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

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. Gender differences in traits have been considered to be inh...

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Detalles Bibliográficos
Autor principal: Graff, Bárbara Pamela
Otros Autores: Rositano, Florencia, Aguiar, Martín Roberto
Formato: Artículo
Lenguaje:Inglés
Materias:
ARID ECOSYSTEMS
DIOECY
LIFE-HISTORY TRAITS
O-RING STATISTICS
PLANT-HERBIVORE INTERACTIONS
PLANT-PLANT INTERACTIONS
SEX RATIO
SEXUAL DIMORPHISM
SPATIAL PATTERN
TRADE-OFFS
COMPETITIVE ABILITY
DIMORPHISM
ENVIRONMENTAL STRESS
FEMALE
GENDER
GRASS
GRAZING
INVESTMENT
MALE
PLANT-HERBIVORE INTERACTION
RESOURCE ALLOCATION
SPATIAL DISTRIBUTION
TRADE-OFF
HEXAPODA
MAMMALIA
POACEAE
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2013graff.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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245 0 0 |a Changes in sex ratios of a dioecious grass with grazing intensity   |b the interplay between gender traits, neighbour interactions and spatial patterns 
520 |a 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. 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. 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 slow-growing females were better defended against insects and small mammals but were more susceptible than males to competition from neighbours. 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. 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. 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. Our results show that a drift from female- to male-bias with increasing domestic grazing intensity is far from being predicted solely by gender dimorphism in traits. Growth-defence trade-off determines competitive ability of sexes which in turn controls spatial distribution of genders within the community. The greater distance of females from unpalatable competitors was the determinant of female-biased consumption by domestic herbivores despite their larger investment in anti-herbivore compounds. 
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653 0 |a SEX RATIO 
653 0 |a SEXUAL DIMORPHISM 
653 0 |a SPATIAL PATTERN 
653 0 |a TRADE-OFFS 
653 0 |a COMPETITIVE ABILITY 
653 0 |a DIMORPHISM 
653 0 |a ENVIRONMENTAL STRESS 
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653 0 |a GRASS 
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653 0 |a INVESTMENT 
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653 0 |a PLANT-HERBIVORE INTERACTION 
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700 1 |a Rositano, Florencia  |9 27337 
700 1 |9 12939  |a Aguiar, Martín Roberto 
773 |t Journal of Ecology  |g vol.101, no.5 (2013), p.1146-1157 
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900 |a ^aGraff, P.^tIFEVA-CONICET, Facultad de Agronomía, Universidad de Buenos Aires, Av. San Martín 4453 (C1417DSE), Ciudad Autónoma de Buenos Aires, Argentina 
900 |a ^aRositano, F.^tIFEVA-CONICET, Facultad de Agronomía, Universidad de Buenos Aires, Av. San Martín 4453 (C1417DSE), Ciudad Autónoma de Buenos Aires, Argentina 
900 |a ^aAguiar, M.R.^tIFEVA-CONICET, Facultad de Agronomía, Universidad de Buenos Aires, Av. San Martín 4453 (C1417DSE), Ciudad Autónoma de Buenos Aires, Argentina 
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900 |a O-RING STATISTICS 
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900 |a FEMALE 
900 |a GENDER 
900 |a GRASS 
900 |a GRAZING 
900 |a INVESTMENT 
900 |a MALE 
900 |a PLANT-HERBIVORE INTERACTION 
900 |a RESOURCE ALLOCATION 
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900 |a TRADE-OFF 
900 |a HEXAPODA 
900 |a MAMMALIA 
900 |a POACEAE 
900 |a 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. 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. 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 slow-growing females were better defended against insects and small mammals but were more susceptible than males to competition from neighbours. 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. 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. 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. Our results show that a drift from female- to male-bias with increasing domestic grazing intensity is far from being predicted solely by gender dimorphism in traits. Growth-defence trade-off determines competitive ability of sexes which in turn controls spatial distribution of genders within the community. The greater distance of females from unpalatable competitors was the determinant of female-biased consumption by domestic herbivores despite their larger investment in anti-herbivore compounds. 
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