Effect of Two Polysaccharide Adjuvants on Glyphosate Spray Droplet Size and Efficacy

Laboratory and field studies were conducted to determine the effect of the drift control adjuvants HM 2005B and HM 9752 on the droplet spectra and efficacy of spray mixtures of a potassium salt formulation of glyphosate. Droplet spectra were examined using a laser spray droplet analyzer. The addition of each adjuvant decreased the percentage of the spray volume in small diam spray droplets (<141μm) and either had no effect or increased glyphosate efficacy. These adjuvants could prove useful for providing management in potential drift situations.

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SPRAY DROPLET DISTRIBUTION AND HERBICIDE UPTAKE IN SEQUENTIAL APPLICATIONS OF DICLOFOP-METHYL AND MCPA FOR WEED CONTROL IN BARLEY

Canadian Journal of Plant Science ◽

10.4141/cjps79-014 ◽

1979 ◽

Vol 59 (1) ◽

pp. 93-98 ◽

Cited By ~ 8

Author(s):

F. A. QURESHI ◽

W. H. VANDEN BORN

Keyword(s):

Acetic Acid ◽

Leaf Surface ◽

Avena Fatua ◽

Wild Oat ◽

Spray Application ◽

Spray Droplet ◽

Wild Oats ◽

Droplet Distribution ◽

Spray Droplets ◽

Spray Volume

Uptake of 14C-diclofop-methyl {methyl 2-[4-(2,4-dichlorophenoxy)phenoxy propanoate]} by leaves of wild oats (Avena fatua L.) was reduced significantly in the presence of MCPA {[(4-chloro-o-tolyl)oxy]acetic acid]}, especially the dimethylamine formulation. If the herbicides were applied separately, the degree of interference with uptake depended on the extent of overlap of droplets of the two spray preparations on the leaf surface. Spray volume and direction of spray application were important factors in minimizing the mixing of spray droplets on the leaves if the two herbicides were applied separately with a tandem arrangement of two sprayers. Such a sequential application of MCPA ester and diclofop-methyl in a field experiment provided significantly greater wild oat control than could be obtained with a tank mix of the same two herbicides, but the results were not consistent enough to recommend the procedure for practical use.

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Droplet size impact on lactofen and acifluorfen efficacy for Palmer amaranth (Amaranthus palmeri) control

Weed Technology ◽

10.1017/wet.2019.133 ◽

2019 ◽

Vol 34 (3) ◽

pp. 416-423

Author(s):

Lucas X. Franca ◽

Darrin M. Dodds ◽

Thomas R. Butts ◽

Greg R. Kruger ◽

Daniel B. Reynolds ◽

...

Keyword(s):

Droplet Size ◽

Pulse Width Modulation ◽

Effective Means ◽

Cost Effective ◽

Palmer Amaranth ◽

Target Movement ◽

Spray Droplet ◽

Spray Droplets ◽

Droplet Sizes ◽

Biomass Reduction

AbstractHerbicide applications performed with pulse width modulation (PWM) sprayers to deliver specific spray droplet sizes could maintain product efficacy, minimize potential off-target movement, and increase flexibility in field operations. Given the continuous expansion of herbicide-resistant Palmer amaranth populations across the southern and midwestern United States, efficacious and cost-effective means of application are needed to maximize Palmer amaranth control. Experiments were conducted in two locations in Mississippi (2016, 2017, and 2018) and one location in Nebraska (2016 and 2017) for a total of 7 site-years. The objective of this study was to evaluate the influence of a range of spray droplet sizes [150 (Fine) to 900 μm (Ultra Coarse)] on lactofen and acifluorfen efficacy for Palmer amaranth control. The results of this research indicated that spray droplet size did not influence lactofen efficacy on Palmer amaranth. Palmer amaranth control and percent dry-biomass reduction remained consistent with lactofen applied within the aforementioned droplet size range. Therefore, larger spray droplets should be used as part of a drift mitigation approach. In contrast, acifluorfen application with 300-μm (Medium) spray droplets provided the greatest Palmer amaranth control. Although percent biomass reduction was numerically greater with 300-μm (Medium) droplets, results did not differ with respect to spray droplet size, possibly as a result of initial plant injury, causing weight loss, followed by regrowth. Overall, 900-μm (Ultra Coarse) droplets could be used effectively without compromising lactofen efficacy on Palmer amaranth, and 300-μm (Medium) droplets should be used to achieve maximum Palmer amaranth control with acifluorfen.

