Soil seed bank and among-years genetic diversity in arid populations of Eruca sativa Miller (Brassicaceae)

Populations of Eruca sativa from arid environments exhibit greater physiological dormancy than those that originated in more favorable ones. We tested the possible relative contribution of the soil seed bank (SSB) to the aboveground cohorts in desert and semiarid populations. Seedlings that emerged...

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Bibliographic Details
Published in:Journal of arid environments 2013-04, Vol.91, p.151-154
Main Authors: Hanin, N., Quaye, M., Westberg, E., Barazani, O.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
buried seeds
Dormancy
Eruca sativa
Fundamental and applied biological sciences. Psychology
genetic distance
Genetic diversity
genetic variation
genotype
gibberellic acid
habitats
irrigation
Longevity
recruitment
seedlings
Soil seed bank
Synecology
Terrestrial ecosystems
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Summary:Populations of Eruca sativa from arid environments exhibit greater physiological dormancy than those that originated in more favorable ones. We tested the possible relative contribution of the soil seed bank (SSB) to the aboveground cohorts in desert and semiarid populations. Seedlings that emerged from the SSB under controlled irrigation were distinguished from those that emerged after exposure of the remaining ungerminated SSB to gibberellic acid as constituting non-dormant and dormant SSBs, respectively. On average, the total SSB was significantly larger in the semiarid than in the desert population. In both sites, the aboveground and SSB cohorts exhibited closely similar genetic diversity, and in the aboveground cohorts similar year-to-year genetic diversity was found. These results indicate continuous recruitment from the SSB to the aboveground cohorts. Nevertheless, Ne estimates indicated that the SSB can contribute to enlarging the aboveground effective populations in both habitats. Furthermore, Nei's genetic distances suggested that the non-dormant SSB contributed more than the dormant SSB to the aboveground cohorts. These results highlight the potential of the SSB to maintain a genotype reservoir that protects annual populations in arid environments. ► Soil seed bank (SSB) was genetically analyzed in arid populations of Eruca sativa. ► SSB was separated into dormant (D-SSB) and non-dormant (ND-SSB) seed fractions. ► Genetic analysis suggests continuous recruitment from SSB to aboveground cohorts. ► Nevertheless, ND-SSB contributed more to the aboveground cohort than D-SSB. ► SSB showed potential to increase the effective population size in arid sites.
ISSN:0140-1963
1095-922X
DOI:10.1016/j.jaridenv.2013.01.004