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Aebi, Alexandre

Nom
Aebi, Alexandre
Affiliation principale
Site web
Fonction
MER
Email
alexandre.aebi@unine.ch
Identifiants
https://libra.unine.ch/handle/123456789/769
_
0000-0003-2309-1497

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  • Publication
    Accès libre
    Understanding negative biodiversity–ecosystem functioning relationship in semi-natural wildflower strips
    (2018-12-7)
    Sandau, Nadine
    ;
    Naisbit, Russel E
    ;
    Fabian, Yvonne
    ;
    Bruggisser, Odile T
    ;
    Kehrli, Patrick
    ;
    Aebi, Alexandre 
    ;
    Rohr, Rudolf
    ;
    Bersier, Louis-Felix
    Studies on biodiversity–ecosystem functioning (BEF) in highly controlled experiments often yield results incompatible with observations from natural systems: experimental results often reveal positive relationships between diversity and productivity, while for natural systems, zero or even negative relationships have been reported. The discrepancy may arise due to a limited or closed local species pool in experiments, while natural systems in meta-community contexts experience dynamic processes, i.e., colonization and extinctions. In our study, we analysed plant community properties and above-ground biomass within a semi-natural (i.e., not weeded) experiment in an agricultural landscape. Eleven replicates with four different diversity levels were created from a species pool of 20 wildflower species. We found an overall significant negative relationship between total diversity and productivity. This relationship likely resulted from invasion resistance: in plots sown with low species numbers, we observed colonization by low-performing species; colonization increased species richness but did not contribute substantially to productivity. Interestingly, when analysing the biomass of the sown and the colonizer species separately, we observed in both cases positive BEF relationships, while this relationship was negative for the whole system. A structural equation modelling approach revealed that higher biomass of the sown species was linked to higher species richness, while the positive BEF relationship of the colonizers was indirect and constrained by the sown species biomass. Our results suggest that, in semi-natural conditions common in extensive agroecosystems, the negative BEF relationship results from the interplay between local dominant species and colonization from the regional species pool by subordinate species.
  • Publication
    Accès libre
    The relative contributions of species richness and species composition to ecosystem functioning
    (2016-9-27)
    Sandau, Nadine
    ;
    Fabian, Yvonne
    ;
    Bruggisser, Odile T
    ;
    Rohr, Rudolf P
    ;
    Naisbit, Russel E
    ;
    Kehrli, Patrick
    ;
    Aebi, Alexandre 
    ;
    Bersier, Louis-Felix
    How species diversity influences ecosystem functioning has been the subject of many experiments and remains a key question for ecology and conservation biology. However, the fact that diversity cannot be manipulated without affecting species composition makes this quest methodologically challenging. Here, we evaluate the relative importance of diversity and of composition on biomass production, by using partial Mantel tests for one variable while controlling for the other. We analyse two datasets, from the Jena (2002–2008) and the Grandcour (2008–2009) Experiments. In both experiments, plots were sown with different numbers of species to unravel mechanisms underlying the relationship between biodiversity and ecosystem functioning (BEF). Contrary to Jena, plots were neither mowed nor weeded in Grandcour, allowing external species to establish. Based on the diversity–ecosystem functioning and competition theories, we tested two predictions: 1) the contribution of composition should increase with time; 2) the contribution of composition should be more important in non‐weeded than in controlled systems. We found support for the second hypothesis, but not for the first. On the contrary, the contribution of species richness became markedly more important few years after the start of the Jena Experiment. This result can be interpreted as suggesting that species complementarity, rather than intraspecific competition, is the driving force in this system. Finally, we explored to what extent the estimated relative importance of both factors varied when measured on different spatial scales of the experiment (in this case, increasing the number of plots included in the analyses). We found a strong effect of scale, suggesting that comparisons between studies, and more generally the extrapolation of results from experiments to natural situations, should be made with caution.
