Paraquat(PQ) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Paraquat(PQ) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Paraquat(PQ)

OVA-Paraquat(PQ)

Anti-Paraquat(PQ) mouse monoclonal antibody

Anti-Paraquat(PQ) human monoclonal antibody

Reference

Validation Data

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

Biomarker Information

1. Paraquat (PQ), known chemically as N,N'-dimethyl-4,4'-bipyridinium dichloride, occupies a prominent position in the realm of herbicides and pesticide applications. It is categorized as a non-selective herbicide due to its broad-spectrum effectiveness in eradicating a wide range of plant species. The role of Paraquat in pesticides is particularly significant, finding extensive use in various agricultural and industrial settings. In this comprehensive exploration, we delve into the multifaceted facets of Paraquat, from its mechanism of action to the imperative need for precise measurement.

2. Role in Pesticides:

Paraquat serves as a contact herbicide, distinguished by its mode of action that comes into play upon direct contact with plant foliage. Its mechanism of action is rooted in its ability to swiftly generate highly reactive oxygen radicals within the cells of targeted plants. This cascade of oxidative damage ultimately leads to cell death, rendering Paraquat a potent tool for weed management. The importance of Paraquat in pesticide formulations lies in its effectiveness in eliminating undesirable vegetation, which, if left unchecked, can compete with crops for resources, disrupt ecosystems, and impede industrial processes.

3. Importance of Paraquat (PQ) Measurement:

The measurement of Paraquat is integral for various reasons, spanning scientific, regulatory, and practical domains. These facets are discussed in detail below:

a. Safety and Regulatory Compliance:

Paraquat is subject to stringent safety standards and regulatory guidelines to safeguard human health, animal welfare, and ecological integrity. Precise measurement of Paraquat levels is imperative to ensure compliance with these standards. By quantifying Paraquat concentrations in crops and the environment, we mitigate the risk of excessive residues, thus reducing potential health hazards to humans, animals, and ecosystems. Paraquat is known for its toxicity, making accurate measurement a pivotal aspect of safety management.

b. Effective Pest Management:

Accurate Paraquat measurement empowers agricultural practitioners and industrial operators to assess the efficacy of their herbicide applications with precision. By quantifying Paraquat residues in target areas, practitioners can fine-tune their application techniques and rates, ensuring optimal weed control while minimizing overuse. This not only conserves resources but also mitigates ecological repercussions associated with excessive herbicide application, such as soil and water contamination.

c. Environmental Impact Assessment:

The indiscriminate use of Paraquat can have adverse consequences on the environment. Routine measurement of Paraquat levels in soil, water bodies, and ecosystems is crucial for monitoring its presence and concentration. This data facilitates timely interventions to mitigate environmental impacts, including contamination of aquatic habitats and potential harm to non-target species. By assessing Paraquat's environmental footprint, we can work toward more sustainable herbicide practices and reduce collateral damage.

d. Crop Quality Assurance:

Paraquat's presence in harvested crops is a matter of paramount importance for upholding product quality and safety standards. Excessive Paraquat residues can result in product rejections, leading to significant economic losses for producers. Accurate Paraquat measurement is indispensable for maintaining permissible levels in crops, ensuring that agricultural products meet regulatory requirements and consumer expectations regarding safety and quality.

e. Research and Development:

In the scientific community, Paraquat quantification serves as the foundation for extensive research and development efforts. Researchers rely on precise measurements to investigate Paraquat's behavior, explore potential alternatives, and understand its interactions with various environmental matrices. These studies contribute to the development of safer and more sustainable herbicide solutions, which align with the global pursuit of environmentally friendly and ecologically responsible agriculture.

In summary, measuring Paraquat (PQ) serves a multitude of purposes, encompassing safety, regulatory compliance, effective pest management, environmental preservation, crop quality assurance, and scientific advancement within the agricultural and industrial sectors. This comprehensive approach underscores the importance of responsible herbicide usage, ensuring the well-being of humans, animals, and the environment while striving for sustainable agricultural practices. Accurate Paraquat measurement remains a cornerstone of these endeavors, facilitating informed decision-making and progress in herbicide science.

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