Your search keyword '"Jacob, Staffan"' showing total 143 results

1. The phenotypic and demographic response to the combination of copper and thermal stressors strongly varies within the ciliate species, Tetrahymena thermophila.

Author

Koné, Doufoungognon Carine Estelle, Jacob, Staffan, Huet, Michèle, Philippe, Hervé, and Legrand, Delphine

Subjects

*COPPER, *PHENOTYPIC plasticity, *THERMAL strain, *TEMPERATURE effect, *POLLUTANTS

Abstract

Copper pollution can alter biological and trophic functions. Organisms can utilise different tolerance strategies, including accumulation mechanisms (intracellular vacuoles, external chelation, etc.) to maintain themselves in copper‐polluted environments. Accumulation mechanisms can influence the expression of other phenotypic traits, allowing organisms to deal with copper stress. Whether copper effects on accumulation strategies interact with other environmental stressors such as temperature and how this may differ within species are still unsolved questions. Here, we tested experimentally whether the combined effect of copper and temperature modulates traits linked to demography, morphology, movement and accumulation in six strains of the ciliate Tetrahymena thermophila. We also explored whether copper accumulation might modulate environmental copper concentration effects on phenotypic and demographic traits. Results showed high intraspecific variability in the phenotypic and demographic response to copper, with interactive effects between temperature and copper. In addition, they suggested an attenuation effect of copper accumulation on the sensitivity of traits to copper, but with great variation between strains, temperatures and copper concentrations. Diversity of responses among strains and their thermal dependencies pleads for the integration of intraspecific variability and multiple stressors approaches in ecotoxicological studies, thus improving the reliability of assessments of the effects of pollutants on biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

2. Fragmentation mediates thermal habitat choice in ciliate microcosms

Author

Laurent, Estelle, Schtickzelle, Nicolas, and Jacob, Staffan

Published

2020

3. Plastic cell morphology changes during dispersal

Author

Junker, Anthony D., Jacob, Staffan, Philippe, Hervé, Legrand, Delphine, and Pearson, Chad G.

Published

2021

4. The interplay between abiotic and biotic factors in dispersal decisions in metacommunities.

Author

Thierry, Mélanie, Cote, Julien, Bestion, Elvire, Legrand, Delphine, Clobert, Jean, and Jacob, Staffan

Subjects

ECOLOGICAL niche, PHENOTYPES, CILIATA, DENSITY, SPECIES

Abstract

Suitable conditions for species to survive and reproduce constitute their ecological niche, which is built by abiotic conditions and interactions with conspecifics and heterospecifics. Organisms should ideally assess and use information about all these environmental dimensions to adjust their dispersal decisions depending on their own internal conditions. Dispersal plasticity is often considered through its dependence on abiotic conditions or conspecific density and, to a lesser extent, with reference to the effects of interactions with heterospecifics, potentially leading to misinterpretation of dispersal drivers. Here, we first review the evidence for the effects of and the potential interplays between abiotic factors, biotic interactions with conspecifics and heterospecifics and phenotype on dispersal decisions. We then present an experimental test of these potential interplays, investigating the effects of density and interactions with conspecifics and heterospecifics on temperature-dependent dispersal in microcosms of Tetrahymena ciliates. We found significant differences in dispersal rates depending on the temperature, density and presence of another strain or species. However, the presence and density of conspecifics and heterospecifics had no effects on the thermal-dependency of dispersal. We discuss the causes and consequences of the (lack of) interplay between the different environmental dimensions and the phenotype for metacommunity assembly and dynamics. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

5. Species interactions affect dispersal: a meta-analysis.

Author

Bestion, Elvire, Legrand, Delphine, Baines, Celina B., Bonte, Dries, Coulon, Aurelie, Dahirel, Maxime, Delgado, María, Deshpande, Jhelam N., Duncan, Alison B., Fronhofer, Emanuel A., Gounand, Isabelle, Jacob, Staffan, Kaltz, Oliver, Massol, François, Mathyssen, Erik, Parmentier, Thomas, Saade, Camille, Schtickzelle, Nicolas, Zilio, Giacomo, and Cote, Julien

Subjects

BIOTIC communities, PROTISTA, SPECIES, EMIGRATION & immigration, ARTHROPODA

Abstract

Context-dependent dispersal allows organisms to seek and settle in habitats improving their fitness. Despite the importance of species interactions in determining fitness, a quantitative synthesis of how they affect dispersal is lacking. We present a meta-analysis asking (i) whether the interaction experienced and/or perceived by a focal species (detrimental interaction with predators, competitors, parasites or beneficial interaction with resources, hosts, mutualists) affects its dispersal; and (ii) how the species' ecological and biological background affects the direction and strength of this interaction-dependent dispersal. After a systematic search focusing on actively dispersing species, we extracted 397 effect sizes from 118 empirical studies encompassing 221 species pairs; arthropods were best represented, followed by vertebrates, protists and others. Detrimental species interactions increased the focal species' dispersal (adjusted effect: 0.33 [0.06, 0.60]), while beneficial interactions decreased it (−0.55 [−0.92, −0.17]). The effect depended on the dispersal phase, with detrimental interactors having opposite impacts on emigration and transience. Interaction-dependent dispersal was negatively related to species' interaction strength, and depended on the global community composition, with cues of presence having stronger effects than the presence of the interactor and the ecological complexity of the community. Our work demonstrates the importance of interspecific interactions on dispersal plasticity, with consequences for metacommunity dynamics. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

6. Phenotypic plasticity and the effects of thermal fluctuations on specialists and generalists.

Author

Jacob, Staffan, Dupont, Léonard, Haegeman, Bart, Thierry, Mélanie, Campana, Julie L. M., Legrand, Delphine, Cote, Julien, and Raffard, Allan

Subjects

*PHENOTYPIC plasticity, *ACCLIMATIZATION, *CILIATA, *MATHEMATICAL models, *PLASTICS, *TETRAHYMENA

Abstract

Classical theories predict that relatively constant environments should generally favour specialists, while fluctuating environments should be selected for generalists. However, theoretical and empirical results have pointed out that generalist organisms might, on the contrary, perform poorly under fluctuations. In particular, if generalism is underlaid by phenotypic plasticity, performance of generalists should be modulated by the temporal characteristics of environmental fluctuations. Here, we used experiments in microcosms of Tetrahymena thermophila ciliates and a mathematical model to test whether the period or autocorrelation of thermal fluctuations mediate links between the level of generalism and the performance of organisms under fluctuations. In the experiment, thermal fluctuations consistently impeded performance compared with constant conditions. However, the intensity of this effect depended on the level of generalism: while the more specialist strains performed better under fast or negatively autocorrelated fluctuations, plastic generalists performed better under slow or positively autocorrelated fluctuations. Our model suggests that these effects of fluctuations on organisms' performance may result from a time delay in the expression of plasticity, restricting its benefits to slow enough fluctuations. This study points out the need to further investigate the temporal dynamics of phenotypic plasticity to better predict its fitness consequences under environmental fluctuations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Altered trophic interactions in warming climates : consequences for predator diet breadth and fitness

Author

Bestion, Elvire, Soriano-Redondo, Andrea, Cucherousset, Julien, Jacob, Staffan, White, Joël, Zinger, Lucie, Fourtune, Lisa, Di Gesu, Lucie, Teyssier, Aimeric, and Cote, Julien

Published

2019

8. Warming effects on lizard gut microbiome depend on habitat connectivity.

Author

Fromm, Emma, Zinger, Lucie, Pellerin, Félix, Di Gesu, Lucie, Jacob, Staffan, Winandy, Laurane, Aguilée, Robin, Parthuisot, Nathalie, Iribar, Amaia, White, Joël, Bestion, Elvire, and Cote, Julien

Subjects

GLOBAL warming, VIVIPAROUS lizard, FRAGMENTED landscapes, GUT microbiome, BACTERIAL communities

Abstract

Climate warming and landscape fragmentation are both factors well known to threaten biodiversity and to generate species responses and adaptation. However, the impact of warming and fragmentation interplay on organismal responses remains largely under-explored, especially when it comes to gut symbionts, which may play a key role in essential host functions and traits by extending its functional and genetic repertoire. Here, we experimentally examined the combined effects of climate warming and habitat connectivity on the gut bacterial communities of the common lizard (Zootoca vivipara) over three years. While the strength of effects varied over the years, we found that a 2°C warmer climate decreases lizard gut microbiome diversity in isolated habitats. However, enabling connectivity among habitats with warmer and cooler climates offset or even reversed warming effects. The warming effects and the association between host dispersal behaviour and microbiome diversity appear to be a potential driver of this interplay. This study suggests that preserving habitat connectivity will play a key role in mitigating climate change impacts, including the diversity of the gut microbiome, and calls for more studies combining multiple anthropogenic stressors when predicting the persistence of species and communities through global changes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Demography and movement patterns of a freshwater ciliate: The influence of oxygen availability.

