ACTIVITIES. The main technical and scientific activities during this period of time have been related to the experimental setup and the collection of data.
Experimental setup (WP1 [T3-4]; WP2 [T8]):
- Application of the experimental design described in the project proposal (24 cages, 4 replicates of paired cages, 3 treatments) (WP1 [T3-4]; WP2 [T8])
- Preparation of labs in France (sorting laboratory, greenhouse) (WP1 [T3-4]; WP2 [T8])
- Application of experimental perturbation (plant biomass removal and tilling) in 8 of the experimental cages (WP1 [T3-4]; WP2 [T8])
- Application of thermal manipulation (shutter system) and dispersal limitation in global change treatments (WP2 [T8])
Data collection (WP1 [T3-4]; WP2 [T8]):
- Initial training sampling of plant species, useful for identification throughout the project (WP1 [T3-4]; WP2 [T8])
- Continuous sampling of plant species. Data collected (ongoing): species richness, species abundance and biomass (species level and community level) (WP1 [T3-4]; WP2 [T8])
- Continuous sampling of insect species. Data collected (ongoing): species richness, species estimated abundances, plant feeding damage (this will help establish interactions between plants and animals, and herbivory pressure) (WP1 [T3-4]; WP2 [T8])
- Frequent sampling of soil respiration with EGM-5 device (WP1 [T3-4]; WP2 [T8])
Model construction (WP1 [T1-2]; WP2 [T5-7]):
- We have started to build the basic theoretical model to investigate ecosystem recovery dynamics under global change scenarios (WP1 [T1-2]; WP2 [T5-7])
MAIN ACHIEVEMENTS.
Despite the experimental sampling is still in process, we have already completed 13 samplings (3 in 2023, 10 in 2024). Each has information on plant species (richness, abundance and biomass), some have additional information on insect species (richness, abundance, feeding damage / herbivory pressure), soil respiration or functional traits. Preliminary results suggest that, at the level of grassland plants, functional recovery is fast (i.e. plant biomass) yet species richness and composition are not similar to control sites. This potentially affects the relationship between diversity and function in disturbed systems.
Regarding the theoretical side of the project, we have started to develop quantitative models of seed - plant - insect communities. These models use differential equations and have natural, seasonal environmental fluctuations to which different types of perturbations are added.