Physiological history may mask the inherent inducible desiccation tolerance strategy of the desert moss Crossidium crassinerve |
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Authors: | L. R. Stark J. L. Greenwood J. C. Brinda M. J. Oliver |
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Affiliation: | 1. School of Life Sciences, University of Nevada, , Las Vegas, NV, USA;2. Missouri Botanical Garden, , St. Louis, MO, USA;3. U.S. Department of Agriculture‐ARS‐MWA‐PGRU, University of Missouri, , Columbia, MO, USA |
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Abstract: | Shoots of bryophytes collected in the desiccated state from the field are likely to be hardened to desiccation tolerance (DT) to varying degrees. To account for this, most studies on DT include a relatively short deacclimation period. However, no study has experimentally determined the appropriate deacclimation time for any bryophyte species. Our purposes are to (i) determine if ‘field effects’ are biologically relevant to DT studies and how long a deacclimation period is required to remove them; and (ii) utilise field versus cultured shoot responses within the context of a deacclimation period to elucidate the ecological strategy of DT. Our hypothesis (based on an extensive literature on DT) is that a deacclimation period from 24 to 72 h should be sufficient to eliminate historical stress effects on the physiology of the shoots and allow an accurate determination of the inherent ecological DT strategy (constitutive or inducible). We determined, however, using chlorophyll fluorescence and visual estimates of shoot damage, that field‐collected shoots of the desert moss Crossidium crassinerve required an experimental deacclimation period of >7 days before field effects were removed, and revealed an ecological DT strategy of inducible DT. If the deacclimation period was <6 days, the shoot response conformed to an ecological strategy of constitutive protection. Thus the presence of field effects can obscure the ecological strategy of desiccation tolerance exhibited by the species, and this translates into a need to re‐evaluate previous mechanistic and ecological studies of desiccation tolerance in plants. |
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Keywords: | Acclimation chlorosis chlorophyll fluorescence deacclimation dehardening slow‐dry constitutive desiccation tolerance |
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