Seed Viability Testing

About Lab/Dept

The Seed Viability Testing Laboratory at National Genes Bank plays a crucial role in ensuring the quality and longevity of seed accessions. Our laboratory specializes in evaluating seed viability and germination rates, utilizing advanced techniques in seed production technology, molecular biology, and Nano-biology. We are dedicated to enhancing seed quality and viability during storage and improving seed resistance to both biotic and abiotic environmental stresses.

Strategy

Our strategy focuses on blending scientific research with practical applications in seed viability testing and quality assurance during storage. By partnering with local and international organizations, we aim to deepen our understanding of seed biology and enhance sustainable conservation techniques. This ensures that our seed bank remains a valuable resource for future generations.

Objective

Maintain the genetic integrity of seed collections by accurately determining seed viability and implementing optimal storage conditions. This involves a combination of traditional seed testing techniques and advanced molecular biology methods by:

• Enhancing Seed Conservation Protocols: Developing cutting-edge methods to extend the viability of stored seeds.
• Assessing Seed Viability: Determining the viability of accession seeds at the start of storage.
• Regeneration Timing: Predicting optimal times for seed regeneration by conducting regular viability tests.
• Adhering to Standards: Implementing the rules and appropriate standards for seed testing set by the International Seed Testing Association (ISTA), the Association of Official Seed Analysts (AOSA), and the Genebank Standards for Plant Genetic Resources for Food and Agriculture.

The role of Lab/Dept

1. Seed Viability Assessment: Conducting regular assessments to determine the percentage of viable seeds and identify potential deterioration.
2. Storage Condition Optimization: Recommending optimal storage conditions, such as temperature and humidity, to prolong seed longevity.
3. Research and Development: Engaging in research to develop innovative techniques for seed preservation and to improve our understanding of seed biology.
4. Quality Control: Implementing strict quality control measures to ensure the accuracy and reliability of testing results.
5. International Collaboration: Collaborating with international organizations and researchers to share knowledge and best practices.

Our Research Focuses On

1. Seed Preservation Techniques: Developing modern methods for seed preservation that leverage molecular and nanotechnology.
2. Biochemical Analysis: Investigating biochemical changes in seeds during storage to enhance quality.
3. Natural Compounds: Understanding the role of natural compounds in seed crops and their applications.
4. Genetic Diversity: Exploring the genetic basis of metabolic diversity in seeds to develop conservation and adaptation strategies.

Laboratory scientific equipment

The laboratory is equipped with state-of-the-art equipment to carry out its functions effectively:

• Germination Chambers: Controlled environment chambers that simulate optimal conditions for seed germination.
• Microscopes: Used for detailed examination of seed morphology and viability.
• Analytical Balances: For precise measurements of seed weight and moisture content.
• Oven: For drying samples and conducting moisture content tests.
• Molecular Biology Equipment: Includes PCR machines and gel electrophoresis systems for advanced genetic analysis.
• Other Specialized Equipment: Such as seed counters, seed cutters, and various laboratory glassware.

Seed Testing Services

Viability and Vigor Tests: Assess the potential for seeds to germinate and grow vigorously.

Germination Test: Measures the percentage of seeds that germinate under controlled conditions.

Rate of Germination: Evaluates how quickly seeds germinate.

Germination Duration Test: Assesses the time taken for seeds to germinate fully.

Tetrazolium (TZ) Test: A biochemical test to determine seed viability based on enzyme activity.

Seed Quality Test: General assessment of seed health, including purity and viability.

Accelerated Aging Test: Simulates aging conditions to predict seed longevity and performance.

Conductivity Test: Measures the electrical conductivity of seed leachate to assess seed damage.

Purity and Identification: Evaluates the composition of seed lots and identifies seed species.

Expected Storage Period of Seeds Test: Estimates how long seeds can be stored while maintaining quality.

Genetic Traits and Varietal Identification: Identifies genetic makeup and variety of seeds.

Thermogradient Germination Test: Tests germination across a temperature gradient to assess tolerance.

Other Specialty Tests: Additional tests tailored to specific seed types or requirements.

Staff

Dr. Hasan Ahmad Hasan Ahmad

01015245131

Hasbiotech@gmail.com