J. H. Massey scite author profile

J. H. Massey

4Publications

87Citation Statements Received

0Citation Statements Given

How they've been cited

129

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Affiliations

University of Arkansas at Fayetteville, University of Georgia, Georgia College & State University

Publications

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Conifer seedling nursery worker exposure to glyphosate

Lavy

Cowell

Steinmetz

et al. 1992

Arch. Environ. Contam. Toxicol.

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This study addresses the measurements of glyphosate exposure received by 14 workers employed at two tree nurseries. The applicators, weeders, and scouts monitored all wore normal work clothing, which for applicators was a protective suit, rubber gloves and boots. Measurements were made of the glyphosate that was dislodged from conifer seedlings during water rinses taken twice weekly from May through August. Only 1 of these 78 dislodgeable residue samples were positive for glyphosate. Nine cotton gauze patches were attached to the clothing of each worker one day per week during this same period. Hand washes were taken on the same day that patches were worn. Most patches and hand washes from applicators and weeders contained measurable amounts of glyphosate. Analyses of individual patches showed that the body portions receiving the highest exposure were ankles and thighs. For scouts only 1 of 23 hand washes contained glyphosate. To provide a measure of the exposure occurring via all exposure routes (dermal, ingestion, and inhalation) an analysis was made of the total urine excreted. For most workers a daily total urine collection was made for 12 consecutive weeks. Urine analysis, the biological monitoring tool used to assess the total amount absorbed via all avenues, did not reveal any positive samples. The lower limit of method validation for glyphosate in the urine samples was 0.01 micrograms/ml. High rainfall, or irrigation as needed, in conjunction with normal field dissipation avenues and worker training were cited as contributing factors for the low amounts of glyphosate exposure found.(ABSTRACT TRUNCATED AT 250 WORDS)

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Long‐Term In Situ Leaching and Degradation of Six Herbicides Aged in Subsoils

et al. 1996

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Effects of Nitrogen Rates and Plant Spacing on Sunflower Seed Yields and Other Characteristics¹

Massey

1971

Agronomy Journal

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Field experiments were conducted to determine effects of nitrogen and plant spacing on sunflower (Helianthus annuus L.). Nitrogen rates were 0, 56, 112, and 168 kg/ ha, and plants were spaced 15, 30, and 46 cm apart within rows 1.1 m wide. Nitrogen at 56 kg/ha increased seed yield, grams of seed per head, seed size, and head diameter 653 kg/ha, 17.7 g, 1.9 g/200, and 2.2 cm, respectively, as compared to nontreated plots. Plant height was increased 11 cm and stem diameter 4 mm by 56 kgN/ha. No further increases resulted from additional N. Nitrogen did not affect number of leaves per plant. Seed yield decreased, but yield per head and head diameter increased with each 15‐cm increase in plant spacing. Seed were larger at 30‐ and 46‐ than at 15‐cm spacing. Spacing did not affect plant height or number of leaves, but stem diameter increased with wider spacing. There was no significant interaction between nitrogen and plant spacing for any characteristic studied.

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Measurements of year-long exposure to tree nursery workers using multiple pesticides

Lavy

Mattice

Massey

et al. 1993

Arch. Environ. Contam. Toxicol.

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A year-long nurseryworker pesticide exposure study was designed to measure and evaluate the exposure occurring to workers who had the potential for simultaneous exposure to multiple pesticides. This four-State study was conducted in five nurseries (four USDA Forest Service and one State) involved in conifer seedling production. Primary comparisons were made among nursery workers in the Pacific northwest and south central United States. Worker exposure was assessed by using patches attached to clothing, handrinse samples and urine excreted from potentially exposed workers. In addition, dislodgeable residue in rinsate from a water wash of pesticide-treated seedlings was also evaluated. Four different groups of field workers, designated as applicators, weeders, scouts and packers, were included. The pesticide absorbed dose, assessed by urine analysis of pesticide metabolites and the deposition of pesticide on patches attached to the clothing of field workers, was monitored as they performed their duties under normal conditions (e.g., typical clothing, pesticide application). Monitoring was performed for the 14 different pesticides which were used in these nurseries. Seven pesticides were studied in more detail using biological monitoring. For these compounds, metabolites known to be excreted in the urine of exposed humans or other mammals were used to estimate the dose of pesticide absorbed by the exposed workers. The highest percentage of positive samples came from dislodgeable residue samples (8.3%) followed by patch samples (3.2%), handrinse (2.9%), and urine samples (1.3%). To summarize the conclusions from the urinary excretion data, 12 of the 73 nursery workers in the study received a low absorbed dose of pesticide. Biological monitoring revealed that three pesticides (benomyl, bifenox and carbaryl) were found in the urine of some of the workers. Of the 3,134 urine samples analyzed there were 42 positive; 11 urine samples were positive for benomyl, while bifenox was responsible for 13 positives and carbaryl accounted for the remaining 18. The 12-week continuous monitoring of urine showed that metabolites of these materials were rapidly excreted; thus, no build-up in the body is anticipated. Margins of Safety (MOS) calculations were made to provide an assessment of the significance of the exposure. Based on the low frequency of positive urine samples in the study, the low levels of metabolites when they were found, their apparent rapid excretion rate and the No Observed Effect Level (NOEL) data, furnished from other sources, nursery worker exposure to pesticides in these conifer nurseries is below health threatening levels.

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J. H. Massey

Conifer seedling nursery worker exposure to glyphosate

Long‐Term In Situ Leaching and Degradation of Six Herbicides Aged in Subsoils

Effects of Nitrogen Rates and Plant Spacing on Sunflower Seed Yields and Other Characteristics¹

Measurements of year-long exposure to tree nursery workers using multiple pesticides

Contact Info

Product

Resources

About

J. H. Massey

Conifer seedling nursery worker exposure to glyphosate

Long‐Term In Situ Leaching and Degradation of Six Herbicides Aged in Subsoils

Effects of Nitrogen Rates and Plant Spacing on Sunflower Seed Yields and Other Characteristics1

Measurements of year-long exposure to tree nursery workers using multiple pesticides

Contact Info

Product

Resources

About

Effects of Nitrogen Rates and Plant Spacing on Sunflower Seed Yields and Other Characteristics¹