|Year of selection||2017|
|Institution||Aix Marseille University – IMBE|
Type of support
130 000 €
Animal-mediated pollination is essential to the reproduction of 90 % of flowering plants and a third of crop production. The global decline of pollinator populations is thus ample cause for alarm. Several human-driven factors are contributing to this disturbing trend, not the least of which is climate change. Recognising the urgency of the situation and the pressing need for innovative solutions, especially considering human population growth, Dr. Coline Jaworski’s project aims to use floral scent as an effective tool for investigating the impact of climate change on pollinator networks. « Floral scent emissions are known to be highly affected by hydric stress and temperature, which makes them a good tracer of climate change », the researcher at the Mediterranean Institute for Biodiversity and Ecology (IMBE) explains. Her research will be conducted in the surroundings of Marseille, on the Mediterranean coast of France, « a region predicted to face a severe drought intensification and an increased frequency of wildfire events by 2050 », she highlights. By trying to shed light on some of the underlying mechanisms that destabilise animal-mediated pollination there, her ultimate objective is to bring forward clear recommendations for conservation.
Many flowers produce a scent. This scent is a mixture of molecular compounds released by the flower into the atmosphere. The flower’s structure, colour and odour are critical cues in attracting pollinators. « We know that climate change will affect plant volatile emissions. To preserve and restore biodiversity and ecosystems functions, we need to know how exactly », Dr. Coline Jaworski stresses. « This is precisely what the project is about, understanding the mechanisms by which climate change affects all the plants and pollinators species in a community and their interactions », she continues. « This way, we can develop new tools and expectations on the resilience of these pollination networks ».
Using floral emissions to restore and protect pollination
The choice of the area of Marseille as the study area is not random. The Mediterranean Basin encompasses more than 50% of European bee species. Around Marseille, plants are adapted to extremely arid regions and some of the most abundant species, like rosemary and thyme, have particularly strong scents. In addition, the area has a variety of climatic conditions, with different gradient of aridity, and a history of fire events. « Field work will consist of collecting data on both the plants and the pollinators that inhabit natural plant communities around Marseille. We will record the pollinator’s visits to the plants, check their identity, catch some specimens and capture floral scents that will later be analysed in the lab », Dr. Coline Jaworski specifies. This will help achieve the first two goals of the project : characterizing both the impact of climatic conditions on the structure of pollination networks and the floral scent emissions of plant species embedded in those networks. Once complete, these steps will help pave the way for the remaining two aims: analyzing how changes in pollination networks relate to changes in floral emissions and finally, determining how to restore and protect these pollination interactions using floral emissions.
Recent research shows that, as temperatures and aridity increase, the scent of flowers is disturbed. By aiming to provide insight into this alarming phenomenon, Dr. Coline Jaworski post-doctoral research is addressing one of tomorrow’s biggest challenges. In her own words, « understanding how plants and pollinator interact and assemble into pollination networks is a historic, fascinating challenge in ecology, where recent human-driven changes urge for rapid progress ». Her findings will not only lead to tangible recommendations to preserve and restore Mediterranean pollination networks, they will also propose a new framework of action for the preservation of pollinator communities worldwide.