Project description:The microbiome of climate change induced range-expanding plants

Project description:The microbiome of climate change induced range-expanding plants

Project description:The microbiome of climate change induced range-expanding plants

Project description:Bacterial community sequencing in the rhizosphere soil of range-expanding and native plants in the Netherlands

Project description:Climate change favours specific fungal communities in Boreal peatlands

Project description:Soil nematodes under range expanding and native plant species

Project description:Current climate change has led to latitudinal and altitudinal range expansions of numerous species. During such range expansions, plant species are expected to experience changes in interactions with other organisms, especially with belowground biota that have a limited dispersal capacity. Nematodes form a key component of the belowground food web as they include bacterivores, fungivores, omnivores and root herbivores. However, their community composition under climate change-driven intracontinental range-expanding plants has been studied almost exclusively under controlled conditions, whereas little is known about actual patterns in the field. Here, we use novel molecular sequencing techniques combined with morphological quantification in order to examine nematode communities in the rhizospheres of four range-expanding and four congeneric native species along a 2,000 km latitudinal transect from South-Eastern to North-Western Europe. We tested the hypotheses that latitudinal shifts in nematode community composition are stronger in range-expanding plant species than in congeneric natives and that in their new range, range-expanding plant species accumulate fewest root-feeding nematodes. Our results show latitudinal variation in nematode community composition of both range expanders and native plant species, while operational taxonomic unit richness remained the same across ranges. Therefore, range-expanding plant species face different nematode communities at higher latitudes, but this is also the case for widespread native plant species. Only one of the four range-expanding plant species showed a stronger shift in nematode community composition than its congeneric native and accumulated fewer root-feeding nematodes in its new range. We conclude that variation in nematode community composition with increasing latitude occurs for both range-expanding and native plant species and that some range-expanding plant species may become released from root-feeding nematodes in the new range.

Project description:Fungal communities associated with arcto-alpine plants are strongly shaped by regional effects

Project description:Climate change and industrial pollution are responsible for major losses in crop yield worldwide. Tomato plants are subjected to multiple stress conditions in combination when growing in the natural field. In this work, we analyzed the transcriptomic response of tomato plants to the combination of salinity and heat stress, when plants were or were not inoculated with the beneficial bacteria Pseudomonas Putida. The results suggest that specific transcripts are regulated only under stress combination in plants inoculated with the bacteria. These transcripts could be related with the enhanced tolerance of inoculated plants under conditions of stress combination.

Project description:Plants Assemble Species Specific Bacterial Communities From Common Core Taxa in Three Arcto-Alpine Climate Zones