Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1111/1365-2745.70370
Licence creative commons licence
Title (Primary) Interspecific phenological variation in herbaceous species is more strongly reflected in vegetative traits than in floral traits
Author Plos, C.; Hornick, T. ORCID logo ; Dunker, S. ORCID logo ; Sporbert, M.; Jakubka, D.; Nordt, B.; Lenk, A.; Walther, F. ORCID logo ; Hensen, I.; Römermann, C.
Source Titel Journal of Ecology
Year 2026
Department iDiv; PHYDIV
Volume 114
Issue 6
Page From e70370
Language englisch
Topic T5 Future Landscapes
Data and Software links https://doi.org/10.25829/idiv.3591-kq2f39
Supplements Supplement 1
Keywords botanical garden; flower traits; flowering; fruiting; leaf-out; nectar; PhenObs network; phenology–trait relationships; pollen; senescence
Abstract
  1. Understanding the role of functional traits in shaping plant phenology is crucial for understanding how organisms adapt to changing environmental conditions. As climate change alters seasonal timing and disrupts ecological interactions, identifying relationships between phenology and traits is essential for predicting species' responses and potential mismatches.
  2. While vegetative traits such as plant height and leaf area are often associated with phenological variation, floral traits, which are closely linked to reproductive success, remain largely unexplored, despite their potential to significantly influence phenology. This study aims to understand the relative influence of floral and vegetative traits on patterns of species-specific phenological variation.
  3. We monitored the year-round phenology (initial growth, leaf out, onset, peak, end and duration of flowering, fruiting and senescence) of 68 herbaceous perennial plant species in three German botanical gardens (Halle, Jena, Berlin). We measured four vegetative traits—plant height, leaf area, specific leaf area (SLA) and leaf dry matter content (LDMC)—as well as 12 floral traits related to flower morphology, flower number, nectar and pollen, with all measurements conducted for each species in each garden at flowering time. As a basis for the inclusion of floral traits in studies on phenology–trait relationships, we used these data to analyse underlying trait correlations and trade-offs between floral and vegetative traits.
  4. Analysis of boosted regression trees that accounted for phylogenetic dependence of the species showed that vegetative traits, especially vegetative height, were most important for explaining patterns in reproductive and vegetative phenology. Taller plants showed later initial growth and later flowering and fruiting compared to smaller plants, and higher LDMC was associated with later senescence. Floral traits had an additional relative influence on phenological patterns but were of minor importance overall.
  5. Synthesis: Our study confirms that vegetative traits offer a robust explanatory framework for phenology, while also emphasizing the value of considering both vegetative and floral traits in understanding these patterns. Our findings offer a basis for exploring the functional relevance of rarely measured floral traits, such as pollen traits, within the plant economic spectrum and in plant–pollinator interaction studies.
Plos, C., Hornick, T., Dunker, S., Sporbert, M., Jakubka, D., Nordt, B., Lenk, A., Walther, F., Hensen, I., Römermann, C. (2026):
Interspecific phenological variation in herbaceous species is more strongly reflected in vegetative traits than in floral traits
J. Ecol. 114 (6), e70370
10.1111/1365-2745.70370