biologically active compost extract into their liquid phase. With this treatment, which brings laboratory experiments closer to real soil conditions, the half-lives of both the well-known European Aquasorb and Zeba superabsorbents and the Russian Aquapastus hydrogel decreased by an order of magnitude from the initial values of 2–6 years to 0.1–0.3 years. In practice, this can negatively affect the profitability of using such materials for soil conditioning due to their rapid destruction and loss of functionality. The addition of silver ions into innovative Aquapastus composite superabsorbents at a dose of 0.1% or 10 ppm in swollen gel structures effectively reduces their biodegradability, prolonging the half-life to 10 years or more, which is twice the German standard DüMV 05.12.12 of the stability of polymer ameliorants.
ISSN:1064-2293
1556-195X
DOI:10.1134/S1064229323602056