The effects of environmental contaminants on the value of outdoor recreation : mercury and pheasant hunting in Oregon

Shulstad, Robert N.

29 August 1973

Graduation date: 1974

Identification of some chlorinated pesticides by ultraviolet degradation

Kaufman, Willis Mast

07 May 1971

Graduation date: 1971

Pesticides -- Environmental aspects

Determination of Residential-Use Turf Pesticides in Surface and Ground Water by HPLC/DAD

Zhu, Danyun

January 2003

No description available.

Pesticides -- Environmental aspects

Organic pesticide modification of the species interactions in an annual plant community

Pfleeger, Thomas G.

12 October 1990

Graduation date: 1991

Plant communities

Pesticides -- Environmental aspects

The effects of selected pesticides on microorganisms in terrestrial and aquatic environments.

Charles, Norris C.

January 1972

No description available.

Pesticides -- Environmental aspects

Microbial populations

Isolation, identification and estimation of organochlorine pesticide residues in purified sewage effluent of the Johannesburg Metropolitan Area

Nicholls, Irene Barbara

22 September 2015

M.Sc. / The Johannesburg Metropolitan area drains sewage from approximately 1,3 million people which is treated at five different works. The Northern Works discharges approximately 50 Mt of effluent per day, which, together with 27 MX from Alexandria Works flows into the Jukskei River and hence to Hartebeespoort Dam ...

Organochlorine compounds

Pesticides - Environmental aspects

The effects of selected pesticides on microorganisms in terrestrial and aquatic environments.

Charles, Norris C.

January 1972

No description available.

Pesticides -- Environmental aspects

Microbial populations

Honeybee Losses as Related to Crop Dusting with Arsenicals

McGregor, S. E., Caster, A. B., Frost, Marvin H. Jr.

10 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Pesticides -- Environmental aspects

Honeybee

Determination of pesticides in environmental and food samples by capillary electrophoresis and electroanalytical methods

麥麗玲, Mak, Lai-ling, Josephine.

January 2001

published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Capillary electrophoresis.

Electrochemical analysis.

Pesticides - Environmental aspects.

Multivariate geostatistical analysis of groundwater contamination by pesticide and nitrate

Smyth, Jeffrey D.

23 May 1988

A field study was conducted to determine the applicability of multivariate geostatistical methods to the problem of estimating and simulating pesticide concentrations in groundwater from measured concentrations of nitrate and pesticide, when pesticide is undersampled. Prior to this study, no published attempt had been made to apply multivariate geostatistics to groundwater contamination. The study was divided into two complementary aspects of geostatistics: estimation and simulation. The use of kriging and cokriging to estimate nitrate and the herbicide dimethyl tetrachloroterepthalate (DCPA) contaminant densities is described in Chapter I. Measured concentrations of nitrate and the DCPA were obtained for 42 wells in a shallow unconfined alluvial and basin-fill aquifer in a 16.5 km² agricultural area in eastern Oregon. The correlation coefficient between log(nitrate) and log(DCPA) was 0.74. Isotropic, spherical models were fitted to experimental direct- and cross-semivariograms with correlation ranges and sliding neighborhoods of 4 km. The relative gain for estimates obtained by cokriging ranged from 14 to 34%. Additional sample locations were selected for nitrate and DCPA using the fictitious point method. A simple economic analysis demonstrated that additional nitrate samples would be more beneficial in reducing estimation variances than additional DCPA samples, unless the costs of nitrate and DCPA analysis were identical. These estimates are by definition, the Best Linear Unbiased Estimates (i.e., the estimates with minimized estimation variance), however the requirement of minimized variance smoothes the variability of contaminant values. The application of conditional simulations to groundwater contamination is described in Chapter 11. Conditional simulation allows the degree of fluctuation of nitrate and DCPA between sample points to be assesed. With knowledge of both the 'best' estimates and the of the variability between sample points, nitrate and DCPA groundwater contamination in the study area can be characterized Based on the semivariogram models found in Chapter I, univariate and multivariate conditional simulations of nitrate and DCPA were generated using the turning bands method and the kriging or cokriging system. Kriging was used to condition the univariate simulations, while cokriging was used to cross-correlate and condition the multivariate simulations. The mean of 25 conditional and coconditional simulations at 8 different locations in the study area were generated and compared to kriging and cokriging estimates and 95% confidence intervals. Both conditional and coconditional simulation of the DCPA and nitrate contaminant densities showed large variations when values in different simulations were compared. The fluctuation in values demonstrate the uncertainties in the contaminant distributions when sample sizes are small. As a result of this unkown component, simulated values vary widely. Coconditional simulation displayed the cross-correlation imposed by using the cokriging system to condition the simulations. After 25 simulations, the mean remained unstable indicating that more simulations would be required to enable comparisons with kriging and cokriging estimates. / Graduation date: 1989

Groundwater -- Pollution -- Measurement