Higher thermal plasticity in flowering phenology increases flowering output

Author:

Kotilainen Aino1ORCID,Mattila Anniina L. K.1ORCID,Møller Charlotte1ORCID,Koivusaari Susanna12ORCID,Hyvärinen Marko‐Tapio1ORCID,Hällfors Maria H.34ORCID

Affiliation:

1. Botany and Mycology Unit, Finnish Museum of Natural History University of Helsinki Helsinki Finland

2. Nature Solutions Unit Finnish Environment Institute (Syke) Helsinki Finland

3. Research Centre for Environmental Change, Organismal and Evolutionary Biology Research Programme, Faculty of Biological and Environmental Sciences University of Helsinki Helsinki Finland

4. Department of Geosciences and Geography University of Helsinki Helsinki Finland

Abstract

AbstractOngoing climate change poses an increasing threat to biodiversity. To avoid decline or extinction, species need to either adjust or adapt to new environmental conditions or track their climatic niches across space. In sessile organisms such as plants, phenotypic plasticity can help maintain fitness in variable and even novel environmental conditions and is therefore likely to play an important role in allowing them to survive climate change, particularly in the short term. Understanding a species' response to rising temperature is crucial for planning well‐targeted and cost‐effective conservation measures. We sampled seeds of three Hypericum species (H. maculatum, H. montanum, and H. perforatum), from a total of 23 populations originating from different parts of their native distribution areas in Europe. We grew them under four different temperature regimes in a greenhouse to simulate current and predicted future climatic conditions in the distribution areas. We measured flowering start, flower count, and subsequent seed weight, allowing us to study variations in the thermal plasticity of flowering phenology and its relation to fitness. Our results show that individuals flowered earlier with increasing temperature, while the degree of phenological plasticity varied among species. More specifically, the plasticity of H. maculatum varied depending on population origin, with individuals from the leading range edge being less plastic. Importantly, we show a positive relationship between higher plasticity and increased flower production, indicating adaptive phenological plasticity. The observed connection between plasticity and fitness supports the idea that plasticity may be adaptive. This study underlines the need for information on plasticity for predicting species' potential to thrive under global change and the need for studies on whether higher phenotypic plasticity is currently being selected as natural populations experience a rapidly changing climate.

Funder

Biotieteiden ja Ympäristön Tutkimuksen Toimikunta

Publisher

Wiley

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