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Herbicide Formulation, Spray Nozzle Design, and Operating Pressure Affects the Droplet Size Spectra of Agricultural Sprays

Journal of Experimental Agriculture International ◽

10.9734/jeai/2019/v38i330304 ◽

2019 ◽

pp. 1-7 ◽

Cited By ~ 1

Author(s):

Joshua A. McGinty ◽

Gaylon D. Morgan ◽

Peter A. Dotray ◽

Paul A. Baumann

Keyword(s):

Wind Tunnel ◽

Droplet Size ◽

The United States ◽

Spray Drift ◽

Operating Pressure ◽

Spray Nozzle ◽

Spray Droplet ◽

Size Spectra ◽

Drift Potential ◽

Spray Droplets

Aims: Determine the droplet size spectra of agricultural sprays as affected by herbicide formulations, spray nozzle designs, and operating pressures. Place and Duration of Study: This study was conducted in April 2014 at the United States Department of Agriculture Agricultural Research Service Aerial Application Technology Research Unit Facility in College Station, Texas. Methodology: The spray droplet size spectra of six herbicide formulations as well as water alone and water with nonionic surfactant were evaluated in a low-speed wind tunnel. These spray solutions were conducted with five different flat-fan spray nozzle designs, producing a wide range of spray droplet sizes. The wind tunnel was equipped with a laser diffraction sensor to analyze spray droplet size. All combinations of spray solution and nozzle were operated at 207 and 414 kPa and replicated three times. Results: Many differences in droplet size spectra were detected among the spray solutions, nozzle designs, and pressures tested. Solutions of Liberty 280 SL exhibited the smallest median droplet size and the greatest proportion of spray volume contained in droplets 100 µm or less in size. Solutions of Enlist Duo resulted in smaller median droplet size than many of the solutions tested, but also exhibited some of the smallest production of fine spray droplets. Median droplet size was found to vary greatly among nozzle designs, with the greatest droplet size and smallest drift-prone fine droplet production observed with air-inclusion designs utilizing a pre-orifice. Increasing the operating pressure from 207 to 414 kPa resulted in a decrease in median droplet size and an increase in the production of droplets 100 µm or less in size. Conclusion: Herbicide formulations and spray nozzle designs tested varied widely in droplet size spectra and thus the potential for spray drift. Increasing operating pressure resulted in decreased droplet size and an increase in the production of drift-prone droplets. Additionally, median droplet size alone should not be used to compare spray drift potential among spray solutions but should include relative span and V100 values to better predict the potential for spray drift due to drift-prone spray droplets.

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Effect of spray droplet size, spray volume and fungicide on the control of white mold in soybeans

Crop Protection ◽

10.1016/j.cropro.2016.10.016 ◽

2017 ◽

Vol 92 ◽

pp. 190-197 ◽

Cited By ~ 19

Author(s):

Ayrton Berger-Neto ◽

David de Souza Jaccoud-Filho ◽

Carlos Rafael Wutzki ◽

Hamilton Edemundo Tullio ◽

Marcelo Luiz Cunha Pierre ◽

...

Keyword(s):

Droplet Size ◽

White Mold ◽

Spray Droplet ◽

Spray Volume

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Spray Deposition of Clopyralid on Honey Mesquite (Prosopis glandulosa)

Weed Technology ◽

10.1017/s0890037x00027226 ◽

1991 ◽

Vol 5 (3) ◽

pp. 499-503 ◽

Cited By ~ 4

Author(s):

Rodney W. Bovey ◽

Raymond A. Stermer ◽

Louis F. Bouse

Keyword(s):

