Publications by authors named "Yves Piquot"
The growing urbanization process is accompanied by the emergence of new habitats for wildlife, and cities are sometimes seen as refuges for pollinators such as wild bees compared to intensively cultivated rural habitats. However, the contrasting living conditions that combine high fragmentation, exposure to pollutants, and heat island effects, with low pesticide use and potentially high availability of resources, make it difficult to predict the overall effect of urban living on the health of wild bees. Moreover, if the responses of wild bee populations in terms of species richness and diversity have been the focus of many recent studies, individual responses to urbanization have been more rarely investigated.
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- Wild bees are declining primarily due to urbanization, which has changed land use in ways that affect bee communities.
- A study combined 16 surveys from 3 Western European countries to explore how urbanization impacts wild bee diversity and community composition.
- Results showed that increased impervious surfaces negatively affect bee species richness, while urban environments favor certain functional traits, indicating that some wild bees can adapt and thrive in cities.
Beyond the direct influence of climate change on species distribution and phenology, indirect effects may also arise from perturbations in species interactions. Infectious diseases are strong biotic forces that can precipitate population declines and lead to biodiversity loss. It has been shown in forest ecosystems worldwide that at least 10% of trees are vulnerable to extinction and pathogens are increasingly implicated.
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- Ecological Niche Models (ENMs) help predict future species distributions but face challenges due to sensitivity in model choice and emission scenarios.
- A study evaluated how different General Circulation Models (GCMs) and emission scenarios affect projected distributions of the dwarf birch and sweet chestnut trees under future climate conditions.
- Results showed that variability in projections is largely influenced by the choice of GCMs, often more so than by emission scenarios, emphasizing the need for a multi-GCM and multi-emission approach to accurately assess future species distributions.
Despite the increasing number of genomic tools, identifying the genetics underlying adaptive complex traits remains challenging in the model species Arabidopsis thaliana. This is due, at least in part, to the lack of data on the geographical scale of adaptive phenotypic variation. The aims of this study were (i) to tease apart the historical roles of adaptive and nonselective processes in shaping phenological variation in A.
View Article and Find Full Text PDFBackground And Aims: Knowledge of those traits that vary with latitude should be helpful in predicting how they may evolve locally under climate change. In the sea beet Beta vulgaris ssp. maritima, seed dormancy largely controls the timing of germination, is highly heritable and varies geographically; it is therefore thought to be selected by climate.
View Article and Find Full Text PDFIn sea beet (Beta vulgaris ssp. maritima), germination occurs in autumn or spring and is mediated by dormancy which can be released by cold or dry periods. Environmental change such as current climate change may require evolutionary response in seasonal timing.
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