Physiology of Stressed Crops, Vol. 1: Hormone RelationsThe present multi-volume treatise has been planned to discuss important aspects of the crop-plant physiological aspects, viz., hormones, nutrients, cell membranes, and induced proteins, as related to different types of stresses each in separate volumes. Another type of stress which can be classed under biotic, environmental (sil) or chemical, viz., the stress of allelochemicals which has not been discussed before as a stress factor, will be discussed in a separate volume emphasizing its practical/ ap-plied aspects, rather than mentioning only the allelopathic effects. In this volume on Hormone Relations, different stresses have been arranged in order of their importance and work done. |
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ABA accumulation ABA content ABA levels abscisic acid activity application auxin barley biosynthesis chilling tolerance cold acclimation cold hardening concentration correlated cucumber cultivars cytokinins decreased drought resistance drought stress effect elongation endogenous endogenous ABA ethephon ethylene evolution ethylene production exogenous flooded flower freezing tolerance fruit gene expression genotypes germination gibberellic acid gibberellin grown haustoria heat tolerance high temperature higher hormone hypocotyl increase in ABA induced inhibited inhibitor kinetin leaves low temperature low water potential maize membrane NaCl nitrogen nutrient osmotic ozone percent Phaseolus vulgaris photosynthesis Plant Growth Regulation Plant Physiol polyamines proline protein putrescine reduced relative humidity response rice role root salinity salt stress salt tolerant seeds sensitive shoot soil spermidine spermine stem stomatal synthesis tion tissues tomato plants treatment uniconazole Vicia faba water deficit water potential water stress waterlogging winter wheat xylem xylem sap yield zeatin