Global ETD Search

1	THE EFFECTS OF MSMA AND SANDOZ 6706 HERBICIDES UPON THE METABOLISM OF JOHNSONGRASS Spilsbury, Ralph Dee, 1941- January 1972 (has links) No description available. Johnson grass. Herbicides -- Testing.
2	Differential tolerances to ametryn among six genotypes of giant bermudagrass Cynodon dactylon (L.) Pers. var. aridus Harlan et de Wet and their diallel progenies Ramírez Oliveras, Gumersindo, 1938- January 1975 (has links) No description available. Bermuda grass. Herbicides -- Testing.
3	The selectivity and activity of s-triazine herbicides in banana plants / S-traizine herbicides in banana plants Barba, Ramon Cabanos January 1967 (has links) Typescript. / Thesis (Ph. D.)--University of Hawaii, 1967. / Bibliography: leaves [105]-110. / viii, 110 l illus., tables Herbicides -- Testing Bananas
4	Seed pelleting as an approach to herbicide selectivity in directseeded rice Nangju, Dimyati January 1972 (has links) Typescript. / Thesis (Ph. D.)--University of Hawaii at Manoa, 1972. / Bibliography: leaves [255]-268. / xiii, 268 l illus., tables Rice Herbicides -- Testing Herbicides -- Toxicology
5	Control of johnsongrass by herbicides applied to mowed and unmowed johnsongrass following mowing at weekly intervals Weseloh, John William. January 1960 (has links) Call number: LD2668 .T4 1960 W47 Johnson grass--Control. Herbicides--Testing. Masters theses
6	Differential responses of Cynodon dactylon (L.) Pers. selections to three herbicides Anderson, Lee January 1968 (has links) No description available. Herbicides -- Testing. Bermuda grass -- Herbicide injuries. Plants -- Effect of herbicides on.
7	Field responses of selected bermudagrass clones to foliar applications of dalapon and paraquat Shrader, Thomas Henry, 1943- January 1972 (has links) No description available. Bermuda grass. Herbicides -- Testing. Dichloropropionic acid. Paraquat. Plants -- Effect of herbicides on.
8	Effect of time from treatment to disturbance on woody plant control with triclopyr, picloram and/or 2,4-D Burch, Patrick L. January 1985 (has links) Two studies were designed to test three herbicides and factors which influence their efficacy. In the first study four chemical combinations used for site preparation in southern pine, including triclopyr (3,5,6-trichloro-2-pyridinyloxyacetic acid), trichloropicolinic acid), dichlorophenoxy)acetic acid] picloram (4-amino-3,5,6- and 2,4-D [(2,4- were screened for the most effective control of selected hardwoods. The chemical combinations were tested on Piedmont and Coastal Plain physiographic sites and were examined for the optimum amount of time for chemical activity between application and slash disposal (site disturbance). Efforts were also made to use target-plant and environmental data to predict chemical efficacy. A combination of triclopyr and picloram at 2 and 1 lb ai/ac, respectively, each gave the best overall control of hardwood brush. The amount of time required to obtain the optimum chemical control, presumably related to translocation, was found to be six to eight weeks after application to the foliage. Chestnut oak (Quercus prinus L.) control was successfully predicted on the bases of plant tissue and environmental data. In a second study the effect of temperature and time on the distribution of foliar-applied triclopyr, picloram, and 2,4-D were observed in red maple (Acer rubrum L.). Detection of the herbicides in the stems and roots using gas chromatography revealed that triclopyr was less affected by temperature differences; however, overall more herbicide reached the roots of red maple growing in a 21° C than those growing in a 29° C temperature. Triclopyr concentrations in the roots reached a peak much earlier than picloram or 2,4-D which did not peak until 42 days after application. / M.S. LD5655.V855 1985.B872 Forest site quality Forests and forestry -- Weed control Herbicides -- Testing
9	Validation of a Coupled Herbicide Fate and Target Plant Species Effects Model Clifford, Philip A. (Philip Alan) 12 1900 (has links) A series of experiments provided data to parameterize and validate a coupled herbicide fate and target plant species effects model. This simulation model is currently designed to predict responses of water hyacinth populations to treatments of the dimethylamine formulation of 2,4- dichloro-phenoxy acetic acid (2,4-D -DMA). Experiments investigated 1) the response of water hyacinth to varying exposures of 2,4-D (DMA); 2) the role of water hyacinth density and herbicide interception in treatment effectiveness using 2,4-D (DMA); and 3) the importance of root exposure to obtain control of water hyacinth using 2,4- D (DMA). Results demonstrated the importance of leaf or canopy interception of 2,4-D (DMA) sprays in obtaining control of water hyacinth populations. The critical threshold plant tissue concentration of 2,4-D (DMA) required to elicit maximum mortality (98%) was estimated to be approximately 12 mg 2,4-D per kg water hyacinth tissue (wet weight). Root uptake apparently plays little or no role in the effectiveness of this herbicide for controlling water hyacinth growth. Validation trials illustrated the efficacy of the current model. The model was validated with data from a field operation. This research has provided considerable insight into optimal use of this auxin-type herbicide for control of water hyacinth, a monocotyledon. Water hyacinth. Aquatic herbicides -- Testing. herbicide plant species effects model water hyacinth dimethylamine

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