Chloroacetic Acids – Degradation Intermediates of Organic Matter in Forest Soil
MatuchaM., Gryndler, M., Schröder P., Forczek S.T., Uhlířová H., Fuksová K., Rohlenová J.
SOIL BIOLOGY AND BIOCHEMISTRY Soil Biol. Biochem. 39: 382-385, 2007
Keywords: Trichloroacetic acid, Dichloroacetic acid, Chlorination, Soil organic matter, Chloroperoxidase, Chlorine 36
Abstract: Chloroacetic acids (CAA), especially trichloroacetic acid (TCA), were considered phytotoxic secondary air pollutants of anthropogenic origin affecting conifers and were therefore intensively studied. However, another source of CAA has been then found: a forest soil in which humic substances are degraded by microbial processes to CAA and chloroform. This new aspect—formation of CAA in the soil—means that CAA are continuously produced and also biodegraded by other microorganisms in the soil and contribute thereby to the degradation of soil organic matter (SOM). Here we show for the first time the formation of dichloroacetic acid (DCA) and TCA in the forest soil by chlorination of SOM using 36Cl labeled chloride. We suggest that CAA are both formed and biodegraded in the forest soil and thus represent intermediates in one of the processes of SOM decay.
DOI:
Fulltext: contact IEB authors
IEB authors: Sándor Tamás Forczek
SOIL BIOLOGY AND BIOCHEMISTRY Soil Biol. Biochem. 39: 382-385, 2007
Keywords: Trichloroacetic acid, Dichloroacetic acid, Chlorination, Soil organic matter, Chloroperoxidase, Chlorine 36
Abstract: Chloroacetic acids (CAA), especially trichloroacetic acid (TCA), were considered phytotoxic secondary air pollutants of anthropogenic origin affecting conifers and were therefore intensively studied. However, another source of CAA has been then found: a forest soil in which humic substances are degraded by microbial processes to CAA and chloroform. This new aspect—formation of CAA in the soil—means that CAA are continuously produced and also biodegraded by other microorganisms in the soil and contribute thereby to the degradation of soil organic matter (SOM). Here we show for the first time the formation of dichloroacetic acid (DCA) and TCA in the forest soil by chlorination of SOM using 36Cl labeled chloride. We suggest that CAA are both formed and biodegraded in the forest soil and thus represent intermediates in one of the processes of SOM decay.
DOI:
Fulltext: contact IEB authors
IEB authors: Sándor Tamás Forczek