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Root and shoot phenology, architecture, and organ properties: an integrated trait network among 44 herbaceous wetland species

Ziqi Ye, Yanmei Mu, Shianne Van Duzen, Peter Ryser

2024New Phytologist25 citationsDOIOpen Access PDF

Abstract

Integrating traits across above- and belowground organs offers comprehensive insights into plant ecology, but their various functions also increase model complexity. This study aimed to illuminate the interspecific pattern of whole-plant trait correlations through a network lens, including a detailed analysis of the root system. Using a network algorithm that allows individual traits to belong to multiple modules, we characterize interrelations among 19 traits, spanning both shoot and root phenology, architecture, morphology, and tissue properties of 44 species, mostly herbaceous monocots from Northern Ontario wetlands, grown in a common garden. The resulting trait network shows three distinct yet partially overlapping modules. Two major trait modules indicate constraints of plant size and form, and resource economics, respectively. These modules highlight the interdependence between shoot size, root architecture and porosity, and a shoot-root coordination in phenology and dry-matter content. A third module depicts leaf biomechanical adaptations specific to wetland graminoids. All three modules overlap on shoot height, suggesting multifaceted constraints of plant stature. In the network, individual-level traits showed significantly higher centrality than tissue-level traits do, demonstrating a hierarchical trait integration. The presented whole-plant, integrated network suggests that trait covariation is essentially function-driven rather than organ-specific.

Topics & Concepts

BiologyTraitPhenologyHerbaceous plantShootSpecific leaf areaWetlandEcologyBotanyPhotosynthesisComputer scienceProgramming languageEcology and Vegetation Dynamics StudiesPlant Water Relations and Carbon DynamicsPlant responses to water stress
Root and shoot phenology, architecture, and organ properties: an integrated trait network among 44 herbaceous wetland species | Litcius