Author

Brans, Victor, Manzi, Florent, Jacob, Staffan, and Schtickzelle, Nicolas

Subjects

TETRAHYMENA, FRESH water, FRESHWATER habitats, AEROBIC bacteria, OXYGEN, DEMOGRAPHY

Abstract

In freshwater habitats, aerobic animals and microorganisms can react to oxygen deprivation by a series of behavioural and physiological changes, either as a direct consequence of hindered performance or as adaptive responses towards hypoxic conditions. Since oxygen availability can vary throughout the water column, different strategies exist to avoid hypoxia, including that of active 'flight' from low‐oxygen sites. Alternatively, some organisms may invest in slower movement, saving energy until conditions return to more favourable levels, which may be described as a 'sit‐and‐wait' strategy. Here, we aimed to determine which, if any, of these strategies could be used by the freshwater ciliate Tetrahymena thermophila when faced with decreasing levels of oxygen availability in the culture medium. We manipulated oxygen flux into clonal cultures of six strains (i.e. genotypes) and followed their growth kinetics for several weeks using automated image analysis, allowing to precisely quantify changes in density, morphology and movement patterns. Oxygen effects on demography and morphology were comparable across strains: reducing oxygen flux decreased the growth rate and maximal density of experimental cultures, while greatly expanding the duration of their stationary phase. Cells sampled during their exponential growth phase were larger and had a more elongated shape under hypoxic conditions, likely mirroring a shift in resource investment towards individual development rather than frequent divisions. In addition to these general patterns, we found evidence for intraspecific variability in movement responses to oxygen limitation. Some strains showed a reduction in swimming speed, potentially associated with a 'sit‐and‐wait' strategy; however, the frequent alteration of movement paths towards more linear trajectories also suggests the existence of an inducible 'flight response' in this species. Considering the inherent costs of turns associated with non‐linear movement, such a strategy may allow ciliates to escape suboptimal environments at a low energetic cost. [ABSTRACT FROM AUTHOR]

Published

2024

10. Habitat choice meets thermal specialization : Competition with specialists may drive suboptimal habitat preferences in generalists

Author

Jacob, Staffan, Laurent, Estelle, Haegeman, Bart, Bertrand, Romain, Prunier, Jérôme G., Legrand, Delphine, Cote, Julien, Chaine, Alexis S., Loreau, Michel, Clobert, Jean, and Schtickzell, Nicolas

Published

2018

11. Cooperation-mediated plasticity in dispersal and colonization

Author

Jacob, Staffan, Wehi, Priscilla, Clobert, Jean, Legrand, Delphine, Schtickzelle, Nicolas, Huet, Michele, and Chaine, Alexis

Published

2016

12. Microbiome affects egg carotenoid investment, nestling development and adult oxidative costs of reproduction in Great tits

Author

Jacob, Staffan, Parthuisot, Nathalie, Vallat, Armelle, Ramon-Portugal, Felipe, Helfenstein, Fabrice, and Heeb, Philipp

Published

2015

13. Dispersal syndromes in challenging environments: A cross‐species experiment

Author

Cote, Julien, primary, Dahirel, Maxime, additional, Schtickzelle, Nicolas, additional, Altermatt, Florian, additional, Ansart, Armelle, additional, Blanchet, Simon, additional, Chaine, Alexis S., additional, De Laender, Frederik, additional, De Raedt, Jonathan, additional, Haegeman, Bart, additional, Jacob, Staffan, additional, Kaltz, Oliver, additional, Laurent, Estelle, additional, Little, Chelsea J., additional, Madec, Luc, additional, Manzi, Florent, additional, Masier, Stefano, additional, Pellerin, Felix, additional, Pennekamp, Frank, additional, Therry, Lieven, additional, Vong, Alexandre, additional, Winandy, Laurane, additional, Bonte, Dries, additional, Fronhofer, Emanuel A., additional, and Legrand, Delphine, additional

Published

2022

14. Dispersal plasticity driven by variation in fitness across species and environmental gradients

Author

Campana, Julie L. M., primary, Raffard, Allan, additional, Chaine, Alexis S., additional, Huet, Michèle, additional, Legrand, Delphine, additional, and Jacob, Staffan, additional

Published

2022

15. Transgenerational plasticity of dispersal‐related traits in a ciliate: genotype‐dependency and fitness consequences

Author

UCL - SST/ELI/ELIB - Biodiversity, Cayuela, Hugo, Jacob, Staffan, Schtickzelle, Nicolas, Verdonck, Rik, Philippe, Hervé, Laporte, Martin, Huet, Michèle, Bernatchez, Louis, Legrand, Delphine, UCL - SST/ELI/ELIB - Biodiversity, Cayuela, Hugo, Jacob, Staffan, Schtickzelle, Nicolas, Verdonck, Rik, Philippe, Hervé, Laporte, Martin, Huet, Michèle, Bernatchez, Louis, and Legrand, Delphine

Abstract

Phenotypic plasticity, the ability of one genotype to produce different phenotypes in different environments, plays a central role in species' response to environmental changes. Transgenerational plasticity (TGP) allows the transmission of this environmentally-induced phenotypic variation across generations, and can influence adaptation. To date, the genetic control of TGP, its long-term stability, and its potential costs remain largely unknown, mostly because empirical demonstrations of TGP across many generations in several genetic backgrounds are scarce. Here, we examined how genotype determines the TGP of phenotypic traits related to dispersal, a fundamental process in ecology and evolution. We used an experimental approach in Tetrahymena thermophila, a ciliate model-species, to determine if and how phenotypic changes expressed following a dispersal treatment are inherited over multiple generations. Our results show that morphological and movement traits associated with dispersal are plastic, and that these modifications are inherited over at least 35 generations. The fitness costs and benefits associated with these plastic changes are also transmitted to further generations. We highlight that the genotype modulates the expression and reversibility of transgenerational plasticity of dispersal-related traits and its fitness outcomes. Our study thus suggests that genotype-dependent TGP could play an important role in eco-evolutionary dynamics as dispersal determines gene flow and the long-term persistence of natural populations.

Published

2022

16. Dispersal syndromes can link intraspecific trait variability and meta-ecosystem functioning

Author

UCL - SST/ELI/ELIB - Biodiversity, Raffard, Allan, Bestion, Elvire, Cote, Julien, Haegeman, Bart, Schtickzelle, Nicolas, Jacob, Staffan, UCL - SST/ELI/ELIB - Biodiversity, Raffard, Allan, Bestion, Elvire, Cote, Julien, Haegeman, Bart, Schtickzelle, Nicolas, and Jacob, Staffan

Abstract

Dispersal is a key process for the dynamics and functioning of meta-communities and meta-ecosystems. Meta-ecosystem theory, however, does not fully integrate the possible effects of dispersal, largely assuming random diffusion of organisms and nutrients, contrasting with rising empirical evidence for intraspecific variability in dispersal strategies. Dispersal is often associated with a suite of phenotypic traits, forming dispersal syndromes. Since phenotypic variability is now acknowledged as a key factor mediating ecosystem dynamics, we argue that dispersal syndromes can link trait-based ecology and meta-ecosystem functioning together. We highlight that the dispersal of individuals can be associated with functional effect traits and can therefore alter trophic and nutrient-mediated interactions in ecosystems. We illustrate how the association between dispersal tendency and functional traits can modify the spatial heterogeneity of ecosystems.

Published

2022

17. Dispersal syndromes in challenging environments: A cross‐species experiment

Author

UCL - SST/ELI/ELIB - Biodiversity, Cote, Julien, Dahirel, Maxime, Schtickzelle, Nicolas, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon, Chaine, Alexis S., De Laender, Frederik, De Raedt, Jonathan, Haegeman, Bart, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J., Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Bonte, Dries, Fronhofer, Emanuel A., Legrand, Delphine, UCL - SST/ELI/ELIB - Biodiversity, Cote, Julien, Dahirel, Maxime, Schtickzelle, Nicolas, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon, Chaine, Alexis S., De Laender, Frederik, De Raedt, Jonathan, Haegeman, Bart, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J., Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Bonte, Dries, Fronhofer, Emanuel A., and Legrand, Delphine

Abstract

Dispersal is a central biological process tightly integrated into life-histories, morphology, physiology and behaviour. Such associations, or syndromes, are anticipated to impact the eco-evolutionary dynamics of spatially structured populations, and cascade into ecosystem processes. As for dispersal on its own, these syndromes are likely neither fixed nor random, but conditional on the experienced environment. We experimentally studied how dispersal propensity varies with individuals' phenotype and local environmental harshness using 15 species ranging from protists to vertebrates. We reveal a general phenotypic dispersal syndrome across studied species, with dispersers being larger, more active and having a marked locomotion-oriented morphology and a strengthening of the link between dispersal and some phenotypic traits with environmental harshness. Our proof-of-concept metacommunity model further reveals cascading effects of context-dependent syndromes on the local and regional organisation of functional diversity. Our study opens new avenues to advance our understanding of the functioning of spatially structured populations, communities and ecosystems.

