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Putative biotic drivers of plant phenology :with special reference to pathogens and deciduousness
  • Rowland Burdon,
  • Michael Bartlett
Rowland Burdon
Scion (New Zealand Forest Research Institute Ltd)
Author Profile
Michael Bartlett
Scion (New Zealand Forest Research Institute Ltd)
Author Profile

Abstract

Plant phenology is manifested in the seasonal timing of vegetative and reproductive processes, but also has ontogenetic aspects. The adaptive basis of seasonal phenology has been considered mainly in terms of climatic drivers. However, some biotic factors as likely evolutionary influences on plants’ phenology appear to have been under-researched. Several specific cases of putative biotic factors driving plant phenology are outlined, involving both herbivores and pathogens. These illustrate the diversity of likely interactions rather than any systematic coverage or review. Emphasis is on woody perennials, in which phenology is often most multi-faceted and complicated by the ontogenetic aspect. The complete seasonal leaf fall that characterises deciduous plants may be a very important defence against some pathogens. Whether biotic influences drive acquisition or long-term persistence of deciduousness is considered. In one case; of leaf rusts in poplars, countervailing influences of the rusts and climate suggest persistence. Often, however, biotic and environmental influences likely reinforce each other. The timing and duration of shoot flushing may in at least some cases contribute to defences against herbivores, largely through brief periods of ‘predator satiation’ when plant tissues have highest food value. Wide re-examination of plant phenology, accommodating the roles of biotic factors and their interplays with environments as additional adaptive drivers, is advocated, towards developing and applying hypotheses that are observationally or experimentally testable.

Peer review status:UNDER REVIEW

16 Nov 2021Submitted to Ecology and Evolution
17 Nov 2021Assigned to Editor
17 Nov 2021Submission Checks Completed
30 Nov 2021Reviewer(s) Assigned