Clothianidin-desmethyl-[13C,15N2]

Clothianidin-desmethyl-[13C,15N2], an isotopically labeled compound utilized in environmental and agricultural research, boasts a myriad of applications. Here are key applications presented with high perplexity and burstiness:

Environmental Fate Studies: Embarking on the intricate journey of neonicotinoid insecticides, Clothianidin-desmethyl-[13C,15N2] emerges as a potent tool for unraveling their environmental destiny. By meticulously tracing the convoluted pathways of this isotopically enriched compound, researchers delve into the abyss of neonicotinoid degradation and dispersion in the environment. This profound knowledge serves as a cornerstone for assessing the complex environmental ramifications and potential risks entwined with these potent pesticides.

Residue Analysis: Standing as an indispensable sentinel in residue analysis, the labeled compound assumes a pivotal role as an internal standard for quantifying clothianidin residues lurking in agricultural products. Serving as a beacon of reference, it ensures the precise quantification of pesticide levels festering within crops and soil samples, fostering compliance with stringent safety regulations and maintaining pesticide concentrations within tolerable thresholds.

Metabolic Pathway Elucidation: Unveiling the enigmatic pathways of metabolism, Clothianidin-desmethyl-[13C,15N2] contributes valiantly to decoding how clothianidin orchestrates its dance within the realms of plants and insects. Integrated seamlessly into metabolic voyages, this compound empowers scientists to meticulously track its enthralling absorption, metabolism, and excretion escapades, shedding luminous insights on the compound's modus operandi and the emergence of resistance mechanisms within target organisms.

Toxicology Testing: In the realm of toxicology, Clothianidin-desmethyl-[13C,15N2] unfurls its cloak of significance as a stalwart guardian in evaluating the toxicological aftermath of clothianidin encounters. By infiltrating biological systems with this compound, researchers embark on a compelling journey scrutinizing its profound impact on non-target creatures, including the essential custodians of pollination like bees. These deep-sea explorations provide a compass for risk assessments and aid in sculpting safer strategies for pesticide applications, safeguarding the delicate balance of ecological realms.