Published

2022

18. Resident-disperser differences and genetic variability affect communities in microcosms

Author

UCL - SST/ELI/ELIB - Biodiversity, Raffard, Allan, Campana, Julie L. M., Legrand, Delphine, Schtickzelle, Nicolas, Jacob, Staffan, UCL - SST/ELI/ELIB - Biodiversity, Raffard, Allan, Campana, Julie L. M., Legrand, Delphine, Schtickzelle, Nicolas, and Jacob, Staffan

Abstract

Resident-disperser differences and genetic variability affect communities in microcosms

Published

2022

19. Dispersal syndromes in challenging environments: A cross‐species experiment

Author

Cote, Julien; https://orcid.org/0000-0002-4453-5969, Dahirel, Maxime, Schtickzelle, Nicolas, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon; https://orcid.org/0000-0002-3843-589X, Chaine, Alexis S, De Laender, Frederik; https://orcid.org/0000-0002-4060-973X, De Raedt, Jonathan, Haegeman, Bart, Jacob, Staffan; https://orcid.org/0000-0003-1956-9646, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J, Madec, Luc, Manzi, Florent, Masier, Stefano; https://orcid.org/0000-0002-5866-0066, Pellerin, Felix; https://orcid.org/0000-0002-7062-4957, Pennekamp, Frank, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Bonte, Dries; https://orcid.org/0000-0002-3320-7505, Fronhofer, Emanuel A, Legrand, Delphine, Cote, Julien; https://orcid.org/0000-0002-4453-5969, Dahirel, Maxime, Schtickzelle, Nicolas, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon; https://orcid.org/0000-0002-3843-589X, Chaine, Alexis S, De Laender, Frederik; https://orcid.org/0000-0002-4060-973X, De Raedt, Jonathan, Haegeman, Bart, Jacob, Staffan; https://orcid.org/0000-0003-1956-9646, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J, Madec, Luc, Manzi, Florent, Masier, Stefano; https://orcid.org/0000-0002-5866-0066, Pellerin, Felix; https://orcid.org/0000-0002-7062-4957, Pennekamp, Frank, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Bonte, Dries; https://orcid.org/0000-0002-3320-7505, Fronhofer, Emanuel A, and Legrand, Delphine

Abstract

Dispersal is a central biological process tightly integrated into life-histories, morphology, physiology and behaviour. Such associations, or syndromes, are anticipated to impact the eco-evolutionary dynamics of spatially structured populations, and cascade into ecosystem processes. As for dispersal on its own, these syndromes are likely neither fixed nor random, but conditional on the experienced environment. We experimentally studied how dispersal propensity varies with individuals' phenotype and local environmental harshness using 15 species ranging from protists to vertebrates. We reveal a general phenotypic dispersal syndrome across studied species, with dispersers being larger, more active and having a marked locomotion-oriented morphology and a strengthening of the link between dispersal and some phenotypic traits with environmental harshness. Our proof-of-concept metacommunity model further reveals cascading effects of context-dependent syndromes on the local and regional organisation of functional diversity. Our study opens new avenues to advance our understanding of the functioning of spatially structured populations, communities and ecosystems. Keywords: context-dependent dispersal; dispersal strategy; distributed experiment; predation risk; resource limitation

Published

2022

20. Evolution of dispersal strategies and dispersal syndromes in fragmented landscapes

Author

Cote, Julien, Bestion, Elvire, Jacob, Staffan, Travis, Justin, Legrand, Delphine, and Baguette, Michel

Published

2017

21. Habitat matching and spatial heterogeneity of phenotypes: implications for metapopulation and metacommunity functioning

Author

Jacob, Staffan, Bestion, Elvire, Legrand, Delphine, Clobert, Jean, and Cote, Julien

Published

2015

22. Phenotypic plasticity can reverse the relative extent of intra- and interspecific variability across a thermal gradient

Author

Jacob, Staffan, primary and Legrand, Delphine, additional

Published

2021

23. Supplementary material from Phenotypic plasticity can reverse the relative extent of intra- and interspecific variability across a thermal gradient

Author

Jacob, Staffan and Legrand, Delphine

Abstract

Supplementary Table 1 and Figure 1

Published

2021

24. Maternal and personal information mediates the use of social cues about predation risk

Author

Fondation Fyssen, Agence Nationale de la Recherche (France), Winandy, Laurane, Di Gesu, Lucie, Lemoine, Marion, Jacob, Staffan, Martín Rueda, José, Ducamp, Christine, Huet, Michèle, Legrand, Delphine, Cote, Julien, Fondation Fyssen, Agence Nationale de la Recherche (France), Winandy, Laurane, Di Gesu, Lucie, Lemoine, Marion, Jacob, Staffan, Martín Rueda, José, Ducamp, Christine, Huet, Michèle, Legrand, Delphine, and Cote, Julien

Abstract

Organisms can gain information about predation risks from their parents, their own personal experience, and their conspecifics and adjust their behavior to alleviate these risks. These different sources of information can, however, provide conflicting information due to spatial and temporal variation of the environment. This raises the question of how these cues are integrated to produce adaptive antipredator behavior. We investigated how common lizards (Zootoca vivipara) adjust the use of conspecific cues about predation risk depending on whether the information is maternally or personally acquired. We experimentally manipulated the presence of predator scent in gestating mothers and their offspring in a full-crossed design. We then tested the consequences for social information use by monitoring offspring social response to conspecifics previously exposed to predator cues or not. Lizards were more attracted to the scent of conspecifics having experienced predation cues when they had themselves no personal information about predation risk. In contrast, they were more repulsed by conspecific scent when they had personally obtained information about predation risk. However, the addition of maternal information about predation risk canceled out this interactive effect between personal and social information: lizards were slightly more attracted to conspecific scent when these two sources of information about predation risk were in agreement. A chemical analysis of lizard scent revealed that exposure to predator cues modified the chemical composition of lizard scents, a change that might underlie lizards’ use of social information. Our results highlight the importance of considering multiple sources of information while studying antipredator defenses.

Published

2021

25. Maternal and personal information mediates the use of social cues about predation risk

Author

Winandy, Laurane, primary, Di Gesu, Lucie, additional, Lemoine, Marion, additional, Jacob, Staffan, additional, Martin, José, additional, Ducamp, Christine, additional, Huet, Michèle, additional, Legrand, Delphine, additional, and Cote, Julien, additional

Published

2021

26. Supplementary material for: Fragmentation mediates habitat choice from Fragmentation mediates thermal habitat choice in ciliate microcosms

Author

Laurent, Estelle, Schtickzelle, Nicolas, and Jacob, Staffan

Abstract

Correlation between habitat preferences at emigration and immigration, in (a) standard and (b) fragmented conditions. Each dot represents one genotype, and SE of estimated habitat choice values are illustrated by error bars (Table 1). The black dashed line illustrates the hypothesis where habitat choice at emigration and immigration are perfectly correlated.

