Range-size, local abundance and germination niche-breadth in Mediterranean plants of two life-forms

Luna, Belén; Moreno, José M.

doi:10.1007/s11258-010-9740-y

Cited by 44 publications

(40 citation statements)

References 41 publications

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“…By preparing for the subsequent stages of establishment, further growth and development, germination is fundamental for plant adaptation (Donohue et al 2010). The range of conditions eliciting germination of a plant determines the breadth of its niche and geographic range (Donohue et al 2010;Luna and Moreno 2010). Among the factors which define the germination niche, temperature is of paramount importance, frequently regulating seed germination (Baskin and Baskin 1998;Probert 2000).…”

Section: Introductionmentioning

confidence: 99%

“…Despite the large number of publications characterizing germination niches of individual species or groups of species (e.g. Baskin and Baskin (1998) and references therein; Luna and Moreno (2010)), the available information is often limited for most rare and threatened species, and specific to certain floras (Crawford et al 2007;Godefroid et al 2010). The Secretariat of the Convention on Biological Diversity (2009) has even highlighted that ex situ conservation is often constrained by the absence and/or limited accessibility of data, tools and technologies.…”

Section: Introductionmentioning

confidence: 99%

“…On the contrary, species-specific requirements for germination are prevalent, which is frequently attributed to the specific habitats in which those species occur (e.g. high mountain habitats, specific microclimates) (Herranz et al 2002;Giménez-Benavides et al 2005;Lorite et al 2007;Luna and Moreno 2010). Therefore, a thorough understanding of the germination ecology is critical to optimise conservation efforts, and to contribute to a better understanding of potential species responses to climate change.…”

Section: Introductionmentioning

confidence: 99%

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What can routine germination tests in seed banks tell us about the germination ecology of endemic and protected species?

Clemente

Müller

Almeida

et al. 2017

Botany

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Protocols for the conservation of threatened plants are often constrained by the absence of data on germination ecology. However, seed bank managers periodically monitor the viability of stored seed collections using germination tests. Here, we argue that data from those tests can and should be used to provide information on germination requirements of threatened species. Twelve taxa endemic to Portugal were used as a test case to determine the effect of incubation temperature and pretreatments upon germination and to identify major factors eliciting germination and releasing dormancy. We achieved maximum germination percentages >95% for nine taxa. Temperature significantly affected the final germination and mean germination time in most taxa. Maximum and faster germination at cool temperatures (15 °C or alternate 20/10 °C) was the prevailing trend. Cold stratification improved germination in one species, suggesting physiological dormancy. Scarification increased the germination percentage of one species among those expected to exhibit physical dormancy. Seed bank data provided valuable information on germination ecology, which can be used in in-situ conservation and as a baseline for further germination studies. Given the increasing threats to plant diversity, accessibility to seed bank data are paramount.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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What can routine germination tests in seed banks tell us about the germination ecology of endemic and protected species?

Clemente

Müller

Almeida

et al. 2017

Botany

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“…Indeed, as the lower probability of successfully establishing in narrowly distributed species may be related to narrower regeneration niches (e.g., Brändle et al, 2003;Luna and Moreno, 2010), future experimental studies of the regeneration niche of these Ipomoea species (sensu Grubb, 1977) might be of particular importance to disentangling the mechanisms limiting the distribution of I. rubriflora. The lower local abundance of I. rubriflora at the study sites seems to support the idea of a lower regeneration niche, as hypothesized for narrowly distributed species (Gaston, 2003).…”

Section: Discussionmentioning

confidence: 99%

“…Although the study of the causes of plant range size has long history (Stebbins, 1942;Rabinowitz et al, 1987;Gaston, 2003;Lavergne et al, 2004;Van der Veeken et al, 2007;Luna and Moreno, 2010), a general explanation for narrow distributions in plants has yet to emerge and thus more comparative studies are still needed (Murray et al, 2002;Gaston, 2009). In this sense, studies considering several pairs of closely related species with contrasting distributions may be particularly valuable (e.g., Lavergne et al, 2004;Van der Veeken et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Plant recruitment and range size: Transition probabilities from ovule to adult in two Ipomoea

2013

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This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and education use, including for instruction at the authors institution and sharing with colleagues.Other uses, including reproduction and distribution, or selling or licensing copies, or posting to personal, institutional or third party websites are prohibited. b s t r a c tIn plants, narrow geographic distributions are generally associated with low colonization and persistence abilities, therefore narrowly distributed plants are expected to have lower plant recruitment success than widespread species. Determining the association between recruitment success and range size requires the comparison of the success in multiple life-history stages among narrowly distributed and widespread congeners sharing the same habitat, an integrated approach rarely considered. We compared transition probabilities from ovule to reproductive adult between the narrowly distributed annual vine Ipomoea rubriflora O'Donnell (Convolvulaceae) and the widespread Ipomoea purpurea (L.) Roth at sites in Chaco woodland where they co-occur. I. rubriflora had marginally lower ovule fertilization success, a lower probability of seed maturation and lower seedling establishment than I. purpurea. The lowest transition probability for both species was seedling emergence. Seedling establishment in I. rubriflora was similar to seedling emergence. Plant recruitment success in I. rubriflora was an order of magnitude lower than that of I. purpurea. Indeed, I. rubriflora had lower total seed production per plant and smaller seed mass. Our results suggest that understanding processes determining regeneration (i.e., seedling emergence and establishment) may be of high importance for understanding narrow distributions in annual plants. The results also suggest that the narrowly distributed species is not only at a "numerical disadvantage" for colonizing new sitesdi.e., lower total seed production per plantdbut it also has a lower per-seed probability of establishing and thus to persist. However, as lower establishment success in this species seemed to be associated with the lower ability to survive adverse conditions of seedlings from smallerseeded species, a narrower regeneration niche might also explain its narrow distribution.

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Global Diversity and Distribution of Aquatic Macrophytes

Lobato-de Magalhães,

Murphy,

Otte

et al. 2024

Wetlands: Ecology, Conservation and Management

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Range-size, local abundance and germination niche-breadth in Mediterranean plants of two life-forms

Cited by 44 publications

References 41 publications

What can routine germination tests in seed banks tell us about the germination ecology of endemic and protected species?

What can routine germination tests in seed banks tell us about the germination ecology of endemic and protected species?

Plant recruitment and range size: Transition probabilities from ovule to adult in two Ipomoea

Global Diversity and Distribution of Aquatic Macrophytes

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