Abstract
Climate change is predicted to result in increased occurrence and intensity of drought in many regions worldwide. By increasing plant physiological stress, drought is likely to affect the floral resources (flowers, nectar and pollen) that are available to pollinators. However, little is known about impacts of drought at the community level, nor whether plant community functional composition influences these impacts. To address these knowledge gaps, we investigated the impacts of drought on floral resources in calcareous grassland. Drought was simulated using rain shelters and the impacts were explored at multiple scales and on four different experimental plant communities varying in functional trait composition. First, we investigated the effects of drought on nectar production of three common wildflower species (Lathyrus pratensis, Onobrychis viciifolia and Prunella vulgaris). In the drought treatment, L.pratensis and P.vulgaris had a lower proportion of flowers containing nectar and O.viciifolia had fewer flowers per raceme. Second, we measured the effects of drought on the diversity and abundance of floral resources across plant communities. Drought reduced the abundance of floral units for all plant communities, irrespective of functional composition, and reduced floral species richness for two of the communities. Functional diversity did not confer greater resistance to drought in terms of maintaining floral resources, probably because the effects of drought were ubiquitous across component plant communities. The findings indicate that drought has a substantial impact on the availability of floral resources in calcareous grassland, which will have consequences for pollinator behaviour and populations.
Highlights
Climate change is predicted to impact invertebrate groups worldwide, leading to changes in their physiology, phenology and distribution (Bellard, Bertelsmeier, Leadley, Thuiller, & Courchamp, 2012; Prather#These authors contributed to the work and are joint first authors.et al, 2013)
The strength of the effect of drought varied with species: the proportion of flowers containing nectar was significantly lower in the drought than the control treatment for L. pratensis and P. vulgaris, but O. viciifolia was not significantly affected (contrast estimate À0.74 Æ 0.347 SE, Z = À2.12, TABLE 1 The effect of drought treatment at the flower scale in terms of nectar volume, sugar concentration and weight of sugar in nectar, 24 hr after bagging, for each plant species (Lathyrus pratensis, Onobrychis viciifolia and Prunella vulgaris)
L. pratensis and P. vulgaris responded by reducing the proportion of flowers that contained nectar on each raceme, whilst O. viciifolia responded with a reduction in the number of flowers per raceme
Summary
Climate change is predicted to impact invertebrate groups worldwide, leading to changes in their physiology, phenology and distribution Existing studies of the response of floral resources and pollinators to drought have commonly been conducted on plants of arid and semiarid regions (Al-Ghzawi et al, 2009; Takkis, Tscheulin, Tsalkatis, & Petanidou, 2015), where drought events are relatively common, or in the laboratory (Villarreal & Freeman, 1990) There are few such experiments in temperate regions where drought is expected to increase in frequency and severity due to climate change (Dai, 2013; IPCC, 2014). To affect resistance to drought (Buckland, Grime, Hodgson, & Thompson, 1997; Cantarel, Bloor, & Soussana, 2013; Comas, Becker, Cruz, Byrne, & Dierig, 2013) In this way, we were able to explore how responses to drought varied across plant communities based on their functional trait composition, and control for the effects of species composition to ensure the general applicability of the results. Plant communities with a greater functional diversity of traits that relate to uptake and use of water have greater niche complementarity between species in terms of their ability to exploit available water resources, resulting in a greater maintenance of floral resources
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
