Papers in the Biological Sciences
Document Type
Article
Date of this Version
1-14-2024
Citation
Functional Ecology. 2024;38:792–807. DOI: 10.1111/1365-2435.14514
Abstract
- Roots are essential to the diversity and functioning of plant communities, but trade-offs in rooting strategies are still poorly understood.
- We evaluated existing frameworks of rooting strategy trade-offs and tested their underlying assumptions, guided by the hypothesis that community-level rooting strategies are best described by a combination of variation in organ-level traits, plant-level root:shoot allocation and symbiosis-level mycorrhizal dependency. We tested this hypothesis using data on plant community structure, above-and below-ground biomass, eight root traits including mycorrhizal colonisation and soil properties from an edaphic gradient driven by elevation and water availability in sandhills prairie, Nebraska, USA.
- We found multidimensional trade-offs in rooting strategies represented by a two-way productivity-durability trade-off axis (captured by root length density and root dry matter content) and a three-way resource acquisition trade-off between specific root length, root:shoot mass ratio and mycorrhizal dependence. Variation in rooting strategies was driven to similar extents by interspecific differences and intraspecific responses to soil properties.
- Organ-level traits alone were insufficient to capture community-level trade-offs in rooting strategies across the edaphic gradient. Instead, trait variation encompassing organ, plant and symbiosis levels revealed that consideration of whole-plant phenotypic integration is essential to defining multidimensional trade-offs shaping the functional variation of root systems.
Comments
Open access.