Active space garnering by leaves of a rosette plant

Near-ground growth offers low-statured plants many benefits but also exposes them to the risk of being overtopped and losing access to sunlight. Plant community development is often portrayed as a process of serial dominance by successively taller species, but here we describe a mechanism by which a...

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Veröffentlicht in:	Current biology 2022-04, Vol.32 (8), p.R352-R353
Hauptverfasser:	Sicangco, Camille K., Bavdekar, Salil, Subhash, Ghatu, Putz, Francis E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Asteraceae Plant Leaves Plants
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creator	Sicangco, Camille K. Bavdekar, Salil Subhash, Ghatu Putz, Francis E.
description	Near-ground growth offers low-statured plants many benefits but also exposes them to the risk of being overtopped and losing access to sunlight. Plant community development is often portrayed as a process of serial dominance by successively taller species, but here we describe a mechanism by which a low-growing rosette species alters community spatial structure. Elephantopus elatus (Asteraceae), an herbaceous savanna plant with low-growing leaves that emerge radially from a central bud, pushes neighboring plants away and thereby avoids being overtopped. Active pushing is possible because the leaves have stout petioles that are basally anchored rather than attached to flexible twigs or stems. This growth-mediated leaf pushing introduces a novel example of active plant interactions that is likely important for other rosette plants. Sicangco et al. describe how the herbaceous plant Elephantopus elatus uses its leaves to actively push neighboring plants away to maintain access to sunlight.
doi_str_mv	10.1016/j.cub.2022.03.055
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Plant community development is often portrayed as a process of serial dominance by successively taller species, but here we describe a mechanism by which a low-growing rosette species alters community spatial structure. Elephantopus elatus (Asteraceae), an herbaceous savanna plant with low-growing leaves that emerge radially from a central bud, pushes neighboring plants away and thereby avoids being overtopped. Active pushing is possible because the leaves have stout petioles that are basally anchored rather than attached to flexible twigs or stems. This growth-mediated leaf pushing introduces a novel example of active plant interactions that is likely important for other rosette plants. 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subjects	Asteraceae Plant Leaves Plants
title	Active space garnering by leaves of a rosette plant
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