2021
DOI: 10.1111/fwb.13729
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Nutrients control reproductive traits of hygrophytic bryophytes

Abstract: Nutrient economy and plant nutrient concentrations have been suggested as important selective pressures of reproductive traits in vascular plants. However, evidence supporting that the reproduction of bryophytes and their reproductive traits have also been conditioned by nutrient availability is lacking. We here analysed the nutrient (N, P, K, and Fe) concentration of 35 aquatic and semi‐aquatic bryophytes and the chemistry of the spring water in which they lived to determine whether bryophyte nutrient concent… Show more

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Cited by 7 publications
(13 citation statements)
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“…By contrast, it is not necessary to decouple foliar N levels from soil N through N stoichiometric homeostasis for plant species when N limiting is not severe for plant growth (Sterner & Elser, 2002). In line with the biogeochemical niche hypothesis (Peñuelas et al, 2019), such distinct stoichiometric strategies of woody plants suggest that species abundance distribution is jointly determined by soil chemical filters and elemental composition related evolutionary history of species (Fernández-Martínez et al, 2021;Sardans et al, 2021).…”
Section: Discussionmentioning
confidence: 61%
“…By contrast, it is not necessary to decouple foliar N levels from soil N through N stoichiometric homeostasis for plant species when N limiting is not severe for plant growth (Sterner & Elser, 2002). In line with the biogeochemical niche hypothesis (Peñuelas et al, 2019), such distinct stoichiometric strategies of woody plants suggest that species abundance distribution is jointly determined by soil chemical filters and elemental composition related evolutionary history of species (Fernández-Martínez et al, 2021;Sardans et al, 2021).…”
Section: Discussionmentioning
confidence: 61%
“…On the other hand, the elemental composition of mosses was not as strongly related to cell traits as to macroscopic traits (Figure 2), and only four elements appeared as important predictors of cell traits. These results suggest that differences in the elemental composition amongst species may be more important for whole-organism processes of moss functioning, fitness, and adaptation or evolution (e.g., overall growth rate, photosynthesis, drought tolerance, reproduction [19,31]) than for processes occurring at the cellular level. Nonetheless, cell traits were good predictors of moss macroscopic morphological traits, which actually indicates a good correspondence between cell and macroscopic traits (Figure 3).…”
Section: Moss Elemental Composition Controls Micro-and Macroscopic Morphological Traits Across Speciesmentioning
confidence: 96%
“…We used previously published data in which we analysed the elemental composition of moss samples [30,31] from a large collection used in a previous study [25] for which their morphological traits were already estimated, including 29 different hygrophytic moss species. From the total collection of 100 samples with morphological traits, 80 samples had enough mass to analyse their elemental composition.…”
Section: Data Collection and Analyses Of Elemental Composition And Morphological Traitsmentioning
confidence: 99%
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