The assimilation of sulfur in higher plants and its reduction in metabolically important sulfur compounds are crucial factors determining plant growth and vigor and resistance to stresses. The present book discusses the aspects of sustainable crop production with sulfur, the importance of sulfur metabolites and sulfur metabolizing enzymes in abiotic stress management in plants. The book provides the most up-to-date reference on sulfur assimilation in plants.

Responses to Sulfur Limitation in Maize

Feasibility of Elemental S Fertilizers for Optimum Seed Yield and Quality of Canola in the Parkland Region of the Canadian Great Plains
Impact of Sulphur on N2 Fixation of Legumes
Sulphur Nutrition and Assimilation in Crop Plant
Regulatory Protein-Protein Interactions in Primary Metabolism: The Case of the Cysteine Synthase Complex
Glutathione Reductase: A Putative Redox Regulatory System in Plant Cells
Sulfotransferases and their Role in Glucosinolate Biosynthesis
Response of Photosynthetic Organelle to Abiotic Stress: Modulation by Sulfur Metabolism
Modified Levels of Cysteine affect Glutathione Metabolism in Plant Cells
Role of Glutathione in Abiotic Stress Tolerance
Recent Advances in Understanding of Plant Responses to Excess Metals: Exposure, Accumulation and Tolerance
Role of Sulfate and S-Rich Compounds in Heavy Metal Tolerance and Accumulation
Sulfur Assimilation and Cadmium Tolerance in Plants.-Glutathione Metabolism in Bryophytes under Abiotic Stress
Allocation of Sulfur to Sulfonium Compounds in Microalgae
Accumulation and Transformation of Sulfonated Aromatic Compounds by Higher Plants Towards the Phytotreatment of Wastewater from Dye and Textile Industry
Fertilisation with Sulphur under Nitrogen Deprivation on Quality of Winter Wheat: A Case Study.-