Understanding 4-Chloro-5-(methylamino)-2-[3-(trifluoromethyl)phenyl]-3(2H)-pyridazinone
A deep dive into this potent herbicide for effective weed management and agricultural research.
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4-Chloro-5-(methylamino)-2-[3-(trifluoromethyl)phenyl]-3(2H)-pyridazinone
This chemical compound, identified by CAS number 27314-13-2, is a vital component in modern agriculture, primarily serving as a selective herbicide. Its efficacy lies in its ability to inhibit carotenoid biosynthesis, a crucial process for plant health. By disrupting this pathway, it effectively prevents the growth of weeds, thus aiding in crop yield and quality. This compound is widely researched for its applications in crop protection and understanding plant stress responses.
- Discover the precise chemical information for CAS 27314-13-2, a key agrochemical in modern farming.
- Learn how inhibiting carotenoid biosynthesis with this compound leads to effective weed control in various crops.
- Explore the properties and uses of this Norflurazon derivative in agricultural applications and research.
- Understand the importance of pre-emergent weed control agents in maximizing crop production and quality.
Advantages Offered
Targeted Weed Elimination
This Norflurazon derivative offers targeted weed elimination by disrupting essential plant biochemical pathways, making it a valuable tool for farmers seeking efficient crop protection.
Enhanced Crop Yield
By effectively controlling weed competition, this compound contributes to enhanced crop yield, allowing crops to thrive without resource limitations.
Agricultural Research Tool
Its role in inhibiting carotenoid biosynthesis makes it an excellent subject for research into plant physiology, plastid development, and stress responses in agricultural science.
Key Applications
Agriculture
Used extensively as a pre-emergent herbicide for controlling broadleaf weeds and grasses, contributing to healthier crops and higher yields.
Plant Science Research
Investigating plant development, stress mechanisms, and the impact of specific biochemical pathways through its ability to inhibit carotenoid synthesis.
Specialty Chemical Synthesis
As a fine chemical intermediate, it can be a precursor for other specialized chemical compounds used in various industries.
Environmental Studies
Research into its persistence, mobility, and impact on aquatic ecosystems, aiding in the development of sustainable agricultural practices.