Females make tough neighbors: sex-specific competitive effects in seedlings of a dioecious grass

Eppley, Sarah M.

doi:10.1007/s00442-005-0026-3

Cited by 83 publications

(57 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Additionally, variation in edge pore density in males was signiWcantly associated with several variables in the path diagram, indicating an importance of edge pore density to male responses. The pattern of males being in more stressful patches relative to females is consistent with patterns found in seed plants (Freeman et al 1976;Bierzychudek and Eckhart 1988;Dawson and Ehleringer 1993;Dawson and Geber 1999;Eppley 2001Eppley , 2006Dudley and Galen 2007), in the moss genera Splachnum (Cameron and Wyatt 1990), but inconsistent with the moss S. caninervis, where males and females co-occur in the shade but males are absent in open, high-light sites (Stark et al 2005a). However, males of S. caninervis were recently found to regenerate better than females after heat stress (Stark et al 2008).…”

Section: Relationship Of Sex-speciwc Traits Responses To Environmentasupporting

confidence: 76%

“…The underlying mechanisms to account for sex-speciWc demographies are thought to result from the diVering male vs. female sexual reproductive functions and the tradeoVs associated with these functions and other life history traits Obeso 2002;Case and Ashman 2005). Nevertheless, few studies have linked SSS to variation in sex-speciWc ability to occupy diVerent ranges of the gradients [but see Eppley (2006) for an example of sex-speciWc competitive ability that varies with habitat]. Here, we test for sex-speciWc physiological and related morphological responses that are linked to observed patterns of SSS in a dioecious bryophyte, Marchantia inXexa.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Sex-specific plant responses to light intensity and canopy openness: implications for spatial segregation of the sexes

et al. 2009

View full text Add to dashboard Cite

In seed plants, the proximate causes of spatial segregation of the sexes (SSS) and its association with environmental variation are thought to be linked to sexspeciWc morphological and physiological variation. To address the general question of linkage among SSS, plant traits and environmental gradients, Marchantia inXexa was used, for which male plants are found under more open tree canopy than females. We hypothesized that males are adapted to higher light intensity and are better able to tolerate water stress than females, as is the case with seed plants. We tested for sex-speciWc habitat and trait relationships by quantifying plant traits (morphological and physiological) and estimates of the light conditions (percent canopy openness and light intensity) in the Weld. Using path analysis, we found that edge pore density in both sexes was negatively correlated with canopy openness, while in males, edge pore density had a weak but positive relationship to light intensity. These responses suggest that canopy openness and light intensity have opposing eVects on edge pore density in males and that males might be more responsive to water stress than females. Additionally, the greater importance of female support tissue, which functions as storage, in explaining and being explained by other variables in the path analysis, relative to male support tissue, may reXect sex-speciWc allocation diVerences related to resources needed for female function.

show abstract

Section: Relationship Of Sex-speciwc Traits Responses To Environmentasupporting

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Sex-specific plant responses to light intensity and canopy openness: implications for spatial segregation of the sexes

et al. 2009

View full text Add to dashboard Cite

show abstract

“…plastic alteration of sex expression in relation to its environment) (Cox 1981;Bierzychudek & Eckhart 1988;Eppley, Stanton & Grosberg 1998). Spatial segregation of the sexes can also be the result of interactions with other species such as competition for limited resources (Freeman, Klikoff & Harper 1976;Cox 1981;Eppley 2006;Mercer & Eppley 2010). Inter and intrasexual competition has been proposed as one of the probable mechanisms behind local spatial segregation of the sexes (Bertiller, Sain & Carrera 2002b;Eppley 2006;Mercer & Eppley 2010).…”

mentioning

confidence: 99%

“…Spatial segregation of the sexes can also be the result of interactions with other species such as competition for limited resources (Freeman, Klikoff & Harper 1976;Cox 1981;Eppley 2006;Mercer & Eppley 2010). Inter and intrasexual competition has been proposed as one of the probable mechanisms behind local spatial segregation of the sexes (Bertiller, Sain & Carrera 2002b;Eppley 2006;Mercer & Eppley 2010). Nevertheless, there has been a conspicuous lack of investigation into sex-related effects on the competitive interaction with other plant species (S anchez-Vilas, Turner & Pannell 2010).…”

mentioning

confidence: 99%

Changes in sex ratios of a dioecious grass with grazing intensity: the interplay between gender traits, neighbour interactions and spatial patterns

2013

View full text Add to dashboard Cite

Summary1. Dioecious plants frequently face sex-related resource allocation trade-offs. Differential traits of male and female plants can have important consequences that influence their direct and indirect interactions with neighbours and herbivores. 2. Gender differences in traits have been considered to be inherently linked to sex-biased ratios along environmental stress gradients. However, the mechanisms behind the variation in sex ratios with increasing biotic stress remain elusive. 3. We linked the results of process-based field experiments with fine-scale spatial patterns of naturally established plants (both sexes) at different grazing intensities. We demonstrated that slowgrowing females were better defended against insects and small mammals but were more susceptible than males to competition from neighbours. 4. In large-herbivore exclosures, we found that sex-biased spatial patterns at the microsite scale can be predicted from gender-specific traits, with females more segregated from competitors (unpalatable grasses) than males. Traits related to growth/defence trade-off in females, coupled with their higher competition costs than males, suggest that gender dimorphism in traits can directly influence species interactions and spatial organization. 5. In the presence of large herbivores, female individuals were preferentially browsed despite their larger investment in antiherbivore compounds. The greater distance of females from unpalatable competitors was the main determinant of female-biased consumption by domestic herbivores. Females growing close to neighbours successfully eluded browsing but also faced competition. Scaling up to a population level, population sex ratios drift from female-to male-bias with increasing domestic grazing intensity. 6. Synthesis: The sexual dimorphism in traits of a dioecious bunchgrass results in differential herbivory by natural enemies, differential competitive ability and differential spatial distribution of sexes. Domestic grazers disrupt this balance by shifting species interactions and their spatial organization. Changes in dioecious plant populations towards male-biased sex ratios with grazing intensity could not be predicted solely by gender-specific traits.

show abstract

“…Results obtained by Marciniuk et al (2010) demonstrated that female individuals of Aruncus sylvestris had markedly higher habitat requirements compared with the males. Eppley (2006) revealed that in Distichlis spicata a variation in the sex ratio could be caused by the differences in competitive abilities at the seedling stage, with female seedlings exhibiting a stronger environment dependent competitive ability than male seedlings. It was suggested that sex-specific competitive differences could have a greater impact on seedlings, and research was needed to explain if such competitive interactions occured at the vulnerable seedling stage.…”

Section: Discussionmentioning

confidence: 99%

Female versus male: Rumex thyrsiflorus Fingerh. under in vitro conditions. Does sex influence in vitro morphogenesis?

Ślesak

Dziedzic

Kwolek

et al. 2017

Plant Cell Tiss Organ Cult

View full text Add to dashboard Cite

show abstract

Females make tough neighbors: sex-specific competitive effects in seedlings of a dioecious grass

Cited by 83 publications

References 33 publications

Sex-specific plant responses to light intensity and canopy openness: implications for spatial segregation of the sexes

Sex-specific plant responses to light intensity and canopy openness: implications for spatial segregation of the sexes

Changes in sex ratios of a dioecious grass with grazing intensity: the interplay between gender traits, neighbour interactions and spatial patterns

Female versus male: Rumex thyrsiflorus Fingerh. under in vitro conditions. Does sex influence in vitro morphogenesis?

Contact Info

Product

Resources

About