Kn. Reddy et al., CHLORIMURON ADSORPTION, DESORPTION, AND DEGRADATION IN SOILS FROM CONVENTIONAL TILLAGE AND NO-TILLAGE SYSTEMS, Journal of environmental quality, 24(4), 1995, pp. 760-767
No-tillage (NT) and other conservation management practices designed t
o enhance plant residue accumulation can affect the herbicides fate in
soil. This study was designed to evaluate adsorption, desorption, and
degradation of chlorimuron {ethyl loro-6-methoxy-2-pyrimidinyl)amino]
carbonyl]amino] sulfonyl]benzoic acid} in soils collected from long-te
rm conventional tillage (CT) and NT plots. Soils were Miami silt loam
(fine-silty, mixed, mesic, Typic Hapludalf) and Drummer silty clay loa
m (fine-silty, mixed, mesic, Typic Endoaquoll) from Illinois, and Dund
ee silt loam (fine-silty, mixed, thermic Aeric Ochraqualf) from Missis
sippi. Adsorption was determined on five concentrations of C-14-chlori
muron (0.22-12.26 mu mol kg(-1)) equilibrated for 72 h. Desorption in
four cycles (1, 24, 24, and 24 hr) was measured for samples initially
sorbed at 2.60 mu mol kg(-1). Adsorption K-f values ranged from 0.55 t
o 6.53 and were higher in NT compared with CT soils. The N values were
less than unity in all soils. Desorption was hysteretic and the total
amount desorbed in four desorptions ranged from 18 to 51% of that sor
bed. Desorption K-f values ranged from 0.60 to 2.74 and were higher in
NT compared with CT soils. After 63 d incubation of C-14-chlorimuron,
44 to 54% of applied remained as extractable chlorimuron and 10 to 16
% of applied mineralized to (CO2)-C-14 among the soils. Half-Life of o
ver 2 mo and relatively low mineralization suggests poor adaptability
of native microbial populations to chlorimuron as substrate. Differenc
es in the chlorimuron degradation pattern were minor between NT and CT
soils, despite NT soils in general having greater organic C, microbia
l populations, and soil enzyme activity compared with CT soils.