Roles of pollinator attraction and environmental fluctuation in inducing flowering synchrony

Akiko Satake, Yuuya Tachiki, Yoh Iwasa

研究成果: Chapter in Book/Report/Conference proceedingChapter

抄録

Masting, or mast seeding, is the synchronous seed production in certain years by a population of plants (Kelly 1994). The reproductive activity of plants in forests often fluctuates considerably between years, and flowering and fruit production are synchronised over long distances (Koenig and Knops 1998, 2000, Koenig et al. 1999). Mast seeding has clear disadvantages such as higher density-dependent mortality of seedlings and lost opportunities for reproduction (Waller 1979). In addition, field observations suggest that seed production fluctuates more than the level that can be explained by climate-mediated variation in resource availability (Büsgen and Münch 1929). Two major questions arise from ecological studies on masting: Why is masting evolutionarily favoured regardless of apparent disadvantages? How do plants allocate resources to realise variable flowering efforts in a way synchronised over different individuals? A family of resource budget models that have recently been studied provides answers to both questions: on the physiological mechanism by which plants may successfully generate such intermittent and synchronous reproduction (Isagi et al. 1997, Satake and Iwasa 2000, 2002a, b) and on the conditions for which masting is adaptive (Rees et al. 2002, Tachiki and Iwasa 2008). Resource budget models assume that plants accumulate resources every year and set flowers and fruits at a rate limited by pollen availability when the stored resources exceed a reproductive threshold level. The model predicts that individual plants flower intermittently when their resources are depleted after heavy flowering and fruiting, and that synchrony emerges in self-organised fashion by coupling through the need to receive outcross pollen from other plants (Satake and Iwasa 2000).

本文言語英語
ホスト出版物のタイトルTemporal Dynamics and Ecological Process
出版社Cambridge University Press
ページ251-281
ページ数31
ISBN(電子版)9781139048170
ISBN(印刷版)9780521198639
DOI
出版ステータス出版済み - 1 1 2012

All Science Journal Classification (ASJC) codes

  • 農業および生物科学(全般)

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