Jerome B Weber

Soil Properties Influence Saflufenacil Phytotoxicity

WEED SCIENCE, 62(4), 657–663.

Sorption of Simazine and S-Metolachlor to Soils from a Chronosequence of Turfgrass Systems

WEED SCIENCE, 61(3), 508–514.

Downward Mobility of C-14-Labeled Simazine in a Bermudagrass System vs. a Fallow Soil System

CROP SCIENCE, 49(2), 704–713.

Soil Organic Matter Changes in Turfgrass Systems Affect Binding and Biodegradation of Simazine

CROP SCIENCE, 49(4), 1481–1488.

Physicochemical property effects of three herbicides and three soils on herbicide mobility in field lysimeters

Weber, J. B., Warren, R. L., Swain, L. R., & Yelverton, F. H. (2007, March). CROP PROTECTION, Vol. 26, pp. 299–311.

Soil and herbicide properties influenced mobility of atrazine, metolachlor, and primisulfuron-methyl in field lysimeters

Agronomy Journal, 98(1), 8–18.

Soil cover and tillage influenced metolachlor mobility and dissipation in field lysimeters

Agronomy Journal, 98(1), 19–25.

Calculating pesticide sorption coefficients (K-d) using selected soil properties

CHEMOSPHERE, 55(2), 157–166.

Dose and concentration responses of common nursery weeds to Gallery, Surflan and Treflan

Journal of Environmental Horticulture, 22(2), 106.

Sorption and mobility of C-14-labeled imazaquin and metolachlor in four soils as influenced by soil properties

JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 51(19), 5752–5759.

A proposal to standardize soil/solution herbicide distribution coefficients

WEED SCIENCE, 48(1), 75–88.

Evaporative effects on mobility of C-14-labeled triasulfuron and chlorsulfuron in soils.

SOIL SCIENCE, 164(6), 417–427.

Demonstration of the functionality of a self-contained modular lysimeter design for studying the fate and transport of chemicals in soil under field conditions

In The lysimeter concept: Environmental behavior of pesticides (pp. 122–135).

Herbicide rate recommendations: Soil parameter equations vs. registered rate recommendations

WEED TECHNOLOGY, 12(2), 235–242.

Temporal distribution of C-14 in soil water from field lysimeters treated with C-14-metolachlor

SOIL SCIENCE, 163(11), 872–882.

Degradation of carbon-14-atrazine and carbon-14-metolachlor in soil from four depths

JOURNAL OF ENVIRONMENTAL QUALITY, 26(3), 633–638.

Soybean (Glycine max) influences metolachlor mobility in soil

Weed Science, 45(6), 833–841.

Sterile and nonsterile degradation of carbon-14-primisulfuron in soil from four depths

JOURNAL OF ENVIRONMENTAL QUALITY, 26(2), 440–445.

IONIZATION AND SORPTION OF FOMESAFEN AND ATRAZINE BY SOILS AND SOIL CONSTITUENTS

PESTICIDE SCIENCE, 39(1), 31–38.

MOBILITY OF FOMESAFEN AND ATRAZINE IN SOIL COLUMNS UNDER SATURATED-FLOW AND UNSATURATED-FLOW CONDITIONS

PESTICIDE SCIENCE, 39(1), 39–46.

SORPTION OF DINICONAZOLE AND METOLACHLOR BY 4 SOILS, CALCIUM-ORGANIC MATTER AND CALCIUM-MONTMORILLONITE

SOIL SCIENCE, 156(3), 171–177.

Fate and behaviour of herbicides in soils

Applied Plant Science, 5(1), 28.

IONIZATION AND ADSORPTION DESORPTION OF TRICYCLAZOLE BY SOIL ORGANIC-MATTER, MONTMORILLONITE CLAY, AND CAPE FEAR SANDY LOAM SOIL

JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 30(3), 584–588.

POLYCHLORINATED BIPHENYLS - PHYTOTOXICITY, ABSORPTION AND TRANSLOCATION BY PLANTS, AND INACTIVATION BY ACTIVATED CARBON

BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY, 23(3), 412–417.

Effects of soil on the biological activity of pesticides

In Pesticides in soil and water (p. 223).