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Physiological integration can increase competitive ability in clonal plants if competition is patchy.

Pu Wang1,2, Peter Alpert3, Fei-Hai Yu4

  • 1College of Nature Conservation, Beijing Forest University, Beijing, 100083, China.

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|January 4, 2021
PubMed
Summary
This summary is machine-generated.

Physiological integration enhances clonal plant fitness by improving competition against other species, especially in heterogeneous environments. This connection allows clones to thrive amidst disturbances, boosting overall plant survival.

Keywords:
Biomass allocationEnvironmental patchinessInterspecific competitionResource sharingStoloniferous perennial

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Area of Science:

  • Ecology
  • Plant Biology
  • Evolutionary Biology

Background:

  • Clonal plants, connected as ramets, often show increased fitness with differing resource supplies.
  • Previous research has not directly investigated if physiological integration enhances interspecific competition in clonal plants.

Purpose of the Study:

  • To test if physiological integration increases the competitive ability of clonal plants against a dominant grass species.
  • To determine the role of competition spatial heterogeneity in the benefits of clonal integration.

Main Methods:

  • Two- and four-ramet fragments of *Fragaria chiloensis* were grown with or without neighbors (*Bromus carinatus*).
  • Connections between ramets were severed to prevent integration or left intact.
  • Plant mass and leaf area were measured to assess competitive outcomes.

Main Results:

  • Severing connections reduced leaf mass and area by 25% and total mass by 15% in two-ramet fragments when only one ramet had neighbors.
  • Integration's positive effect on total mass was observed only when competition was spatially heterogeneous (one ramet competing).
  • Severing connections had no significant effect on total mass when none or all ramets were grown with the grass.

Conclusions:

  • This study provides the first direct evidence that physiological integration enhances clonal plant competitive ability under spatially heterogeneous competition.
  • Integration may facilitate clonal plant establishment and persistence in diverse plant communities with fine-scale disturbances.
  • Integration's benefits may be limited in uniformly dense communities dominated by taller species.