The evolution of halophytes, glycophytes and crops, and its implications for food security under saline conditions

Summary The effective development of salt tolerant crops requires an understanding that the evolution of halophytes, glycophytes and our major grain crops has involved significantly different processes. Halophytes (and other edaphic endemics) generally arose through colonization of habitats in severe disequilibrium by pre‐adapted individuals, rather than by gradual adaptation from populations of ‘glycophytes’. Glycophytes, by contrast, occur in low sodium ecosystems, where sodium was and is the major limiting nutrient in herbivore diets, suggesting that their evolution reflects the fact that low sodium individuals experienced lower herbivory and had higher fitness. For domestication/evolution of crop plants, the selective pressure was human imposed and involved humans co‐opting functions of defense and reproductive security. Unintended consequences of this included loss of tolerance to various stresses and loss of the genetic variability needed to correct that. Understanding, combining and manipulating all three modes of evolution are now critical to the development of salt tolerant crops, particularly those that will offer food security in countries with few economic resources and limited infrastructure. Such efforts will require exploiting the genetic structures of recently evolved halophytes, the genetic variability of model plants, and endemic halophytes and ‘minor’ crops that already exist.ContentsSummary 557 I. Introduction 557 II. On the evolution of halophytes 558 III. Glycophytes – the other salt problem 561 IV. Crops – adaptation with loss of critical functions 565 V. Moving forward 565 VI. Concluding remarks 566Acknowledgements 567References 567