Relaxation of the Leaf Economics Spectrum Within and Across Quaking Aspen Populus tremuloides Genotypes

Authors

Jolanta Rieksta, Norwegian University of Science and TechnologyFollow
Bente J. Graae, Norwegian University of Science and Technology
Kenny Helsen, Norwegian University of Science and Technology
Rozália E. Kapás, Norwegian University of Science and Technology
Richard Strimbeck, Norwegian University of Science and Technology
Benjamin W. Blonder, Norwegian University of Science and Technology

Document Type

Article

Author ORCID Identifier

Jolanta Rieksta https://orcid.org/0000-0001-6396-8383

Bente J. Graae https://orcid.org/0000-0002-5568-4759

Kenny Helsen https://orcid.org/0000-0001-6856-7095

Rozália E. Kapás https://orcid.org/0000-0001-7354-0575

Richard Strimbeck https://orcid.org/0000-0002-9924-1618

Benjamin W. Blonder https://orcid.org/0000-0002-5061-2385

Journal/Book Title/Conference

Oikos

Volume

2025

Issue

12

Publisher

John Wiley & Sons Ltd.

First Page

1

Last Page

17

Publication Date

9-8-2025

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Abstract

Plant functional traits typically show strong covariation, e.g. as in the worldwide leaf economics spectrum (LES). Covariation is thought to arise from selective forces and physical constraints. However, processes shaping covariation at interspecific scales may differ from those at intraspecific scales. Potential sources of intraspecific trait variation include variation in genetics, abiotic environment, and biotic environment; any of these factors may cause divergence from interspecific patterns. Quaking aspen, Populus tremuloides (Salicaceae), is a widespread tree species ideal for assessing these processes' role in the intraspecific LES, due to its clonal growth along environmental gradients, intraspecific variation in cytotype (ploidy level), and variation in biotic interactions (herbivory pressure). Here, we investigate genotype, cytotype, microclimate and herbivory as potential drivers in shaping LES trait–trait and trait–environment relationships at intra-specific scales. We studied 15 quaking aspen genotypes that varied in cytotype (diploid or triploid) along an elevation gradient in southwestern Colorado. We show that LES tradeoffs substantially weaken at the intraspecific scale in this species. Among genotypes, trait–trait slopes ranged from positive, weak, strong, negative, or absent compared to the global LES. We also found that cytotypes varied in resource-use tradeoffs, and that increasing insect herbivory pressure decreased the strength of several trait–trait relationships. Microenvironment was a weak predictor of intraspecific functional trait variation in quaking aspen. Synthesis. In quaking aspen, there are relaxed constraints on LES trait co-variation. Variation in genotype, cytotype, and herbivory pressure each contribute to this pattern. Relaxation of the LES may enable more flexible responses to environmental stressors through both genetic and plastic mechanisms.

Recommended Citation

Rieksta, J., B. J. Graae, K. Helsen, R. E. Kapás, R. Strimbeck, and B. W. Blonder. 2025. Relaxation of the leaf economics spectrum within and across quaking aspen Populus tremuloides genotypes. Oikos:e11279.