Do different competitive abilities of three fern species explain their different regional abundances?

Rünk, Kai; Moora, Mari; Zobel, Martin

doi:10.1111/j.1654-1103.2004.tb02271.x

Cited by 22 publications

(22 citation statements)

References 24 publications

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“…Ontogenetic shifts towards lesser root growth have been observed in several species (Ledig et al 1970;Hawthorn and Cavers 1982;McConnaughay and Coleman 1999). Also, in the previous study, allocation to below-ground parts decreased with increasing neighbour density in both D. expansa and D. dilatata in conditions where no extreme shade was imposed as a treatment (Rü nk et al 2004). This shows that the usual plastic response to shading--decreased relative allocation into roots--is nevertheless present in the three fern species under observation.…”

Section: Discussionmentioning

confidence: 88%

“…In a previous study on relative competitive ability of three congeneric fern species with different distribution and abundance patterns in boreo-nemoral Europe--Dryopteris carthusiana, D. expansa and D. dilatata--we found that this trait did not directly explain the relative commonness/relative rarity of the three fern species (Rü nk et al 2004). There was, though, a clear difference in how each species responded to competitive stress.…”

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confidence: 87%

“…Hill and Silander 2001;Hietz 2001;Proctor 2003;Reudink et al 2005;Saldañ a et al 2005) determine the distribution of fern sporophytes or gametophytes (Hill 1971;Li and Ong 1997;Greer and McCarthy 1999). Considerably less attention has been turned on life-history traits (Cousens et al 1988;Peck et al 1990;Guo et al 2003) and biotic interactions (Hamilton and Lloyd, 1991;Chiou and Farrar 1997;Greer and Curry 2004;Rü nk et al 2004). Only a few studies on the comparative ecology of gametophytes and sporophytes of the same species have been conducted (Sato and Sakai 1981;Cousens et al 1988;Suzuki et al 2005).…”

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confidence: 96%

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Phenotypic plasticity and biomass allocation pattern in three Dryopteris (Dryopteridaceae) species on an experimental light-availability gradient

Rünk

Zobel

2006

Plant Ecol

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We were interested in whether the contrasting regional distribution patterns of three congeneric, frequently co-occurring fern species (Dryopteris carthusiana, D. dilatata and D. expansa) could be explained by differential biomass allocation strategies and different phenotypic plasticities to light availability. The morphology and habitat preference of these ferns are known to be very similar, but in Estonia, their frequencies of occurrence differ sharply--Dryopteris carthusiana is common, D. expansa grows in scattered localities, and D. dilatata is rare. We grew the species under different levels of illumination (100, 50, 25 and 10% of full daylight) in an experimental garden to compare their autecological responses to shading. After one growing season there were clear interspecific differences in total plant biomass accumulation--D. carthusiana > D. expansa > D. dilatata--indicating the possible competitive inferiority of the latter at the young sporophyte stage. D. expansa was the least shade-tolerant, with biomass decreasing sharply under less than 50% illumination; D. dilatata was the most shade-tolerant, with similar growth at all illumination levels. In relative biomass allocation patterns, the most notable differences among species were in the relative shares of biomass stored in rhizomes. In D. carthusiana and D. expansa this share was nearly constant and independent of the illumination conditions. D. dilatata allocated very little biomass into rhizome in deep shade, but was able to increase this share more than twofold in 50% light. Dryopteris dilatata was clearly shown to be morphologically the most plastic of the three. In four traits--rhizome mass, frond:below-ground biomass ratio, stipe length and specific leaf area--its degree of ontogenetic plasticity to light was significantly higher than that of D. expansa and D. carthusiana. While the general performance (biomass production) of species in the experiment coincided with that observed in nature, the results of plasticity estimation were somewhat surprising--it is difficult to explain the inferior performance of a species (D. dilatata) through high morphological plasticity. Probably, the species is rare either because of certain climatic restrictions, or because it is presently expanding its distribution and is in the phase of invading Estonian understory communities.

