**Metabolic Processes During Seed Germination**

**Metabolic Processes During Seed Germination**

DOI: 10.5772/intechopen.70653

#### Awatif S. Ali and Alaaeldin A. Elozeiri Additional information is available at the end of the chapter

Awatif S. Ali and Alaaeldin A. Elozeiri

Additional information is available at the end of the chapter

http://dx.doi.org/10.5772/intechopen.70653

#### **Abstract**

Seed germination is crucial stage in plant development and can be considered as a determinant for plant productivity. Physiological and biochemical changes followed by morphological changes during germination are strongly related to seedling survival rate and vegetative growth which consequently affect yield and quality. This study is aimed to focus on proceeding of the most vital metabolic processes namely reserve mobilization, phytohormonal regulation, glyoxylate cycle and respiration process under either stressful or non-stressful conditions that may be led to suggest and conduct the more successful experimental improvements. Seed imbibition triggered the activation of various metabolic processes such as synthesis of hydrolytic enzymes which resulted in hydrolysis of reserve food into simple available form for embryo uptake. Abiotic stresses potentially affect seed germination and seedling establishment through various factors, such as a reduction in water availability, changes in the mobilization of stored reserves, hormonal balance alteration and affecting the structural organization of proteins. Recent strategies for improving seed quality involved classical genetic, molecular biology and invigoration treatments known as priming treatments. H2 O2 accumulation and associated oxidative damages together with a decline in antioxidant mechanisms can be regarded as a source of stress that may suppress germination. Seed priming was aimed primarily to control seed hydration by lowering external water potential, or shortening the hydration period.

**Keywords:** reserve mobilization, proteolysis, glyoxylate cycle, phytic acid, seed priming, stress tolerance mechanisms
