Chlorothalonil(CTL) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Chlorothalonil(CTL) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Chlorothalonil(CTL)

OVA-Chlorothalonil(CTL)

Anti-Chlorothalonil(CTL) mouse monoclonal antibody

Anti-Chlorothalonil(CTL) human monoclonal antibody

Reference

Validation Data

Click to get more Data / Case study about the product.

Biomarker Information

What is Chlorothalonil (CTL), and what is its role in Pesticides?

Serial Number 1: Chlorothalonil (CTL), with its chemical nomenclature as 2,4,5,6-tetrachloroisophthalonitrile, represents a prominent synthetic organic compound classified within the realm of chlorinated aromatic compounds. It has garnered significant recognition and utility in the domain of pesticides, primarily due to its pivotal role as a potent fungicide and bactericide.

Serial Number 2: The criticality of Chlorothalonil (CTL) in the pesticide landscape stems from its remarkable efficacy in mitigating a wide spectrum of fungal and bacterial diseases, which are pervasive threats to crops and plants in agricultural settings. CTL stands out as a non-systemic or contact fungicide, meaning it acts on the external surfaces of plants, creating a protective barrier that prevents the incursion and proliferation of pathogens.

Serial Number 3: The mode of action of CTL is grounded in its ability to interfere with vital cellular processes in fungi and bacteria. Specifically, it disrupts key metabolic pathways, affecting processes such as respiration, energy production, and cell wall synthesis. By targeting these fundamental mechanisms, CTL effectively halts the growth and reproduction of pathogens, thereby affording protection to crops and plants.

Serial Number 4: CTL's significance further lies in its broad-spectrum activity. It displays efficacy against a diverse array of pathogenic strains, encompassing fungi and bacteria. This versatility positions CTL as an indispensable tool in disease management strategies, as it addresses multiple threats concurrently, reducing the need for numerous specialized treatments.

Serial Number 5: In addition to its effectiveness, CTL is renowned for its resilience in the face of environmental factors. It exhibits notable resistance to weathering, UV radiation, and other adverse conditions. This resilience, coupled with its prolonged residual activity, renders CTL a valuable asset in the maintenance of crop health and agricultural productivity.

2. Why measure Chlorothalonil (CTL)?

Serial Number 6: The measurement and quantification of Chlorothalonil (CTL) are imperative for multifaceted reasons that extend across agricultural, environmental, and regulatory domains. A comprehensive understanding of why CTL measurement is essential encompasses the following aspects:

Serial Number 7 - Safety and Regulatory Compliance: Rigorous measurement and monitoring of CTL levels are requisite to ensure strict adherence to safety standards and regulatory guidelines. Precise quantification of CTL residues in agricultural produce and the environment is indispensable to safeguard public health and prevent any potential health risks to consumers.

Serial Number 8 - Enhanced Pest Management: CTL measurement serves as an instrumental tool in empowering agricultural practitioners with data-driven insights. It allows them to assess the efficacy of their pest control protocols accurately. Armed with this information, farmers can make informed decisions regarding the application of CTL, optimizing its usage to combat fungal and bacterial diseases without overreliance on chemical treatments.

Serial Number 9 - Environmental Impact Mitigation: CTL, if not employed judiciously, has the potential to exert adverse effects on the environment. Its runoff into soil and water bodies can disrupt ecosystems and lead to unintended ecological ramifications. Regular measurement and monitoring of CTL levels within soil, water, and ecosystems play a pivotal role in tracking its presence and concentration, thereby facilitating timely interventions to minimize environmental impacts.

Serial Number 10 - Crop Quality Assurance: Maintaining permissible CTL levels in harvested crops is imperative not only for safeguarding public health but also for upholding product quality and safety standards. Excessive CTL residues in crops can lead to product rejection in both domestic and international markets, causing substantial economic losses to producers. Accurate CTL measurement ensures that crops meet the requisite safety thresholds.

Serial Number 11 - Research Advancements: CTL quantification serves as a foundational tool for researchers and biopharmaceutical entities operating in the agricultural and environmental sectors. It provides critical data for in-depth studies concerning CTL's behavior, mechanisms of action, and interaction with diverse ecosystems. This, in turn, enables the formulation of novel pesticide solutions that are not only efficacious but also environmentally sustainable.

Serial Number 12 - Responsible Agriculture: In an era where sustainable and responsible agriculture is paramount, the measurement of CTL plays a vital role in promoting best practices. Armed with accurate CTL data, farmers and agricultural stakeholders can make informed decisions regarding pesticide application, minimizing environmental impact and fostering long-term agricultural sustainability.

In summary, the measurement of Chlorothalonil (CTL) is paramount for ensuring safety, regulatory compliance, effective pest management, environmental preservation, crop quality, and advancing scientific research within the agricultural sector. It represents a multifaceted approach to responsible pesticide usage, safeguarding both agricultural productivity and environmental integrity.

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