Gas Chromatography ◽

Droplet Size ◽

Laboratory Experiments ◽

Spray Deposition ◽

Prosopis Glandulosa ◽

Spray Droplet ◽

Spray Solution ◽

Spray Volume ◽

Spray Deposit ◽

Honey Mesquite

Greenhouse and laboratory experiments were conducted to evaluate the influence of clopyralid formulation, spray droplet size, and spray volume on deposit of clopyralid on greenhouse-grown honey mesquite. The addition of surfactant WK at 0.5% (v/v) of the spray solution caused a twofold increase in deposition of spray of the monoethanolamine salt (MEA) of clopyralid but not the oleylamine salt (OLA). There were no differences in spray deposit between spray droplet size spectrums of 160 or 330 μm Dv.5or spray solution applications of 47 or 187 L ha-1. Dye and gas chromatography measurements of spray deposit of clopyralid compared favorably except where surfactant WK was used with the OLA formulation.

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The Pick-up of Spray Droplets by flying Locusts

Bulletin of Entomological Research ◽

10.1017/s0007485300026894 ◽

1954 ◽

Vol 45 (1) ◽

pp. 177-197 ◽

Cited By ~ 19

Author(s):

N. W. Wootten ◽

K. F. Sawyer

Keyword(s):

Wind Tunnel ◽

Droplet Size ◽

Schistocerca Gregaria ◽

Visual Stimuli ◽

Mean Value ◽

Spray Droplet ◽

Experimental Conditions ◽

Spray Droplets ◽

Equivalent Area

Measurements of the Horizontal Equivalent Area (HEA) of flying locusts and the toxic efficiency of Mk. IV DNC solution, as a function of spray droplet size, have been made using Schistocerca gregaria (Forsk.) flying “ naturally ” in a wind tunnel. The experimental conditions, including visual stimuli, for “ natural ” flight were determined by means of a flight balance. The observed values of locust airspeed varied from 2·5 to 6·5 metres per second with a mean value of about 3·2 metres per second.

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Factors influencing broadcast-herbicide control of huisache (Vachellia farnesiana)

Weed Technology ◽

10.1017/wet.2019.66 ◽

2019 ◽

Vol 33 (6) ◽

pp. 773-777

Author(s):

Megan K. Clayton ◽

Robert K. Lyons

Keyword(s):

Soil Moisture ◽

Droplet Size ◽

Treatment Plant ◽

South Texas ◽

Plant Mortality ◽

Herbicide Application ◽

Spray Droplet ◽

Cumulative Rainfall ◽

Spray Volume ◽

Average Plant

AbstractHuisache is a major brush problem on native rangelands and pastures in South Texas. Although herbicide applications to foliage provide very high plant-kill levels, the same herbicides have not proven reliable when applied as broadcast ground or aerial foliar treatments. Aerial and ground broadcast herbicide foliar treatments were applied to 31 huisache sites. Soil temperature and soil moisture were measured at a depth of 30 cm at the time of herbicide application. Cumulative rainfall before herbicide application was recorded. Across all aerial treatments, plant mortality was 69% for plants shorter than 2 m versus 40% for plants taller than 2 m. Across all aerial- and ground-treated sites, plants shorter than 2 m had an average 89% mortality when cumulative 2-wk rainfall was at least 50 mm, versus 72% mortality with cumulative rainfall less than 50 mm. Average plant mortality was 84% when 4-wk cumulative rainfall was at least 76 mm, versus 71% with rainfall less than 76 mm; and 85% when, on a dry-to-wet scale of 0 to 10, soil moisture measured at least 8, versus 71% when soil moisture measured less than 8. In a separate aerial trial, plant-mortality effects of spray droplet size (417, 630, and 800 µm) and spray volume (37.4 L ha−1 and 93.5 L ha−1) were replicated and tested at a single study site in 2014. Plant mortality was lowest for the 93.5 L ha−1 and 800 µm treatment. Plant mortality rates for other treatments were similar, demonstrating a greater importance of droplet size than spray volume. Targeting huisache trees shorter than 2 m, when cumulative rainfall has reached at least 50 mm or at least 76 mm 2 or 4 wk before application, respectively, as well as maintaining spray droplet sizes no larger than 630 µm can increase herbicide efficacy with foliar broadcast applications.

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