Long‐term experimental drought alters floral scent and pollinator visits in a Mediterranean plant community despite overall limited impacts on plant phenotype and reproduction

Pollinators are declining globally, with climate change implicated as an important driver. Climate change can induce phenological shifts and reduce floral resources for pollinators, but little is known about its effects on floral attractiveness and how this might cascade to affect pollinators, polli...

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Bibliographic Details
Published in:The Journal of ecology 2022-11, Vol.110 (11), p.2628-2648
Main Authors: Jaworski, Coline C., Geslin, Benoît, Zakardjian, Marie, Lecareux, Caroline, Caillault, Pauline, Nève, Gabriel, Meunier, Jean‐Yves, Dupouyet, Sylvie, Sweeney, Aoife C. T., Lewis, Owen T., Dicks, Lynn V., Fernandez, Catherine
Format: Article
Language:English
Subjects:
Amplification
Apis mellifera
Aridity
Biodiversity and Ecology
Bombus
Cistus albidus
Climate change
Climate prediction
Drought
Emissions
Environmental impact
Environmental Sciences
floral traits
Flowers
Flowers & plants
Fruit set
Fruits
Germination
Global Changes
Habitats
Insects
Nectar
Phenotypes
Plant communities
plant fitness
Plant populations
Plant reproduction
Plant species
Plants
Plants (botany)
Pollination
Pollinators
Precipitation
Rain
Rainfall
reduced rainfall
Reproduction
Salvia rosmarinus
Seed set
Seeds
Species richness
Thymus vulgaris
volatile organic compound
water deficit
water‐limited
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Summary:Pollinators are declining globally, with climate change implicated as an important driver. Climate change can induce phenological shifts and reduce floral resources for pollinators, but little is known about its effects on floral attractiveness and how this might cascade to affect pollinators, pollination functions and plant fitness. We used an in situ long‐term drought experiment to investigate multiple impacts of reduced precipitation in a natural Mediterranean shrubland, a habitat where climate change is predicted to increase the frequency and intensity of droughts. Focusing on three insect‐pollinated plant species that provide abundant rewards and support a diversity of pollinators (Cistus albidus, Salvia rosmarinus and Thymus vulgaris), we investigated the effects of drought on a suite of floral traits including nectar production and floral scent. We also measured the impact of reduced rainfall on pollinator visits, fruit set and germination in S. rosmarinus and C. albidus. Drought altered floral emissions of all three plant species qualitatively, and reduced nectar production in T. vulgaris only. Apis mellifera and Bombus gr. terrestris visited more flowers in control plots than drought plots, while small wild bees visited more flowers in drought plots than control plots. Pollinator species richness did not differ significantly between treatments. Fruit set and seed set in S. rosmarinus and C. albidus did not differ significantly between control and drought plots, but seeds from drought plots had slower germination for S. rosmarinus and marginally lower germination success in C. albidus. Synthesis. Overall, we found limited but consistent impacts of a moderate experimental drought on floral phenotype, plant reproduction and pollinator visits. Increased aridity under climate change is predicted to be stronger than the level assessed in the present study. Drought impacts will likely be stronger and this could profoundly affect the structure and functioning of plant–pollinator networks in Mediterranean ecosystems. Résumé Le changement climatique est une des causes importantes du déclin des pollinisateurs. Il peut notamment provoquer une réduction de la production de ressources florales et des décalages phénologiques entre les périodes de floraison et d'activité des pollinisateurs. Cependant les effets du changement climatique sur l'attractivité des fleurs, et les conséquences sur les interactions plantes‐pollinisateurs, les fonctions de pollinisation et
ISSN:0022-0477
1365-2745
DOI:10.1111/1365-2745.13974