Quantifying and understanding reproductive allocation schedules in plants

Wenk, Elizabeth; Falster, Daniel S.

doi:10.1002/ece3.1802

Cited by 97 publications

(90 citation statements)

References 107 publications

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“…The most obvious mechanism that will break this cycle involves short fire intervals that prevent fire-killed shrubs reaching reproductive age and thereby exhausting the seedbank (Enright et al, 2015). Furthermore, if reproductive output is related to plant size (Wenk & Falster, 2015), then climatic warming may allow fire-killed species to reach reproductive maturity sooner and consequently may increase their resilience to short fire intervals. For example, in the Australian Alps, current fire intervals of 50-100 years would need to decrease to <20 years-the time estimated for the species in this study to reach reproductive maturity (Williams et al, 2008).…”

Section: Discussionmentioning

confidence: 99%

Climatic warming strengthens a positive feedback between alpine shrubs and fire

Camac

Williams

Wahren

et al. 2017

Global Change Biology

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Climate change is expected to increase fire activity and woody plant encroachment in arctic and alpine landscapes. However, the extent to which these increases interact to affect the structure, function and composition of alpine ecosystems is largely unknown. Here we use field surveys and experimental manipulations to examine how warming and fire affect recruitment, seedling growth and seedling survival in four dominant Australian alpine shrubs. We found that fire increased establishment of shrub seedlings by as much as 33-fold. Experimental warming also doubled growth rates of tall shrub seedlings and could potentially increase their survival. By contrast, warming had no effect on shrub recruitment, postfire tussock regeneration, or how tussock grass affected shrub seedling growth and survival. These findings indicate that warming, coupled with more frequent or severe fires, will likely result in an increase in the cover and abundance of evergreen shrubs. Given that shrubs are one of the most flammable components in alpine and tundra environments, warming is likely to strengthen an existing feedback between woody species abundance and fire in these ecosystems.

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Section: Discussionmentioning

confidence: 99%

Climatic warming strengthens a positive feedback between alpine shrubs and fire

Camac

Williams

Wahren

et al. 2017

Global Change Biology

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“…The size at which an organism begins to reproduce has a large influence on population growth rates (Gadgil & Bossert, 1970) and the fitness of individuals (Wenk & Falster, 2015). The precocity of dioecious plants should alleviate their reproductive disadvantages at the population level.…”

Section: Discussionmentioning

confidence: 99%

Dioecious plants are more precocious than cosexual plants: A comparative study of relative sizes at the onset of sexual reproduction in woody species

Ohya

Nanami

Itoh

2017

Ecology and Evolution

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The reproductive capacities of dioecious plant species may be limited by severe pollen limitation and narrow seed shadows for the two reasons. First, they are unable to self‐pollinate, and seed production occurs only with pollinator movement from males to females. Second, only 50% of the individuals in populations contribute to seed production. Despite these handicaps, dioecious plants maintain their populations in plant communities with cooccurring cosexual plants, and no substantial difference in population growth rates has been found between dioecious and cosexual plants. Hence, dioecious plants are thought to mitigate these disadvantages by adopting ecological traits, such as insect pollination, animal‐dispersed fleshy fruits, and precocious flowering. We studied the relationship between flowering and plant size in 30 woody species with different sex expressions, leaf habits, fruit types, and maximum plant sizes. The study site was located in an evergreen broad‐leaved forest on the island of Honshu, Japan. A phylogenetic linear regression model showed that dioecious species tended to mature at smaller sizes than did cosexual taxa. At the population level, given equal plant densities and reproductive efforts, the precocity of dioecious plants could serve as one of the factors that mitigate the limitations of pollen and seed‐shadow handicaps by increasing the density of reproductive individuals in the population. At the individual level, smaller size of onset of flowering may play a role in enhancing reproductive success over a lifetime by increasing reproductive opportunities. We discussed the possible effect of the relationship between precocity and some ecological traits of dioecious plants, such as small flowers pollinated by unspecialized insects, fleshy fruit dispersed by animals, and their preferential occurrence in the tropics and in island habitats. The universality of precocity among dioecious plants should be investigated in diverse plant communities. Such studies will increase our understanding of the evolution of plant breeding systems.

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“…Entre as principais ameaças à sobrevivência dessa espécie está o aumento do turismo desordenado propiciado pela pavimentação da rodovia MG-010 que corta a região, além das constantes queimadas associadas à presença de gramíneas africanas invasoras provenientes de fazendas de criação de gado (Viana et al, 2005;Barbosa et al, 2010;Guimarães et al, 2014).…”

Section: Methodsunclassified

Post-fire resprout in an endangered and narrow endemic shrub from rupestrian grasslands, Serra do Cipó, southeastern Brazil

Furst

Silva

Fernandes

et al. 2017

Neotropical Biology and Conservation

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This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International (CC BY 4.0), which permits reproduction, adaptation, and distribution provided the original author and source are credited. ResumoEmbora existam evidências de que a vegetação dos campos rupestres seja resiliente à passagem do fogo, são incipientes as investigações sobre os efeitos da crescente frequência de incêndios de origem antrópica em plantas raras e endêmicas desse ecossistema. Neste estudo, monitoramos o rebrotamento pós-fogo da espécie Coccoloba cereifera Schwacke (Polygonaceae), um arbusto ameaçado e endêmico dos campos rupestres do sudeste do Brasil. Cinco meses após o incêndio, rebrotaram 100% dos indivíduos monitorados. Entretanto, um ano após o incêndio, as plantas queimadas ainda apresentaram comprimento da rameta 24% inferior e número de folhas 53,5% inferior em relação ao porte das plantas não queimadas. As plantas queimadas apresentaram taxa de crescimento relativo em número de folhas muito superior e investimento reprodutivo muito inferior em comparação com as plantas não queimadas. Embora a espécie estudada demonstre alta capacidade de rebrotamento pós-fogo, o padrão de crescimento vegetativo e investimento reprodutivo apresentado pelas plantas rebrotadas indica que a crescente frequência de incêndios antrópicos represente uma séria ameaça para C. cereifera. Palavras-chave:Cadeia do Espinhaço, conservação, Coccoloba cereifera, crescimento de plantas, fenologia reprodutiva. AbstractAlthough there is evidence that the vegetation from rupestrian grasslands is resilient to fire, investigations about the effects of increasing frequency of anthropogenic fires in the rare and endemic plants from this ecosystem are still incipient. In this study, we monitored the post-fire resprouting of the endemic and endangered shrub species Coccoloba cereifera Schwacke (Polygonaceae) from rupestrian grasslands, southeastern Brazil. Five months after the fire 100% of the monitored individuals resprouted. However, one year after the fire, the burned plants had the ramet length 24% lower and number of leaves 53.5% smaller in relation to unburned plants. Burned plants showed a much higher relative growth rate in number of leaves and much lower reproductive investment compared to unburned plants. Although the studied species showed a high ability to resprout after fire, the pattern of vegetative growth and reproductive investment showed by the burned plants suggested that the increasing frequency of anthropogenic fires represents a serious threat to C. cereifera.

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Quantifying and understanding reproductive allocation schedules in plants

Cited by 97 publications

References 107 publications

Climatic warming strengthens a positive feedback between alpine shrubs and fire

Climatic warming strengthens a positive feedback between alpine shrubs and fire

Dioecious plants are more precocious than cosexual plants: A comparative study of relative sizes at the onset of sexual reproduction in woody species

Post-fire resprout in an endangered and narrow endemic shrub from rupestrian grasslands, Serra do Cipó, southeastern Brazil

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