Published

2020

27. Interaction of climate change with effects of conspecific and heterospecific density on reproduction

Author

Møller, Anders Pape, Balbontín, Javier, Dhondt, André A., Adriaensen, Frank, Artemyev, Alexandr, Bańbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charter, Motti, Cichoń, Mariusz, Cusimano, Camillo, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Ferns, Peter N., Forsman, Jukka T., Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Jacob, Staffan, Järvinen, Antero, Juškaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Matthysen, Erik, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Nager, Ruedi G., Nilsson, Jan-Åke, Nilsson, Sven G., Norte, Ana C., von Numers, Mikael, Orell, Markku, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Remeš, Vladimir, Richner, Heinz, Robles Díez, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., da Silva, Luís P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, János, Tryjanowski, Piotr, van Noordwijk, Arie J., Walankiewicz, Wiesław, Lambrechts, Marcel M., Moller, Anders Pape, Balbontin, Javier, Dhondt, Andre A., Banbura, Jerzy, Cichon, Mariusz, Jarvinen, Antero, Juskaitis, Rimvydas, Korpimaki, Erkki, Mand, Raivo, Monkkonen, Mikko, Nilsson, Jan-ake, Remes, Vladimir, Rytkonen, Seppo, Seppanen, Janne T., da Silva, Luis P., Torok, Janos, Walankiewicz, Wieslaw, Helsinki Institute of Sustainability Science (HELSUS), Organismal and Evolutionary Biology Research Programme, Kilpisjärvi Biological Station, Ecologie Systématique et Evolution (ESE), AgroParisTech-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Universidad de Sevilla / University of Sevilla, Cornell University [New York], University of Antwerp (UA), Russian Academy of Sciences [Moscow] (RAS), University of Lódź, Cavanilles Institute of Biodiversity and Evolutionary Biology, University of Valencia, Institut d'écologie et des sciences de l'environnement de Paris (iEES Paris ), Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Unité de recherche Plantes et Systèmes de Culture Horticoles (PSH), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Centre de Ciència i Tecnologia Forestal de Catalunya (CTFC), University of Haifa [Haifa], Uniwersytet Jagielloński w Krakowie = Jagiellonian University (UJ), Stazione Ornitologica di Palermo, Polish Academy of Sciences (PAN), Université de Lyon, University of Turku, School of Biosciences [Cardiff], Cardiff University, University of Oulu, Tel Aviv University (TAU), University of Gloucestershire (Cheltenham, GB), Edward Grey Institute, Department of Zoology, University of Oxford, Uppsala University, Lancaster University, Evolution et Diversité Biologique (EDB), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS), Centre for Ecology and Hydrology [Wallingford] (CEH), Natural Environment Research Council (NERC), Station d'écologie théorique et expérimentale (SETE), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Observatoire Midi-Pyrénées (OMP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS), Helsingin yliopisto = Helsingfors universitet = University of Helsinki, Nature Research Centre, Institute of Ecology, Akademijos str. 2, LT-08412, Vilnius, Lithuania., University of Tartu, University of Montana, Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Uniwersytet Wroclawski, University of Jyväskylä (JYU), University of Glasgow, Lund University [Lund], Marine and Environmental Sciences Centre (MARE UC), Universidade de Coimbra [Coimbra], Åbo Akademi University [Turku], Université de Lisbonne, Latvian Fund for Nature, Palacky University Olomouc, University of Bern, University of A Coruña (UDC), Museu de Ciències Naturals de Barcelona, Universidade do Porto = University of Porto, University of Oslo (UiO), Luontotutkimus Solonen Oy, SROPU, University of Sussex, Eötvös Loránd University (ELTE), Poznan University of Life Sciences (Uniwersytet Przyrodniczy w Poznaniu) (PULS), Netherlands Institute of Ecology - NIOO-KNAW (NETHERLANDS), IB KRC RAS no. 0218-2019-0080, Academy of Finland (project 265859), Ministry of Economy and Competitivity, Spanish Research Council: research project CGL-2016-79568-C3-3-P, ANR-10-LABX-0041,TULIP,Towards a Unified theory of biotic Interactions: the roLe of environmental(2010), Animal Ecology (AnE), Ministry of Education Key Laboratory for Biodiversity Science and Ecological Engineering, College of Life Sciences, Beijing Normal University, Beijing 100875, Universidad de Sevilla, Cavanilles Institute of Biodiversity and Evolutionary Biology, Terrestrial Vertebrates Group, Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université Paul-Valéry - Montpellier 3 (UPVM)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Tel Aviv University [Tel Aviv], University of Oxford [Oxford], Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD), University of Helsinki, Universidade do Porto, Russian Academy of Sciences, Academy of Finland, Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Université Paul-Valéry - Montpellier 3 (UPVM)-École pratique des hautes études (EPHE), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS)

Subjects

BREEDING SUCCESS, 0106 biological sciences, Avian clutch size, clutch size, Q1, 01 natural sciences, DEPENDENCE, Parus major, sinitiainen, POPULATION, QL_671, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, education.field_of_study, GE, biology, Ecology, Blue tit, tiaiset, Cyanistes, blue tit, Plan_S-Compliant_NO, talitiainen, Spatial heterogeneity, Chemistry, great tit, international, 1181 Ecology, evolutionary biology, lämpötila, laying date, CLUTCH-SIZE, intraspecific competition, Population, HABITAT HETEROGENEITY, PARUS-MAJOR, 010603 evolutionary biology, Ecology and Environment, Intraspecific competition, temperature anomaly, muninta, QH301, BLUE, Cyanistes caeruleus, education, Biology, Ecology, Evolution, Behavior and Systematics, Interspecioc competition, FICEDULA, Parus, QL, pesintä, lisääntymiskäyttäytyminen, BIRDS, 010604 marine biology & hydrobiology, interspecific competition, Ficedula, Interspecific competition, ilmastonmuutokset, biology.organism_classification, 13. Climate action, GREAT TITS

Abstract

We studied the relationship between temperature and the coexistence of great tit Parus major and blue tit Cyanistes caeruleus, breeding in 75 study plots across Europe and North Africa. We expected an advance in laying date and a reduction in clutch size during warmer springs as a general response to climate warming and a delay in laying date and a reduction in clutch size during warmer winters due to density-dependent effects. As expected, as spring temperature increases laying date advances and as winter temperature increases clutch size is reduced in both species. Density of great tit affected the relationship between winter temperature and laying date in great and blue tit. Specifically, as density of great tit increased and temperature in winter increased both species started to reproduce later. Density of blue tit affected the relationship between spring temperature and blue and great tit laying date. Thus, both species start to reproduce earlier with increasing spring temperature as density of blue tit increases, which was not an expected outcome, since we expected that increasing spring temperature should advance laying date, while increasing density should delay it cancelling each other out. Climate warming and its interaction with density affects clutch size of great tits but not of blue tits. As predicted, great tit clutch size is reduced more with density of blue tits as temperature in winter increases. The relationship between spring temperature and density on clutch size of great tits depends on whether the increase is in density of great tit or blue tit. Therefore, an increase in temperature negatively affected the coexistence of blue and great tits differently in both species. Thus, blue tit clutch size was unaffected by the interaction effect of density with temperature, while great tit clutch size was affected in multiple ways by these interactions terms., A. Artemyev acknowledges funding by IB KRC RAS no. 0218-2019-0080 and T. Eeva acknowledges funding by the Academy of Finland (project 265859). This study was funded by research project CGL-2016-79568-C3-3-P (to J. C. Senar), from the Ministry of Economy and Competitivity, Spanish Research Council.

Published

2020

28. Interaction of climate change with effects of conspecific and heterospecific density on reproduction

Author

Pape Møller, Anders, Balbontín, Javier, Dhondt, André A., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Dubiec, Anna, Doligez, Blandine, Eens, Marcel, Eeva, Tapio, Ferns, Peter N., Forsman, Jukka T., Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Jacob, Staffan, Järvinen, Antero, Juskaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Matthysen, Erik, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Nager, Ruedi G., Nilsson, Jan-Åke, Nilsson, Sven G., Norte, Ana C., von Numers, Mikael, Orell, Markku, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., da Silva, Luis P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., Walankiewicz, Wieslaw, Lambrechts, Marcel M., Pape Møller, Anders, Balbontín, Javier, Dhondt, André A., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Dubiec, Anna, Doligez, Blandine, Eens, Marcel, Eeva, Tapio, Ferns, Peter N., Forsman, Jukka T., Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Jacob, Staffan, Järvinen, Antero, Juskaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Matthysen, Erik, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Nager, Ruedi G., Nilsson, Jan-Åke, Nilsson, Sven G., Norte, Ana C., von Numers, Mikael, Orell, Markku, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., da Silva, Luis P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., Walankiewicz, Wieslaw, and Lambrechts, Marcel M.

Abstract

We studied the relationship between temperature and the coexistence of great tit Parus major and blue tit Cyanistes caeruleus, breeding in 75 study plots across Europe and North Africa. We expected an advance in laying date and a reduction in clutch size during warmer springs as a general response to climate warming and a delay in laying date and a reduction in clutch size during warmer winters due to density‐dependent effects. As expected, as spring temperature increases laying date advances and as winter temperature increases clutch size is reduced in both species. Density of great tit affected the relationship between winter temperature and laying date in great and blue tit. Specifically, as density of great tit increased and temperature in winter increased both species started to reproduce later. Density of blue tit affected the relationship between spring temperature and blue and great tit laying date. Thus, both species start to reproduce earlier with increasing spring temperature as density of blue tit increases, which was not an expected outcome, since we expected that increasing spring temperature should advance laying date, while increasing density should delay it cancelling each other out. Climate warming and its interaction with density affects clutch size of great tits but not of blue tits. As predicted, great tit clutch size is reduced more with density of blue tits as temperature in winter increases. The relationship between spring temperature and density on clutch size of great tits depends on whether the increase is in density of great tit or blue tit. Therefore, an increase in temperature negatively affected the coexistence of blue and great tits differently in both species. Thus, blue tit clutch size was unaffected by the interaction effect of density with temperature, while great tit clutch size was affected in multiple ways by these interactions terms.

