Document Type
Dataset
Publication Date
2025
Abstract
Premise: Hydrological regime influences wetland plant species distribution and performance.Global warming and extreme weather events are magnifying flooding patterns, and understanding how invasive taxa respond across life stages (establishment vs. established phase) is important for predicting and managing their colonization and spread. Our objective was to measure flood trait responses at contrasting life stages in closely related congeners (Ludwigia peploides, diploid; L. hexapetala, decaploid; Onagraceae) differing in their invasiveness in the field.
Methods: In the field, we assessed phenological responses to seasonal hydrological changes, and in mesocosms, we assessed flood stress responses of establishing shoot fragments under deep-flooded, shallow-flooded, and gradual drawdown hydrological treatments.
Key Results: Counter to expectations, establishing L. peploides expressed more flood tolerance traits in mesocosms than L. hexapetala. For example, L. peploides had greater total leaf area and aerenchyma production than L. hexapetala, supporting its growth under flooding, whereas, L. hexapetala expressed more flood escape traits (higher shoot elongation rates, trend for longer shoot internode length). Although L. hexapetala expressed some traits associated with drought tolerance, these trends were not significant. In the field, longer-established plants indicated a reversed pattern for flood escape versus tolerance traits. Ludwigia. peploides rapidly shifted to sexual reproduction as soils began to dry, whereas L. hexaetala flowered regardless of soil moisture availability.
Conclusions: These contrasting patterns of flood tolerance versus escape traits demonstrate that invasive Ludwigia congeners have differing strategies to counter physiological stress induced by flooding and emphasize the importance of life stage in response to environmental variation.
Recommended Citation
Supporting Data: Drenovsky et al. 2025. Functional trait responses of invasive Ludwigia species to contrasting hydrological conditions. American Journal of Botany.