Martijn Callens
Katholieke Universiteit Leuven
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Publication
Featured researches published by Martijn Callens.
The ISME Journal | 2016
Martijn Callens; Emilie Macke; Koenraad Muylaert; Peter Bossier; Bart Lievens; Michael Waud; Ellen Decaestecker
The symbiotic gut microbial community is generally known to have a strong impact on the fitness of its host. Nevertheless, it is less clear how the impact of symbiotic interactions on the hosts’ fitness varies according to environmental circumstances such as changes in the diet. This study aims to get a better understanding of host–microbiota interactions under different levels of food availability. We conducted experiments with the invertebrate, experimental model organism Daphnia magna and compared growth, survival and reproduction of conventionalized symbiotic Daphnia with germ-free individuals given varying quantities of food. Our experiments revealed that the relative importance of the microbiota for the hosts’ fitness varied according to dietary conditions. The presence of the microbiota had strong positive effects on Daphnia when food was sufficient or abundant, but had weaker effects under food limitation. Our results indicate that the microbiota can be a potentially important factor in determining host responses to changes in dietary conditions. Characterization of the host-associated microbiota further showed that Aeromonas sp. was the most prevalent taxon in the digestive tract of Daphnia.
Nature Communications | 2017
Emilie Macke; Martijn Callens; Luc De Meester; Ellen Decaestecker
The gut microbiota impacts many aspects of its host’s biology, and is increasingly considered as a key factor mediating performance of host individuals in continuously changing environments. Here we use gut microbiota transplants to show that both host genotype and gut microbiota mediate tolerance to toxic cyanobacteria in the freshwater crustacean Daphnia magna. Interclonal variation in tolerance to cyanobacteria disappears when Daphnia are made germ-free and inoculated with an identical microbial inoculum. Instead, variation in tolerance among recipient Daphnia mirrors that of the microbiota donors. Metagenetic analyses point to host genotype and external microbial source as important determinants of gut microbiota assembly, and reveal strong differences in gut microbiota composition between tolerant and susceptible genotypes. Together, these results show that both environmentally and host genotype-induced variations in gut microbiota structure mediate Daphnia tolerance to toxic cyanobacteria, pointing to the gut microbiota as a driver of adaptation and acclimatization to cyanobacterial harmful algal blooms in zooplankton.Variations in the gut microbiota may affect the host’s performance in changing environments. Here, Macke et al. show, in the freshwater crustacean Daphnia magna, that host genotype and external microbial inoculum interact to shape the gut microbiota, which in turns mediates tolerance to toxic cyanobacteria.
Mbio | 2018
Martijn Callens; Hajime Watanabe; Yasuhiko Kato; Jun Miura; Ellen Decaestecker
BackgroundHost-associated microbiota is often acquired by horizontal transmission of microbes present in the environment. It is hypothesized that differences in the environmental pool of colonizers can influence microbiota community assembly on the host and as such affect holobiont composition and host fitness. To investigate this hypothesis, the host-associated microbiota of the invertebrate eco(toxico)logical model Daphnia was experimentally disturbed using different concentrations of the antibiotic oxytetracycline. The community assembly and host-microbiota interactions when Daphnia were colonized by the disturbed microbiota were investigated by inoculating germ-free individuals with the microbiota.ResultsAntibiotic-induced disturbance of the microbiota had a strong effect on the subsequent colonization of Daphnia by affecting ecological interactions between members of the microbiota. This resulted in differences in community assembly which, in turn, affected Daphnia growth.ConclusionsThese results show that the composition of the pool of colonizing microbiota can be an important structuring factor of the microbiota assembly on Daphnia, affecting holobiont composition and host growth. These findings contribute to a better understanding of how the microbial environment can shape the holobiont composition and affect host-microbiota interactions.
Oikos | 2017
Emilie Macke; Aurélie Tasiemski; François Massol; Martijn Callens; Ellen Decaestecker
Archive | 2016
Emilie Macke; Martijn Callens; Luc De Meester; Koenraad Muylaert; Ellen Decaestecker
Archive | 2015
Emilie Macke; Martijn Callens; Luc De Meester; Koenraad Muylaert; Ellen Decaestecker
Archive | 2014
Marlies Coopman; Koenraad Muylaert; Martijn Callens; Silke Van Den Wyngaert; Isabel Vanoverberghe; Joke Hollants; Anne Willems; Ellen Decaestecker
Archive | 2014
Emilie Macke; Martijn Callens; Ellen Decaestecker
Archive | 2014
Maarten Fauvart; Martijn Callens; Serge Beullens; Jan Michiels; Ellen Decaestecker
Archive | 2014
Martijn Callens; Emilie Macke; Koenraad Muylaert; Peter Bossier; Ellen Decaestecker