Published

2020

29. Interaction of climate change with effects of conspecific and heterospecific density on reproduction

Author

Russian Academy of Sciences, Academy of Finland, Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Møller, Anders Pape, Balbontín, Javier, Dhondt, André A., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francisco, Charter, Motti, Cichón, Mariusz, Cusimano, Camilo, Dubiec, Anna, Doligez, Blandine, Eens, Marcel, Eeva, Tapio, Ferns, Peter N., Forsman, Jukka T., Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelly A., Jacob, Staffan, Järvinen, Antero, Juškaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Matthysen, Erik, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Nager, Ruedi G., Nilsson, Jan-Åke, Nilsson, Sven G., Norte, Ana C., von Numers, Mikael, Orell, Markku, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., da Silva, Luís P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, János, Tryjanowski, Piotr, van Noordwijk, Arie J., Walankiewicz, Wiesław, Lambrechts, Marcel M., Russian Academy of Sciences, Academy of Finland, Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Møller, Anders Pape, Balbontín, Javier, Dhondt, André A., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francisco, Charter, Motti, Cichón, Mariusz, Cusimano, Camilo, Dubiec, Anna, Doligez, Blandine, Eens, Marcel, Eeva, Tapio, Ferns, Peter N., Forsman, Jukka T., Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelly A., Jacob, Staffan, Järvinen, Antero, Juškaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Matthysen, Erik, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Nager, Ruedi G., Nilsson, Jan-Åke, Nilsson, Sven G., Norte, Ana C., von Numers, Mikael, Orell, Markku, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., da Silva, Luís P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, János, Tryjanowski, Piotr, van Noordwijk, Arie J., Walankiewicz, Wiesław, and Lambrechts, Marcel M.

Abstract

We studied the relationship between temperature and the coexistence of great tit Parus major and blue tit Cyanistes caeruleus, breeding in 75 study plots across Europe and North Africa. We expected an advance in laying date and a reduction in clutch size during warmer springs as a general response to climate warming and a delay in laying date and a reduction in clutch size during warmer winters due to density-dependent effects. As expected, as spring temperature increases laying date advances and as winter temperature increases clutch size is reduced in both species. Density of great tit affected the relationship between winter temperature and laying date in great and blue tit. Specifically, as density of great tit increased and temperature in winter increased both species started to reproduce later. Density of blue tit affected the relationship between spring temperature and blue and great tit laying date. Thus, both species start to reproduce earlier with increasing spring temperature as density of blue tit increases, which was not an expected outcome, since we expected that increasing spring temperature should advance laying date, while increasing density should delay it cancelling each other out. Climate warming and its interaction with density affects clutch size of great tits but not of blue tits. As predicted, great tit clutch size is reduced more with density of blue tits as temperature in winter increases. The relationship between spring temperature and density on clutch size of great tits depends on whether the increase is in density of great tit or blue tit. Therefore, an increase in temperature negatively affected the coexistence of blue and great tits differently in both species. Thus, blue tit clutch size was unaffected by the interaction effect of density with temperature, while great tit clutch size was affected in multiple ways by these interactions terms.

Published

2020

30. Multimodal begging signals reflect independent indices of nestling condition in European starlings

Author

Jacob, Staffan, Rieucau, Guillaume, and Heeb, Philipp

Published

2011

31. Habitat choice stabilizes metapopulation dynamics through increased ecological specialisation

Author

Mortier, Frederik, Jacob, Staffan, Vandegehuchte, Martijn L., and Bonte, Dries

Subjects

education.field_of_study, Geography, Habitat, Environmental change, Mechanism (biology), Ecology, Population, Trait, Biological dispersal, Metapopulation, education, Local adaptation

Abstract

Dispersal is a key trait responsible for the spread of individuals and genes among local populations, thereby generating eco-evolutionary interactions. Especially in heterogeneous metapopulations, a tight coupling between dispersal, population dynamics and the evolution of local adaptation is expected. In this respect, current theory predicts dispersal to counteract ecological specialisation by redistributing locally selected phenotypes (i.e. migration load). However, in nature we observe that some specialists exhibit a strong dispersal capacity.Habitat choice following informed dispersal decisions, provides a possible mechanism for individuals to match the environment to their phenotype, thereby enabling the persistence of evolved ecological specialisation. How such informed decisions affect the evolution of dispersal and ecological specialisation and how these, in turn, influence metapopulation dynamics is yet to be determined.By means of individual-based modelling, we show that informed decisions on both departure and settlement decouples the evolution of dispersal and generalism, favouring highly dispersive specialists. Choice at settlement decouples dispersal from ecological specialisation most effectively. Additionally, habitat choice stabilizes local and metapopulation demography because of the maintenance of ecological specialisation at all levels of dispersal propensity.We advocate considering habitat choice in spatially structured ecological models to improve demographic predictions in the face of environmental change.

Published

2018

32. Effects of interspecific coexistence on laying date and clutch size in two closely related species of hole-nesting birds

Author

Moller, Anders Pape, Balbontin, Javier, Dhondt, Andre A., Remes, Vladimir, Adriaensen, Frank, Biard, Clotilde, Camprodon, Jordi, Cichon, Mariusz, Doligez, Blandine, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Heeb, Philipp, Hinsley, Shelley A., Jacob, Staffan, Juskaitis, Rimvydas, Laaksonen, Toni, Leclercq, Bernard, Massa, Bruno, Mazgajski, Tomasz D., Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Pinxten, Rianne, Robles, Hugo, Solonen, Tapio, Sorace, Alberto, van Noordwijk, Arie J., Lambrechts, Marcel M., Moller, Anders Pape, Balbontin, Javier, Dhondt, Andre A., Remes, Vladimir, Adriaensen, Frank, Biard, Clotilde, Camprodon, Jordi, Cichon, Mariusz, Doligez, Blandine, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Goodenough, Anne E., Gosler, Andrew G., Gustafsson, Lars, Heeb, Philipp, Hinsley, Shelley A., Jacob, Staffan, Juskaitis, Rimvydas, Laaksonen, Toni, Leclercq, Bernard, Massa, Bruno, Mazgajski, Tomasz D., Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Pinxten, Rianne, Robles, Hugo, Solonen, Tapio, Sorace, Alberto, van Noordwijk, Arie J., and Lambrechts, Marcel M.

Abstract

Coexistence between great tits Parus major and blue tits Cyanistes caeruleus, but also other hole-nesting taxa, constitutes a classic example of species co-occurrence resulting in potential interference and exploitation competition for food and for breeding and roosting sites. However, the spatial and temporal variations in coexistence and its consequences for competition remain poorly understood. We used an extensive database on reproduction in nest boxes by great and blue tits based on 87 study plots across Europe and Northern Africa during 1957-2012 for a total of 19,075 great tit and 16,729 blue tit clutches to assess correlative evidence for a relationship between laying date and clutch size, respectively, and density consistent with effects of intraspecific and interspecific competition. In an initial set of analyses, we statistically controlled for a suite of site-specific variables. We found evidence for an effect of intraspecific competition on blue tit laying date (later laying at higher density) and clutch size (smaller clutch size at higher density), but no evidence of significant effects of intraspecific competition in great tits, nor effects of interspecific competition for either species. To further control for site-specific variation caused by a range of potentially confounding variables, we compared means and variances in laying date and clutch size of great and blue tits among three categories of difference in density between the two species. We exploited the fact that means and variances are generally positively correlated. If interspecific competition occurs, we predicted a reduction in mean and an increase in variance in clutch size in great tit and blue tit when density of heterospecifics is higher than the density of conspecifics, and for intraspecific competition, this reduction would occur when density of conspecifics is higher than the density of heterospecifics. Such comparisons of temporal patterns of means and variances revealed evidence

Published

2018

33. Bottom-up and top-down control of dispersal across major organismal groups

Author

UCL - SST/ELI/ELIB - Biodiversity, Fronhofer, Emanuel A., Legrand, Delphine, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon, Bonte, Dries, Chaine, Alexis, Dahirel, Maxime, De Laender, Frederik, De Raedt, Jonathan, di Gesu, Lucie, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J., Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank, Schtickzelle, Nicolas, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Cote, Julien, UCL - SST/ELI/ELIB - Biodiversity, Fronhofer, Emanuel A., Legrand, Delphine, Altermatt, Florian, Ansart, Armelle, Blanchet, Simon, Bonte, Dries, Chaine, Alexis, Dahirel, Maxime, De Laender, Frederik, De Raedt, Jonathan, di Gesu, Lucie, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J., Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank, Schtickzelle, Nicolas, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, and Cote, Julien

Abstract

Ecology and evolution unfold in spatially structured communities, where dispersal links dynamics across scales. Because dispersal is multicausal, identifying general drivers remains challenging. In a coordinated distributed experiment spanning organisms from protozoa to vertebrates, we tested whether two fundamental determinants of local dynamics, top-down and bottom-up control, generally explain active dispersal. We show that both factors consistently increased emigration rates and use metacommunity modelling to highlight consequences on local and regional dynamics.

