Dynamics of distribution and performance of ramets constructing genets: a demographic-genetic study in a clonal plant, Convallaria keiskei

doi:10.1093/aob/mcp092

AOBPreview originally published online on April 17, 2009
Annals of Botany 2009 104(1):71-79; doi:10.1093/aob/mcp092

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Dynamics of distribution and performance of ramets constructing genets: a demographic–genetic study in a clonal plant, Convallaria keiskei

Kiwako Araki¹^,*, Kenichiro Shimatani² and Masashi Ohara¹

¹ Course in Ecological Genetics, Graduate School of Environmental Science, Hokkaido University, Sapporo 060-0810, Japan
² The Institute of Statistical Mathematics, 4-6-7 Minami-Azabu, Minato, Tokyo 106-8569, Japan

^* For correspondence. E-mail akiwako{at}ecology.kyoto-u.ac.jp

Received: 29 November 2008 Returned for revision: 10 February 2009 Accepted: 17 March 2009 Published electronically: 17 April 2009

Background and Aims: In clonal plants producing vegetative offspring, performanceat the genet level as well as at the ramet level should be investigatedin order to understand the entire picture of the populationdynamics and the life history characteristics. In this study,demography, including reproduction and survival, the growthpatterns and the spatial distributions of ramets within genetsof the clonal herb Convallaria keiskei were explored.

Methods: Vegetative growth, flowering and survival of shoots whose genetswere identified using microsatellite markers were monitoredin four study plots for 3 years (2003–2005). The sizestructures of ramets in genets and their temporal shifts werethen analysed. Their spatial distributions were also examined.

Key Results: During the census, 274 and 149 ramets were mapped in two 1 x2 m plots, and 83 and 94 ramets in two 2 x 2 m quadrats. Thirty-eightgenotypes were identified from 580 samples. Each plot included5–18 genets, and most ramets belonged to the predominantgenet(s) in each plot. Shoots foliated yearly for several years,but flowering ramets did not have an inflorescence the nextyear. A considerable number of new clonal offspring persistentlyappeared, forming a bell-shaped curve of the size structureof ramets in each genet. Comparing the structures modelled bythe normal distributions suggested variation among ramets belongingto a single genet and variation among genets. Furthermore, spatialanalyses revealed clumped and distant distributions of rametpairs in a genet, in which the distant patterns correspondedto the linearly elongating clonal growth pattern of this species.

Conclusion: Characteristics of ramet performances such as flowering andrecruitment of clonal offspring, in addition to growth, playeda large part in the regulation of genet dynamics and distribution,which were different among the studied genets. These might becharacteristics particularly relevant to clonal life histories.

Key words: Clonal plant, Convallaria keiskei, demography, genet, genetic identification, growth pattern, life history, ramet, spatial distribution

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