Spelling suggestions: "subject:"herbicides -- 0nvironmental aspects"" "subject:"herbicides -- byenvironmental aspects""
1 |
The determination of triazine herbicides in soil and tile-drain water.Yoo, Jai Yoon January 1978 (has links)
No description available.
|
2 |
The determination of triazine herbicides in soil and tile-drain water.Yoo, Jai Yoon January 1978 (has links)
No description available.
|
3 |
Persistence of seven dinitroanilines under irrigated and fallow conditionsGagnon, Siegfried Andre, 1949- January 1973 (has links)
No description available.
|
4 |
Environmental behavior of DacthalWettasinghe, Asoka 26 July 1991 (has links)
The herbicide, Dacthal (dimethyl 2,3,5,6,-tetrachloroterephthalate) is
hydrolyzed to give the corresponding diacid and this derivative is a common
contaminant in ground water. In the Ontario region of eastern Oregon the
use of this herbicide on onions has resulted in the contamination of an
aquifer with this derivative. Since movement to groundwater is determined
by the hydrolysis of the parent compound to a more soluble derivative. The
rate at which this hydrolysis reaction occurs and the stability of the
metabolite must be defined. These parameters have been determined using
soils from Ontario in which onions had been raised. At room temperature
and 50% field capacity, the parent was hydrolyzed rapidly (half-life 16 days)
to the diacid derivative. An increase of the incubation temperature to 38°C
reduced the hydrolysis rate significantly (half-life 86.8 days). It is assumed
that this response reflects reduced microbial activity at the higher
temperature. At both temperatures only small amounts of the monoacid
intermediate were detected suggesting that the Dacthal monoacid was
being hydrolyzed at a faster rate than the parent. It was established that at
room temperature, the half-life of the monoacid was only 2.8 days. Over
the 300 days the experiments were carried out, little if any degradation of
the diacid metabolite could be detected.
There was virtually no degradation of the parent over a 60 day period in
sterilized soil, suggesting that microbial activity is primarily responsible for
this step. By contract, the monoacid was hydrolyzed at comparable rates
in sterilized and nonsterilized soil.
This study explains why the Dacthal metabolite is a common contaminant
in groundwater. The parent is rapidly hydrolyzed to the diacid which is
much more water soluble. More important, however, is the persistence of
the diacid metabolite in the environment. / Graduation date: 1992
|
5 |
The effects of bromoxynil herbicide on experimental prairie wetlands /Robinson, Richard D. (Richard Daniel) January 1989 (has links)
No description available.
|
6 |
Leaching of 14C radio-labelled atrazine in long intact soil columnsSmith, Ward N. (Ward Nolan) January 1991 (has links)
A leaching study was undertaken with $ sp{14}$C radio-labelled atrazine in long, intact, soil columns to investigate the fate and transport of atrazine in a Quebec sandy loam soil and to test two contaminant transport models, namely PRZM and LEACHMP. / Results indicated a large variation in atrazine concentration. The maximum levels in the leachate of the soil columns ranged from 0 to 11.2 $ mu$g/L. Deisopropyl-atrazine, the principal metabolite in the soil columns, was detected near the soil surface and did not leach beyond 15 cm depth. The adsorptive and desorptive capacity of atrazine in the soil columns was mainly attributed to organic matter and moisture content. / LEACHMP was found to be superior in predicting hydrologic characteristics in the soil columns as compared to PRZM which required calibration. Both models underestimated levels of atrazine near the soil surface and in the leachate (115 cm depth). The results from first and second order analysis for PRZM and LEACHMP showed considerable uncertainty in atrazine fate and transport. First and second order analyses were found to be useful tools in indicating where efforts to reduce uncertainty can best be directed.
|
7 |
The leaching of metolachlor, atrazine, and two atrazine metabolites in two corn fields in Quebec : a monitoring study and validation of Gleams modelMasse, Lucie January 1990 (has links)
A field study was undertaken during the growing seasons of 1988 and 1989 to investigate leaching characteristics of metolachlor, atrazine and two atrazine metabolites in two agricultural soils of Quebec, namely a sand and a loam field. In both years, atrazine was detected in higher levels in the groundwater of the loam field than of the sand field. Deethylatrazine was the only metabolite found in any significant quantity in soil in 1988 and in groundwater in 1989. Deisopropylatrazine was detected in groundwater at the beginning and at the end of the 1988 season and levels were similar in both fields. Metolach or was never detected in groundwater. / GLEAMS predictions favourably compared to field results at the 0-20 cm depth in both years. Half-life, however, had to be reduced by half in 1989 since higher temperature had increased dissipation. GLEAMS has not predicted leaching past 20 cm in either field in 1988 and 1989. During a dry summer, such as 1988 and 1989, leaching is mostly due to macropore flow and desorption of residues, two processes which are difficult to predict with existing models.
|
8 |
Fate of Endothall in Aquatic EnvironmentsReinert, Kevin H. (Kevin Howard) 12 1900 (has links)
Hazard assessment of pesticides in aquatic environments requires accurate predictions of persistence and compartmentalization. A strategy for developing confidence in predictive fate models, such as the Exposure Analysis Modeling System (EXAMS) and the Simplified Lake and Stream Analysis model (SLSA), is to test the models using carefully chosen chemicals in semi-controlled and field situations. An objective of this approach would be to isolate the variability in a particular fate process and thereby assess the ability of an algorithm to model the process. For example, endothall, a relatively watersoluble aquatic herbicide, has essentially a sole fate process, biotransformation. Endothall was used to test the predictive capabilities of EXAMS and SLSA and to identify sources of variance in those predictions.
|
9 |
Leaching of 14C radio-labelled atrazine in long intact soil columnsSmith, Ward N. (Ward Nolan) January 1991 (has links)
No description available.
|
10 |
The leaching of metolachlor, atrazine, and two atrazine metabolites in two corn fields in Quebec : a monitoring study and validation of Gleams modelMasse, Lucie January 1990 (has links)
No description available.
|
Page generated in 0.1043 seconds