Published

2018

34. Habitat choice meets thermal specialization: Competition with specialists may drive suboptimal habitat preferences in generalists

Author

UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Laurent, Estelle, Haegeman, Bart, Bertrand, Romain, Prunier, Jérôme G., Legrand, Delphine, Cote, Julien, Chaine, Alexis S., Loreau, Michel, Clobert, Jean, Schtickzelle, Nicolas, UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Laurent, Estelle, Haegeman, Bart, Bertrand, Romain, Prunier, Jérôme G., Legrand, Delphine, Cote, Julien, Chaine, Alexis S., Loreau, Michel, Clobert, Jean, and Schtickzelle, Nicolas

Abstract

Limited dispersal is classically considered as a prerequisite for ecological specialization to evolve, such that generalists are expected to show greater dispersal propensity compared with specialists. However, when individuals choose habitats that maximize their performance instead of dispersing randomly, theory predicts dispersal with habitat choice to evolve in specialists, while generalists should disperse more randomly. We tested whether habitat choice is associated with thermal niche specialization using microcosms of the ciliate Tetrahymena thermophila, a species that performs active dispersal. We found that thermal specialists preferred optimal habitats as predicted by theory, a link that should make specialists more likely to track suitable conditions under environmental changes than expected under the random dispersal assumption. Surprisingly, generalists also performed habitat choice but with a preference for suboptimal habitats. Since this result challenges current theory, we developed a metapopulation model to understand under which circumstances such a preference for suboptimal habitats should evolve. We showed that competition between generalists and specialists may favor a preference for niche margins in generalists under environmental variability. Our results demonstrate that the behavioral dimension of dispersal—here, habitat choice—fundamentally alters our predictions of how dispersal evolve with niche specialization, making dispersal behaviors crucial for ecological forecasting facing environmental changes.

Published

2018

35. Bottom-up and top-down control of dispersal across major organismal groups

Author

Fronhofer, Emanuel A; https://orcid.org/0000-0002-2219-784X, Legrand, Delphine, Altermatt, Florian; https://orcid.org/0000-0002-4831-6958, Ansart, Armelle, Blanchet, Simon, Bonte, Dries; https://orcid.org/0000-0002-3320-7505, Chaine, Alexis, Dahirel, Maxime, De Laender, Frederik, De Raedt, Jonathan, di Gesu, Lucie, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J, Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank; https://orcid.org/0000-0003-0679-1045, Schtickzelle, Nicolas, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, Cote, Julien, Fronhofer, Emanuel A; https://orcid.org/0000-0002-2219-784X, Legrand, Delphine, Altermatt, Florian; https://orcid.org/0000-0002-4831-6958, Ansart, Armelle, Blanchet, Simon, Bonte, Dries; https://orcid.org/0000-0002-3320-7505, Chaine, Alexis, Dahirel, Maxime, De Laender, Frederik, De Raedt, Jonathan, di Gesu, Lucie, Jacob, Staffan, Kaltz, Oliver, Laurent, Estelle, Little, Chelsea J, Madec, Luc, Manzi, Florent, Masier, Stefano, Pellerin, Felix, Pennekamp, Frank; https://orcid.org/0000-0003-0679-1045, Schtickzelle, Nicolas, Therry, Lieven, Vong, Alexandre, Winandy, Laurane, and Cote, Julien

Abstract

Ecology and evolution unfold in spatially structured communities, where dispersal links dynamics across scales. Because dispersal is multicausal, identifying general drivers remains challenging. In a coordinated distributed experiment spanning organisms from protozoa to vertebrates, we tested whether two fundamental determinants of local dynamics, top-down and bottom-up control, generally explain active dispersal. We show that both factors consistently increased emigration rates and use metacommunity modelling to highlight consequences on local and regional dynamics.

Published

2018

36. Social odours covary with bacterial community in the anal secretions of wild meerkats

Author

Leclaire, Sarah, Jacob, Staffan, Greene, Lydia, Dubay, George, Drea, Christine, Station d'écologie théorique et expérimentale (SETE), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD), Duke University [Durham], Université de Toulouse (UT)-Université de Toulouse (UT)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), and Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS)

Subjects

Ecology, Science, [SDV.BA.ZV]Life Sciences [q-bio]/Animal biology/Vertebrate Zoology, Medicine, Animal behaviour, [SDV.EE.IEO]Life Sciences [q-bio]/Ecology, environment/Symbiosis

Abstract

International audience; The fermentation hypothesis for animal signalling posits that bacteria dwelling in an animal’s scent glands metabolize the glands’ primary products into odorous compounds used by the host to communicate with conspecifics. There is, however, little evidence of the predicted covariation between an animal’s olfactory cues and its glandular bacterial communities. Using gas chromatography-mass spectrometry, we first identified the volatile compounds present in ‘pure’ versus ‘mixed’ anal-gland secretions (‘paste’) of adult meerkats (Suricata suricatta) living in the wild. Low-molecular-weight chemicals that likely derive from bacterial metabolism were more prominent in mixed than pure secretions. Focusing thereafter on mixed secretions, we showed that chemical composition varied by sex and was more similar between members of the same group than between members of different groups. Subsequently, using next-generation sequencing, we identified the bacterial assemblages present in meerkat paste and documented relationships between these assemblages and the host’s sex, social status and group membership. Lastly, we found significant covariation between the volatile compounds and bacterial assemblages in meerkat paste, particularly in males. Together, these results are consistent with a role for bacteria in the production of sex- and group-specific scents, and with the evolution of mutualism between meerkats and their glandular microbiota.

Published

2017

37. Climate warming reduces gut microbiota diversity in a vertebrate ectotherm

Author

UCL - SST/ELI/ELIB - Biodiversity, Bestion, Elvire, Jacob, Staffan, Zinger, Lucie, Di Gesu, Lucie, Richard, Murielle, White, Joël, Cote, Julien, UCL - SST/ELI/ELIB - Biodiversity, Bestion, Elvire, Jacob, Staffan, Zinger, Lucie, Di Gesu, Lucie, Richard, Murielle, White, Joël, and Cote, Julien

Abstract

Climate change is now considered to be the greatest threat to biodiversity and ecological networks, but its impacts on the bacterial communities associated with plants and animals remain largely unknown. Here, we studied the consequences of climate warming on the gut bacterial communities of an ectotherm, the common lizard (Zootoca vivipara), using a semi-natural experimental approach. We found that 2–3 °C warmer climates cause a 34% loss of populations’ microbiota diversity, with possible negative consequences for host survival.

Published

2017

38. Prospection and dispersal : fragmentation limits habitat choice ability

Author

UCL - SST/ELI/ELIB - Biodiversity, Laurent, Estelle, Schtickzelle, Nicolas, Jacob, Staffan, the 2017 Congress of the European Society for Evolutionary Biology, UCL - SST/ELI/ELIB - Biodiversity, Laurent, Estelle, Schtickzelle, Nicolas, Jacob, Staffan, and the 2017 Congress of the European Society for Evolutionary Biology

Published

2017

39. Evolution of dispersal strategies and dispersal syndromes in fragmented landscapes

Author

Cote, Julien, primary, Bestion, Elvire, additional, Jacob, Staffan, additional, Travis, Justin, additional, Legrand, Delphine, additional, and Baguette, Michel, additional

Published

2016

40. Interspecific variation in the relationship between clutch size, laying date and intensity of urbanization in four species of hole-nesting birds

Author

Vaugoyeau, Marie, Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gregoire, Arnaud, Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Juskaitis, Rimvydas, Korpimaki, Erkki, Krams, Indrikis, Laaksonen, Toni, Lambrechts, Marcel M., Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mand, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Monkkonen, Mikko, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Perrins, Christopher M., Pimentel, Carla S., Pinxten, Rianne, Richner, Heinz, Robles, Hugo, Rytkonen, Seppo, Carlos Senar, Juan, Seppanen, Janne T., da Silva, Luis Pascoal, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Tryjanowski, Piotr, von Numers, Mikael, Walankiewicz, Wieslaw, Moller, Anders Pape, Vaugoyeau, Marie, Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gregoire, Arnaud, Gustafsson, Lars, Harnist, Iga, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Juskaitis, Rimvydas, Korpimaki, Erkki, Krams, Indrikis, Laaksonen, Toni, Lambrechts, Marcel M., Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mand, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Monkkonen, Mikko, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Perrins, Christopher M., Pimentel, Carla S., Pinxten, Rianne, Richner, Heinz, Robles, Hugo, Rytkonen, Seppo, Carlos Senar, Juan, Seppanen, Janne T., da Silva, Luis Pascoal, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Tryjanowski, Piotr, von Numers, Mikael, Walankiewicz, Wieslaw, and Moller, Anders Pape

Abstract

The increase in size of human populations in urban and agricultural areas has resulted in considerable habitat conversion globally. Such anthropogenic areas have specific environmental characteristics, which influence the physiology, life history, and population dynamics of plants and animals. For example, the date of bud burst is advanced in urban compared to nearby natural areas. In some birds, breeding success is determined by synchrony between timing of breeding and peak food abundance. Pertinently, caterpillars are an important food source for the nestlings of many bird species, and their abundance is influenced by environmental factors such as temperature and date of bud burst. Higher temperatures and advanced date of bud burst in urban areas could advance peak caterpillar abundance and thus affect breeding phenology of birds. In order to test whether laying date advance and clutch sizes decrease with the intensity of urbanization, we analyzed the timing of breeding and clutch size in relation to intensity of urbanization as a measure of human impact in 199 nest box plots across Europe, North Africa, and the Middle East (i.e., the Western Palearctic) for four species of hole-nesters: blue tits (Cyanistes caeruleus), great tits (Parus major), collared flycatchers (Ficedula albicollis), and pied flycatchers (Ficedula hypoleuca). Meanwhile, we estimated the intensity of urbanization as the density of buildings surrounding study plots measured on orthophotographs. For the four study species, the intensity of urbanization was not correlated with laying date. Clutch size in blue and great tits does not seem affected by the intensity of urbanization, while in collared and pied flycatchers it decreased with increasing intensity of urbanization. This is the first large-scale study showing a species-specific major correlation between intensity of urbanization and the ecology of breeding. The underlying mechanisms for the relationships between life history and urbanizati

Published

2016

41. Social information in cooperation and dispersal in tetrahymena

Author

UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Clobert, Jean, Legrand, Delphine, Schtickzelle, Nicolas, Chaine, Alexis S., UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Clobert, Jean, Legrand, Delphine, Schtickzelle, Nicolas, and Chaine, Alexis S.