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Section: Discussionmentioning

confidence: 88%

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confidence: 87%

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confidence: 96%

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Phenotypic plasticity and biomass allocation pattern in three Dryopteris (Dryopteridaceae) species on an experimental light-availability gradient

Rünk

Zobel

2006

Plant Ecol

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“…Coherently with other studies on ferns (Rünk et al 2004), the low abundance of O. regalis near its distribution limits in Europe is linked to climatic factors. The annual availability of water proved to be the main climatic factor limiting at the southern edge of its distribution in Europe.…”

Section: Discussionmentioning

confidence: 99%

“…However, the ecology of pteridophytes has been investigated much less than that of other vascular plants and few studies have analysed the causes of variation in the local abundance or rarity of particular fern species (Cinquemani Kuehn and Leopold 1993;Kelsall et al 2004;Rünk et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Habitat characteristics and vegetation context of Osmunda regalis L. at the southern edge of its distribution in Europe

Landi

Angiolini

2008

Bot. Helv.

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Landi M. and Angiolini C. 2008. Habitat characteristics and vegetation context of Osmunda regalis L. at the southern edge of its distribution in Europe. Bot. Helv. 118: 45 -57.The abundance of Osmunda regalis was investigated in 42 natural populations in central Italy in order to (i) test which habitat characteristics correlate with its abundance at regional scale and at local scale, and (ii) identify the optimal habitats for the species in a Mediterranean area. This knowledge may contribute to the effective conservation of O. regalis, which is under threat in Italy. Ramets (rosettes of fronds) were counted in several plots of 25 m 2 within each population and related to habitat characteristics as well as plant species composition using univariate and multivariate statistics. The abundance of ramets at regional scale was positively correlated with mean annual precipitation and altitude. Large populations mainly occurred at sites with northeastern exposure, i.e. a cool and humid microclimate. The density of ramets at local scale was negatively correlated with rockiness, stoniness and shrub cover. Vascular plant species associated with high density of O. regalis were pioneer species typical of open woods and stagnant waters. Spring swamps therefore represent the habitat with the most favourable edaphic, microclimatic and vegetational conditions for the species at the southern edge of its distribution in Europe, where the limiting factor is the annual water availability.

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Fitness of an allopolyploid rupicolous fern compared with its diploid progenitors: from sporogenesis to sporophyte formation

Pangua

Pajarón

Quintanilla

2019

American J of Botany

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Premise When two populations of related cytotypes grow in sympatry, the rarer cytotype tends to be excluded due to a frequency‐dependent mating disadvantage. Evolutionary models predict that polyploids, which are typically the rarer cytotype upon first formation, should have higher relative fitness and/or higher selfing rates to establish and then coexist with diploid parents. Methods Performance during early recruitment was compared among three co‐occurring rupicolous fern species: the allotetraploid Cheilanthes tinaei and its diploid ancestors, C. hispanica and C. maderensis. In culture experiments, fresh spores and samples of soil spore banks were tested for variation among cytotypes in germination, survival, fecundity, and mating system of gametophytes. Results Compared with its diploid parents, C. tinaei fresh spores had higher abortion percentages, lower dispersal ability as a result of its larger spores, and similar vigor at germination. For gametophytes from soil spore banks, C. tinaei had high survival similar to C. maderensis, but its sex expression resembled that of C. hispanica, with a high proportion of males. Patterns of sporophyte formation by females and bisexuals indicate that the polyploid does not have an increased gametophytic selfing rate. Gametophytes were larger in C. tinaei, but its reproductive success (sporophyte formation) was intermediate relative to diploids. Conclusions Our results show no evidence of higher selfing or fitness advantage of the allopolyploid over both diploid parents at any stage of early recruitment. These two unexpected findings suggest that further factors, such as niche differentiation, play a more important role in cytotype coexistence.

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Do different competitive abilities of three fern species explain their different regional abundances?

Cited by 22 publications

References 24 publications

Phenotypic plasticity and biomass allocation pattern in three Dryopteris (Dryopteridaceae) species on an experimental light-availability gradient

Phenotypic plasticity and biomass allocation pattern in three Dryopteris (Dryopteridaceae) species on an experimental light-availability gradient

Habitat characteristics and vegetation context of Osmunda regalis L. at the southern edge of its distribution in Europe

Fitness of an allopolyploid rupicolous fern compared with its diploid progenitors: from sporogenesis to sporophyte formation

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