Ecological Relationships Between Woody Species Diversity and Propagation Strategies of <i>Aulonemia queko</i>

Ecological Relationships Between Woody Species Diversity and Propagation Strategies of <i>Aulonemia queko</i>

This study explores how floristic composition, diversity, and woody vegetation structure vary across floristic zones in Andean montane forests under the dominance of <i>Aulonemia queko</i> Goudot (Poaceae, Bambusoideae) dominance. As a culturally and ecologically significant non-timber f...

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Bibliographic Details
Main Authors: Hugo Cedillo, Luis G. García-Montero, Fernando Bermúdez, Andrés Arciniegas, Mélida Rocano, Oswaldo Jadán
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Plants
Subjects:
floristic composition
diversity
density
<i>Aulonemia queko</i>
propagation
shoots
Online Access:https://www.mdpi.com/2223-7747/14/5/744
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Summary:This study explores how floristic composition, diversity, and woody vegetation structure vary across floristic zones in Andean montane forests under the dominance of <i>Aulonemia queko</i> Goudot (Poaceae, Bambusoideae) dominance. As a culturally and ecologically significant non-timber forest product, <i>A. queko</i> plays a key role in shaping plant communities and requires effective propagation strategies for sustainable management. Significant differences in floristic composition were observed among zones, with indicator species identified in the lower and upper zones. However, despite environmental variability, species richness and structural attributes remained stable across the elevation gradient, suggesting resilience in woody plant communities. <i>A. queko</i> density was highest in the upper zone, while its basal area peaked in the lower and middle zones, probably shaping floristic composition through competitive interactions and habitat modification. Propagation experiments revealed that shoots with rhizomes exhibited higher survival and growth, particularly in mulch substrates with 1000 ppm indole-3-butyric acid (IBA), highlighting the importance of shoot type, substrate, and hormone dose. These findings suggest that <i>A. queko</i> is a structuring species and a potential restoration target. However, its dominance may alter forest composition, requiring adaptive management strategies that balance its ecological role with conservation and sustainable use, ensuring biodiversity and ecosystem resilience.
ISSN:2223-7747

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