How do population genetic parameters affect germination of the heterocarpic species Atriplex tatarica (Amaranthaceae)?

doi:10.1093/aob/mcp073

AOBPreview originally published online on April 1, 2009
Annals of Botany 2009 103(8):1303-1313; doi:10.1093/aob/mcp073

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How do population genetic parameters affect germination of the heterocarpic species Atriplex tatarica (Amaranthaceae)?

Jana Kochánková¹^,2^,* and Bohumil Mandák¹^,3

¹ Faculty of Environmental Sciences, Czech University of Life Sciences, Kam $y$ cká 129, CZ-165 21 Praha, Czech Republic
² Silva Tarouca Research Institute for Landscape and Ornamental Gardening, Kv $e$ tnové nám $e$ stí 391, CZ-252 43 Pr $u$ honice, Czech Republic
³ Institute of Botany, Academy of Sciences of the Czech Republic, CZ-252 43 Pr $u$ honice, Czech Republic

^* For correspondence. E-mail kochankova{at}fzp.czu.cz

Received: 15 December 2008 Returned for revision: 23 January 2009 Accepted: 25 February 2009 Published electronically: 1 April 2009

Background and Aims: The heterocarpic species Atriplex tatarica produces two typesof seeds. In this study, how basic population genetic parameterscorrelate with seed germinability under various experimentalconditions was tested.

Methods: Population genetic diversity was ascertained in eight populationsof A. tatarica by assessing patterns of variation at nine allozymeloci. Germinability of both seed types from all sampled populationswas determined by a common laboratory experiment under differentsalinity levels. Basic population genetic parameters, i.e. percentageof polymorphic loci, average number of alleles per locus andobserved heterozygosity were correlated with observed populationgermination characteristics.

Key Results: Atriplex tatarica possesses a remarkable heterocarpy, i.e. onetype of seed is non-dormant and the other shows different dormancylevels in relation to experimental conditions. Significant negativecorrelations have been detected between germination of bothseed types and the coefficient of inbreeding, and a significantnegative correlation between germination of dormant seeds andother population genetic parameters, i.e. percentage of polymorphicloci and average number of alleles per polymorphic locus. Moreover,populations from the region characterized by a shorter growingseason manifested higher germinability, i.e. had lower dormancy,than those from the lower-latitude one.

Conclusions: In general, germination of non-dormant seeds is probably notunder strong genetic control. Hence, they germinate as soonas conditions are favourable, thus ensuring survival in theshort term, but populations risk local extinction if conditionsbecome adverse (i.e. a high-risk strategy). In contrast, germinationof the dormant type of seeds is under stronger genetic controland is significantly correlated with basic population geneticparameters. These seeds ensure long-term reproduction and survivalin the field by protracted germination, albeit in low quantities(i.e. A. tatarica also adopts a low-risk strategy).

Key words: Amaranthaceae, Atriplex, inbreeding depression, population genetics, seed dimorphism

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