凤梨科颖花和半颖花繁殖策略繁殖努力的模拟差异

IF 2.6 Q1 AGRONOMY in silico Plants Pub Date : 2022-09-21 DOI:10.1093/insilicoplants/diac019
Erin N. Bodine, Caroline J. Bush, A. Capaldi, R. Jabaily
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引用次数: 0

摘要

在植物中,将资源用于繁殖与个体生长之间的权衡,即生殖努力(RE)的量化提出了许多挑战。特别令人感兴趣的是比较生殖策略之间的RE,例如凤梨科的生殖策略:半胎生,个体经历一次随后致命的性繁殖事件,与双胎生,个体通过产生称为幼崽的克隆分支进行多次性繁殖。我们介绍了一个动态模型的营养和生殖生长在长寿命凤梨科的莲座考虑资源的分配在发展时间。我们比较了半胎凤梨科和无胎凤梨科在个体发育的关键时期和整个生殖生命中对RE的多种定义。虽然其他人认为半胎分类群比可比的无胎分类群表现出更高的RE,但我们的结果表明,这只会在有限的情况下发生:当计算从种子开始的莲座丛的生命周期时,当幼崽质量被认为是纯粹的营养时,半胎的RE更大;或者在遗传个体的生命周期内计算再生率时,当每只幼崽的营养物质与花序质量之比大于由种子开始的原始莲座时,半胎再生率更大。
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Modeling Differences in Reproductive Effort Between Iteroparous and Semelparous Reproductive Strategies in Bromeliaceae
Quantifying reproductive effort (RE), the trade-off between devoting resources to reproduction versus individual growth, in plants presents a number of challenges. Of particular interest is comparing RE between reproductive strategies, such as those in Bromeliaceae: semelparous, where individuals undergo a one-time and subsequently lethal sexual reproductive event, versus iteroparous, where individuals reproduce sexually multiple times by producing clonal offshoots called pups. We introduce a dynamic model of vegetative and reproductive growth in long-lived Bromeliaceae rosettes accounting for the allocation of resources over developmental time. We compare multiple definitions of RE in semelparous and iteroparous Bromeliaceae at critical times during development and over the entire reproductive life of the individual. While others have posited that semelparous taxa exhibit higher RE than comparable iteroparous taxa, our results indicate this will only occur in limited circumstances: when RE is calculated over the lifespan of a rosette started from seed, semelparous RE is greater when pup mass is accounted for as if it were purely vegetative; or when RE is calculated over the lifespan of the genetic individual, semelparous RE is greater when the ratio of vegetative to inflorescence mass in each pup is greater than that of the originating rosette started from seed.
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来源期刊
in silico Plants
in silico Plants Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
4.70
自引率
9.70%
发文量
21
审稿时长
10 weeks
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