Published

2016

42. Cooperation-mediated plasticity in dispersal and colonization

Author

UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Wehi, Priscilla, Clobert, Jean, Legrand, Delphine, Schtickzelle, Nicolas, Huet, Michèle, Chaine, Alexis, UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Wehi, Priscilla, Clobert, Jean, Legrand, Delphine, Schtickzelle, Nicolas, Huet, Michèle, and Chaine, Alexis

Abstract

Kin selection theory predicts that costly cooperative behaviors evolve most readily when directed toward kin. Dispersal plays a controversial role in the evolution of cooperation: dispersal decreases local population relatedness and thus opposes the evolution of cooperation, but limited dispersal increases kin competition and can negate the benefits of cooperation. Theoretical work has suggested that plasticity of dispersal, where individuals can adjust their dispersal decisions according to the social context,might help resolve this paradox and promote the evolution of cooperation. Here, we experimentally tested the hypothesis that conditional dispersal decisions are mediated by a cooperative strategy: we quantified the density-dependent dispersal decisions and subsequent colonization efficiency from single cells or groups of cells among six genetic strains of the unicellular Tetrahymena thermophila that differ in their aggregation level (high, medium, and low), a behavior associated with cooperation strategy.We found that the plastic reaction norms of dispersal rate relative to density differed according to aggregation level: highly aggregative genotypes showed negative density-dependent dispersal, whereas low-aggregation genotypes showed maximum dispersal rates at intermediate density, and medium-aggregation genotypes showed density-independent dispersal with intermediate dispersal rate. Dispersers from highly aggregative genotypes had specialized long-distance dispersal phenotypes, contrary to low-aggregation genotypes; medium-aggregation genotypes showing intermediate dispersal phenotype. Moreover, highly aggregation genotypes showed evidence for beneficial kin-cooperation during dispersal. Our experimental results should help to resolve the evolutionary conflict between cooperation and dispersal: cooperative individuals are expected to avoid kin-competition by dispersing long distances, but maintain the benefits of cooperation by dispersing in small groups.

Published

2016

43. Interspecific variation in the relationship between clutch size, laying date and intensity of urbanization in four species of hole‐nesting birds

Author

Vaugoyeau, Marie, primary, Adriaensen, Frank, additional, Artemyev, Alexandr, additional, Bańbura, Jerzy, additional, Barba, Emilio, additional, Biard, Clotilde, additional, Blondel, Jacques, additional, Bouslama, Zihad, additional, Bouvier, Jean‐Charles, additional, Camprodon, Jordi, additional, Cecere, Francesco, additional, Charmantier, Anne, additional, Charter, Motti, additional, Cichoń, Mariusz, additional, Cusimano, Camillo, additional, Czeszczewik, Dorota, additional, Demeyrier, Virginie, additional, Doligez, Blandine, additional, Doutrelant, Claire, additional, Dubiec, Anna, additional, Eens, Marcel, additional, Eeva, Tapio, additional, Faivre, Bruno, additional, Ferns, Peter N., additional, Forsman, Jukka T., additional, García‐del‐Rey, Eduardo, additional, Goldshtein, Aya, additional, Goodenough, Anne E., additional, Gosler, Andrew G., additional, Grégoire, Arnaud, additional, Gustafsson, Lars, additional, Harnist, Iga, additional, Hartley, Ian R., additional, Heeb, Philipp, additional, Hinsley, Shelley A., additional, Isenmann, Paul, additional, Jacob, Staffan, additional, Juškaitis, Rimvydas, additional, Korpimäki, Erkki, additional, Krams, Indrikis, additional, Laaksonen, Toni, additional, Lambrechts, Marcel M., additional, Leclercq, Bernard, additional, Lehikoinen, Esa, additional, Loukola, Olli, additional, Lundberg, Arne, additional, Mainwaring, Mark C., additional, Mänd, Raivo, additional, Massa, Bruno, additional, Mazgajski, Tomasz D., additional, Merino, Santiago, additional, Mitrus, Cezary, additional, Mönkkönen, Mikko, additional, Morin, Xavier, additional, Nager, Ruedi G., additional, Nilsson, Jan‐Åke, additional, Nilsson, Sven G., additional, Norte, Ana C., additional, Orell, Markku, additional, Perret, Philippe, additional, Perrins, Christopher M., additional, Pimentel, Carla S., additional, Pinxten, Rianne, additional, Richner, Heinz, additional, Robles, Hugo, additional, Rytkönen, Seppo, additional, Senar, Juan Carlos, additional, Seppänen, Janne T., additional, Pascoal da Silva, Luis, additional, Slagsvold, Tore, additional, Solonen, Tapio, additional, Sorace, Alberto, additional, Stenning, Martyn J., additional, Tryjanowski, Piotr, additional, von Numers, Mikael, additional, Walankiewicz, Wieslaw, additional, and Møller, Anders Pape, additional

Published

2016

44. Social information from immigrants: multiple immigrant-based sources of information for dispersal decisions in a ciliate

Author

UCL - SST/ELI/ELIM - Applied Microbiology, Jacob, Staffan, Chaine, Alexis S., Schtickzelle, Nicolas, Huet, Michele, Clobert, Jean, UCL - SST/ELI/ELIM - Applied Microbiology, Jacob, Staffan, Chaine, Alexis S., Schtickzelle, Nicolas, Huet, Michele, and Clobert, Jean

Abstract

Dispersal is increasingly recognized as being an informed process, based on information organisms obtain about the landscape. While local conditions are often found to drive dispersal decisions, local context is not always a reliable predictor of conditions in neighbouring patches, making the use of local information potentially useless or even maladaptive. In this case, using social information gathered by immigrants might allow adjusting dispersal decisions without paying the costs of prospecting. However, this hypothesis has been largely neglected despite its major importance for ecological and evolutionary processes. We investigated three fundamental questions about immigrant-informed dispersal: Do immigrants convey information that influences dispersal, do organisms use multiple cues from immigrants, and is immigrant-informed dispersal genotype dependent? Using Tetrahymena thermophila ciliates in microcosms, we manipulated the number of immigrants arriving, the density of congeners, the resource quality in neighbouring patches, matrix characteristics and the level of cooperation of individuals in the neighbouring populations. We provide the first experimental evidence that immigrants convey a number of different cues about neighbouring patches and matrix (patch quality, matrix characteristics and cooperation in neighbouring populations) in this relatively simple organism. Furthermore, we demonstrate genotype-dependent immigrant-informed dispersal decisions about patch quality and matrix characteristics. Multiple cues from immigrants and genotype-dependent use of cues have major implications for theoretical metapopulation dynamics and the potential for local adaptation.

Published

2015

45. Habitat matching and spatial heterogeneity of phenotypes: implications for metapopulation and metacommunity functioning

Author

UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Bestion, Elvire, Legrand, Delphine, Clobert, Jean, Cote, Julien, UCL - SST/ELI/ELIB - Biodiversity, Jacob, Staffan, Bestion, Elvire, Legrand, Delphine, Clobert, Jean, and Cote, Julien

Abstract

Spatial heterogeneity in the distribution of phenotypes among populations is of major importance for species evolution and ecosystem functioning. Dispersal has long been assumed to homogenise populations in structured landscapes by generating maladapted gene flows, making spatial heterogeneity of phenotypes traditionally considered resulting from local adaptation or plasticity. However, there is accumulating evidence that individuals, instead of dispersing randomly in the landscapes, adjust their dispersal decisions according to their phenotype and the environmental conditions. Specifically, individuals might move in the landscape to find and settle in the environmental conditions that best match their phenotype, therefore maximizing their fitness, a hypothesis named habitat matching. Although habitat matching and associated non-random gene flows can produce spatial phenotypic heterogeneity, their potential consequences for metapopulation and metacommunity functioning are still poorly understood. Here, we discuss evidence for intra and interspecific drivers of habitat matching, and highlight the potential consequences of this process for metapopulation and metacommunity functioning. We conclude that habitat matching might deeply affect the eco-evolutionary dynamics of meta-systems, pointing out the need for further empirical and theoretical research on its incidence and implications for species and communities evolution under environmental changes

Published

2015

46. Habitat choice meets thermal specialization: Competition with specialists may drive suboptimal habitat preferences in generalists.

