Summer Dormancy in Perennial Temperate Grasses

doi:10.1093/aob/mcl195

AOBPreview originally published online on October 6, 2006
Annals of Botany 2006 98(5):927-933; doi:10.1093/aob/mcl195

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Summer Dormancy in Perennial Temperate Grasses

FLORENCE VOLAIRE¹^,* and MARK NORTON²^,3

¹ Institut National de Recherche Agronomique, INRA UMR SYSTEM, 2 place Viala, 34060 Montpellier, France
² New South Wales Department of Primary Industries, c/o CSIRO Plant Industry GPO Box 1600, Canberra ACT 2601, Australia
³ School of Land and Food Sciences, University of Queensland St Lucia, Qld 4072, Australia

^*For correspondence. E-mail volaire{at}ensam.inra.fr

Received: 9 May 2006 Returned for revision: 5 June 2006 Accepted: 3 August 2006 Published electronically: 6 November 2006

• Background and Aims Dormancy has been extensively studiedin plants which experience severe winter conditions but muchless so in perennial herbaceous plants that must survive summerdrought. This paper reviews the current knowledge on summerdormancy in both native and cultivated perennial temperate grassesoriginating from the Mediterranean Basin, and presents a unifiedterminology to describe this trait.

• Scope Under severe drought, it is difficult to separatethe responses by which plants avoid and tolerate dehydrationfrom those associated with the expression of summer dormancy.Consequently, this type of endogenous (endo-) dormancy can betested only in plants that are not subjected to moisture deficit.Summer dormancy can be defined by four criteria, one of whichis considered optional: (1) reduction or cessation of leaf productionand expansion; (2) senescence of mature foliage; (3) dehydrationof surviving organs; and (4, optional) formation of restingorgans. The proposed terminology recognizes two levels of summerdormancy: (a) complete dormancy, when cessation of growth isassociated with full senescence of foliage and induced dehydrationof leaf bases; and (b) incomplete dormancy, when leaf growthis partially inhibited and is associated with moderate levelsof foliage senescence. Summer dormancy is expressed under increasingphotoperiod and temperature. It is under hormonal control andusually associated with flowering and a reduction in metabolicactivity in meristematic tissues. Dehydration tolerance anddormancy are independent phenomena and differ from the adaptationsof resurrection plants.

• Conclusions Summer dormancy has been correlated withsuperior survival after severe and repeated summer drought ina large range of perennial grasses. In the face of increasingaridity, this trait could be used in the development of cultivarsthat are able to meet agronomic and environmental goals. Itis therefore important to have a better understanding of thegenetic and environmental control of summer dormancy.

Key words: Dormancy, drought, perennial grasses, plant survival, induction, Dactylis glomerata, Festuca arundinacea, Phalaris aquatica, Poa bulbosa, Hordeum bulbosum

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