EN 13835 GMO Detection – Roundup Ready Soy

EN 13835 GMO Detection - Roundup Ready Soy Laboratory Testing Service: A Comprehensive Guide

EN 13835 is a European Standard that outlines the requirements for detecting genetically modified organisms (GMOs) in food and feed products, specifically Roundup Ready Soy. This standard is developed by the European Committee for Standardization (CEN) and is widely adopted across Europe.

Legal and Regulatory Framework

The legal and regulatory framework surrounding EN 13835 testing is governed by various national and international regulations. In the European Union, the GMO legislation is primarily regulated by the European Commissions Directorate-General for Health and Food Safety (DG Sante). The EUs GMO legislation requires all food and feed products to be labeled as containing GMOs if they exceed a threshold of 0.9 of genetically modified material.

International and National Standards

EN 13835 is based on international standards, including:

National standards that apply to EN 13835 testing include:

Standard Development Organizations

The CEN is responsible for developing and maintaining European standards, including EN 13835. Other standard development organizations involved in the development of GMO testing standards include:

Evolution of Standards

Standards evolve over time to reflect advances in technology and scientific knowledge. The CEN regularly reviews and updates EN 13835 to ensure that it remains relevant and effective.

Standard Numbers and Scope

The standard number for EN 13835 is prEN 13835:2014. The scope of the standard includes:

Compliance Requirements

Industry sectors that require compliance with EN 13835 testing include:

Standard-Related Costs and Benefits

The costs associated with complying with EN 13835 testing are typically covered by the manufacturer or importer. However, this investment is justified by the benefits of ensuring product safety, reliability, and regulatory compliance.

Why is EN 13835 Testing Required?

EN 13835 testing is required to ensure that food and feed products are safe for human consumption and do not pose any risks to animal or plant health. The detection of GMOs in these products can have significant consequences, including:

Business and Technical Reasons

Conducting EN 13835 testing provides several business and technical benefits, including:

Industries and Sectors Requiring Testing

The following industries and sectors require EN 13835 testing:

Risk Factors and Safety Implications

Failure to conduct EN 13835 testing can result in significant risks, including:

Quality Assurance and Quality Control

EN 13835 testing is subject to strict quality assurance and quality control measures, including:

Contributions to Product Safety and Reliability

EN 13835 testing contributes significantly to product safety and reliability by ensuring that GMOs are detected and identified in food and feed products.

Competitive Advantages and Market Positioning

Conducting EN 13835 testing provides several competitive advantages, including:

Cost-Benefit Analysis

The costs associated with conducting EN 13835 testing are outweighed by the benefits of ensuring product safety, reliability, and regulatory compliance.

Testing Procedure

EN 13835 testing involves the following steps:

1. Sample preparation

2. DNA extraction

3. PCR amplification

4. Detection and identification

Equipment and Instruments Used

The equipment and instruments used for EN 13835 testing include:

Detection Limit

The detection limit for EN 13835 testing is 0.1 genetically modified material.

Reporting Standards and Formats

EN 13835 reporting standards and formats are specified in the standard, including: