Abiotic Stress Tolerance Including Salt, Drought and Metal(loid)s in Legumes
- 13 April 2021
- book chapter
- other
- Published by Springer Science and Business Media LLC
Abstract
No abstract availableKeywords
This publication has 100 references indexed in Scilit:
- Integrated genomics, physiology and breeding approaches for improving drought tolerance in cropsTheoretical and Applied Genetics, 2012
- Heterologous expression of P5CS gene in chickpea enhances salt tolerance without affecting yieldBiologia plantarum, 2011
- Involvement of glutathione and enzymatic defense system against cadmium toxicity in Bradyrhizobium sp. strains (peanut symbionts)BioMetals, 2011
- Epigenetic contribution to stress adaptation in plantsCurrent Opinion in Plant Biology, 2011
- Arsenic toxicity in crop plants: physiological effects and tolerance mechanismsEnvironmental Chemistry Letters, 2011
- Modulation of transcription factor and metabolic pathway genes in response to water-deficit stress in riceFunctional & Integrative Genomics, 2010
- Do heavy metals and metalloids influence the detoxification of organic xenobiotics in plants?Environmental Science and Pollution Research, 2009
- Interactive effects of cadmium and aluminum on growth and antioxidative enzymes in soybeanBiologia plantarum, 2008
- Biotechnology approaches to overcome biotic and abiotic stress constraints in legumesEuphytica, 2006
- Drought stress induced changes in some organic substances in nodules and other plant parts of two potential legumes differing in salt toleranceFlora, 2005