By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A type of fatty acid obtained from esterifying seed oil with methyl alcohol is known as methylated seed oil (MSO). Regarding the mechanism of the enhancement in herbicide efficacy, droplet spread on leaf surfaces and herbicide penetration appear to be the two primary factors for oil-based adjuvant. is a spray adjuvant made to make herbicides that have already been applied work better.
When combined with methylated seed oil, post-application herbicides such as Pursuit®, Accent®, and Poast® have demonstrated improved performance. Weather conditions and the size of the weeds will determine the surfactant used.
When weeds are stressed or the weather is extremely dry, methylated seed oil (MSO) is used. When weeds are small and well, a nonionic product like the Surf-Ac 820 can be used in normal weather.
Vegetable oils modified by esterification are referred to as methylated seed oils (MSOs). Typically, 0.25 to 1.0% v/v of spray solution is sufficient for MSOs. Crop oils do not contain any vegetables. Methylation is a common biochemical process that is easy to understand but has a huge impact on our cardiovascular, neurological, reproductive, and detoxification systems.
The Global methylated seed oil market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
New methylated seed oil (MSO) emulsifier, Atplus DRT-6000, has significant DRT benefits integrated into it. The final blend offers several adjuvant benefits, such as DRT control, improved bio effectiveness, and spray retention.
Proven performance with various families of active ingredients, such as post-emergent herbicides and systemic fungicides. Robust DRT product when used as an emulsifier for MSO. Can be used in various proportions of a mixture 90/10 MSO / DRT at 60/40 HS-MSO. Controls the quality of the spray and reduces driftable
In China and other countries around the world, methylated seed oil (MSO) is a recommended adjuvant for the newly registered herbicide topramezone. However, the mechanism by which MSO improves topramezone’s efficacy is still unclear.
Topramezone was applied to giant foxtail (Setaria faberi Herrm.) and tested for its efficacy, solution property, droplet spread and evaporation, active ingredient deposition, foliar absorption, and translocation in greenhouse and laboratory experiments. as well as velvetleaf (Medic. Abutilon theophrasti).
On giant foxtail and velvetleaf, the results of the experiments revealed that topramezone’s efficacy was increased by 1.5 times and by 1.0 times, respectively, by 0.3% MSO.
This herbicide’s spread areas on weed leaf surfaces increased significantly, its wetting time was reduced on velvetleaf but not on giant foxtail, and less of its active ingredient crystal was observed on the treated weed leaf surfaces when it was mixed with MSO.
24 hours after treatment, MSO increased the absorption of topramezone by 68.9% in velvetleaf and 45.9% in giant foxtail. Additionally, it appears to have encouraged this herbicide’s translocation in these two weeds.