  • Publication
    Accès libre
    Plant diversity in a nutshell: testing for small-scale effects on trap nesting wild bees and wasps
    (2014-3-31)
    Fabian, Yvonne
    ;
    Sandau, Nadine
    ;
    Bruggisser, Odile T
    ;
    Aebi, Alexandre 
    ;
    Kehrli, Patrik
    ;
    Rohr RP, Rudolf
    ;
    Naisbit, Russel E
    ;
    Bersier, Louis-Felix
    Declining plant species richness in agro-ecosystems and thus reduced habitat quality can have cascading effects on ecosystem functioning, leading to reduced pollination and biological control. Here we test if plant diversity can affect arthropod diversity and abundance on a very small scale, manipulating plant species richness (2, 6, 12 and 20 sown species) in small adjacent subplots (63 9 m) in 10 wildflower strips in an agricultural landscape. We simultaneously analyzed the effect of plant species richness, vegetation structure, and plant composition on the species richness and abundance of cavity-nesting wild bees, wasps, their prey and natural enemies, and on the structure of their food webs. By separating the trap-nesting species into functional groups according to their prey, we aimed to understand the underlying patterns for the effects of plant diversity. Increasing plant species richness had a significant effect only on spider-predating wasps, the group of wasps trophically most distant from plants. In contrast, bees and food-web structure were unaffected by plant diversity. Spider-predating wasp abundance negatively correlated with the abundance of spiders, suggesting top-down control. Interestingly, the abundance of spiders was the only variable that was strongly affected by plant composition. The hypothesis that the effect of plant diversity decreases with increasing trophic level is not supported by our study, and the mobility of species appears to play a greater role at this small spatial scale.
  • Publication
    Métadonnées seulement
    Including community composition in biodiversity-productivity models
    (2014)
    Sandau, Nadine
    ;
    Rohr, Rudolf P.
    ;
    Naisbit, Russell E.
    ;
    Fabian, Yvonne
    ;
    Bruggisser, Odile T.
    ;
    Kehrli, Patrik
    ;
    Aebi, Alexandre 
    ;
    Bersier, Louis-Félix
  • Publication
    Accès libre
    The importance of landscape and spatial structure for hymenopteran-based food webs in an agro-ecosystem
    (2013-3-31)
    Fabian, Yvonne
    ;
    Sandau, Nadine
    ;
    Bruggisser, Odile T
    ;
    Aebi, Alexandre 
    ;
    Kehrli, Patrik
    ;
    Rohr, Rudolf P
    ;
    Naisbit, Russel E
    ;
    Bersier, Louis-Felix
    1. Understanding the environmental factors that structure biodiversity and food webs among communities is central to assess and mitigate the impact of landscape changes. 2. Wildflower strips are ecological compensation areas established in farmland to increase pollination services and biological control of crop pests and to conserve insect diversity. They are arranged in networks in order to favour high species richness and abundance of the fauna. 3. We describe results from experimental wildflower strips in a fragmented agricultural landscape, comparing the importance of landscape, of spatial arrangement and of vegetation on the diversity and abundance of trap-nesting bees, wasps and their enemies, and the structure of their food webs. 4. The proportion of forest cover close to the wildflower strips and the landscape heterogeneity stood out as the most influential landscape elements, resulting in a more complex trap-nest community with higher abundance and richness of hosts, and with more links between species in the food webs and a higher diversity of interactions. We disentangled the underlying mechanisms for variation in these quantitative food web metrics. 5. We conclude that in order to increase the diversity and abundance of pollinators and biological control agents and to favour a potentially stable community of cavity-nesting hymenoptera in wildflower strips, more investment is needed in the conservation and establishment of forest habitats within agro-ecosystems, as a reservoir of beneficial insect populations.
  • Publication
    Métadonnées seulement
    Diversity protects plant communities against generalist molluscan herbivores
    (2012)
    Fabian, Yvonne
    ;
    Sandau, Nadine
    ;
    Bruggisser, Odile T.
    ;
    Kehrli, Patrik
    ;
    Aebi, Alexandre 
    ;
    Rohr, Rudolf P.
    ;
    Naisbit, Russell E.
    ;
    Bersier, Louis-Félix