Author

Laurent, Estelle, Schtickzelle, Nicolas, Jacob, Staffan, Prunier, Jérôme G., Legrand, Delphine, Clobert, Jean, Haegeman, Bart, Bertrand, Romain, Loreau, Michel, Chaine, Alexis S., and Cote, Julien

Subjects

DISPERSAL (Ecology), HABITATS, ECOLOGICAL niche, TETRAHYMENA, CLIMATE change

Abstract

Limited dispersal is classically considered as a prerequisite for ecological specialization to evolve, such that generalists are expected to show greater dispersal propensity compared with specialists. However, when individuals choose habitats that maximize their performance instead of dispersing randomly, theory predicts dispersal with habitat choice to evolve in specialists, while generalists should disperse more randomly. We tested whether habitat choice is associated with thermal niche specialization using microcosms of the ciliate Tetrahymena thermophila, a species that performs active dispersal. We found that thermal specialists preferred optimal habitats as predicted by theory, a link that should make specialists more likely to track suitable conditions under environmental changes than expected under the random dispersal assumption. Surprisingly, generalists also performed habitat choice but with a preference for suboptimal habitats. Since this result challenges current theory, we developed a metapopulation model to understand under which circumstances such a preference for suboptimal habitats should evolve. We showed that competition between generalists and specialists may favor a preference for niche margins in generalists under environmental variability. Our results demonstrate that the behavioral dimension of dispersal--here, habitat choice--fundamentally alters our predictions of how dispersal evolve with niche specialization, making dispersal behaviors crucial for ecological forecasting facing environmental changes. [ABSTRACT FROM AUTHOR]

Published

2018

47. Variation in clutch size in relation to nest size in birds

Author

Moller, Anders P., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-Del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gozdz, Iga, Gregoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Jaervinen, Antero, Juskaitis, Rimvydas, Korpimaeki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Maend, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Moenkkoenen, Mikko, Morales-Fernaz, Judith, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkoenen, Seppo, Carlos Senar, Juan, Seppaenen, Janne T., da Silva, Luis P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Toeroek, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., von Numers, Mikael, Walankiewicz, Wieslaw, Lambrechts, Marcel M., Moller, Anders P., Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-Del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gozdz, Iga, Gregoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Jaervinen, Antero, Juskaitis, Rimvydas, Korpimaeki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Maend, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Moenkkoenen, Mikko, Morales-Fernaz, Judith, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Rytkoenen, Seppo, Carlos Senar, Juan, Seppaenen, Janne T., da Silva, Luis P., Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Toeroek, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., von Numers, Mikael, Walankiewicz, Wieslaw, and Lambrechts, Marcel M.

Abstract

Nests are structures built to support and protect eggs and/or offspring from predators, parasites, and adverse weather conditions. Nests are mainly constructed prior to egg laying, meaning that parent birds must make decisions about nest site choice and nest building behavior before the start of egg-laying. Parent birds should be selected to choose nest sites and to build optimally sized nests, yet our current understanding of clutch size-nest size relationships is limited to small-scale studies performed over short time periods. Here, we quantified the relationship between clutch size and nest size, using an exhaustive database of 116 slope estimates based on 17,472 nests of 21 species of hole and non-hole-nesting birds. There was a significant, positive relationship between clutch size and the base area of the nest box or the nest, and this relationship did not differ significantly between open nesting and hole-nesting species. The slope of the relationship showed significant intraspecific and interspecific heterogeneity among four species of secondary hole-nesting species, but also among all 116 slope estimates. The estimated relationship between clutch size and nest box base area in study sites with more than a single size of nest box was not significantly different from the relationship using studies with only a single size of nest box. The slope of the relationship between clutch size and nest base area in different species of birds was significantly negatively related to minimum base area, and less so to maximum base area in a given study. These findings are consistent with the hypothesis that bird species have a general reaction norm reflecting the relationship between nest size and clutch size. Further, they suggest that scientists may influence the clutch size decisions of hole-nesting birds through the provisioning of nest boxes of varying sizes.

Published

2014

48. Clutch-size variation in Western Palaearctic secondary hole-nesting passerine birds in relation to nest box design

Author

Moller, Anders Pape, Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Chaine, Alexis, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gozdz, Iga, Gregoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Jarvinen, Antero, Juskaitis, Rimvydas, Kania, Wojciech, Korpimaki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mand, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Monkkonen, Mikko, Morales-Fernaz, Judith, Moreno, Juan, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Perrins, Christopher M., Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Russell, Andy, Rytkonen, Seppo, Carlos Senar, Juan, Seppanen, Janne T., da Silva, Luis Pascoal, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Toeroek, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., von Numers, Mikael, Walankiewicz, Wiesaw, Lambrechts, Marcel M., Moller, Anders Pape, Adriaensen, Frank, Artemyev, Alexandr, Banbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel, Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Chaine, Alexis, Charmantier, Anne, Charter, Motti, Cichon, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., Garcia-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Gozdz, Iga, Gregoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Jarvinen, Antero, Juskaitis, Rimvydas, Kania, Wojciech, Korpimaki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mand, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Monkkonen, Mikko, Morales-Fernaz, Judith, Moreno, Juan, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Ake, Nilsson, Sven G., Norte, Ana C., Orell, Markku, Perret, Philippe, Perrins, Christopher M., Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remes, Vladimir, Richner, Heinz, Robles, Hugo, Russell, Andy, Rytkonen, Seppo, Carlos Senar, Juan, Seppanen, Janne T., da Silva, Luis Pascoal, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Toeroek, Janos, Tryjanowski, Piotr, van Noordwijk, Arie J., von Numers, Mikael, Walankiewicz, Wiesaw, and Lambrechts, Marcel M.

Abstract

Secondary hole-nesting birds that do not construct nest holes themselves and hence regularly breed in nest boxes constitute important model systems for field studies in many biological disciplines with hundreds of scientists and amateurs involved. Those research groups are spread over wide geographic areas that experience considerable variation in environmental conditions, and researchers provide nest boxes of varying designs that may inadvertently introduce spatial and temporal variation in reproductive parameters. We quantified the relationship between mean clutch size and nest box size and material after controlling for a range of environmental variables in four of the most widely used model species in the Western Palaearctic: great tit Parus major, blue tit Cyanistes caeruleus, pied flycatcher Ficedula hypoleuca and collared flycatcher F.albicollis from 365 populations and 79610 clutches. Nest floor area and nest box material varied non-randomly across latitudes and longitudes, showing that scientists did not adopt a random box design. Clutch size increased with nest floor area in great tits, but not in blue tits and flycatchers. Clutch size of blue tits was larger in wooden than in concrete nest boxes. These findings demonstrate that the size of nest boxes and material used to construct nest boxes can differentially affect clutch size in different species. The findings also suggest that the nest box design may affect not only focal species, but also indirectly other species through the effects of nest box design on productivity and therefore potentially population density and hence interspecific competition.

Published

2014

49. Variation in clutch size in relation to nest size in birds.

Author

Møller, Anders Pape, Adriaensen, Frank, Artemyev, Alexandr, Bańbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichoń, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., García-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Góźdź, Iga, Grégoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Järvinen, Antero, Juškaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Morales-Fernaz, Judith, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Åke, Norte, Ana C., Orell, Markku, Perret, Philippe, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remeš, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., Silva, Luís P. da, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, János, Tryjanowski, Piotr, Noordwijk, Arie J. van, Numers, Mikael von, Walankiewicz, Wiesław, Lambrechts, Marcel M., Møller, Anders Pape, Adriaensen, Frank, Artemyev, Alexandr, Bańbura, Jerzy, Barba, Emilio, Biard, Clotilde, Blondel Jacques, Bouslama, Zihad, Bouvier, Jean-Charles, Camprodon, Jordi, Cecere, Francesco, Charmantier, Anne, Charter, Motti, Cichoń, Mariusz, Cusimano, Camillo, Czeszczewik, Dorota, Demeyrier, Virginie, Doligez, Blandine, Doutrelant, Claire, Dubiec, Anna, Eens, Marcel, Eeva, Tapio, Faivre, Bruno, Ferns, Peter N., Forsman, Jukka T., García-del-Rey, Eduardo, Goldshtein, Aya, Goodenough, Anne E., Gosler, Andrew G., Góźdź, Iga, Grégoire, Arnaud, Gustafsson, Lars, Hartley, Ian R., Heeb, Philipp, Hinsley, Shelley A., Isenmann, Paul, Jacob, Staffan, Järvinen, Antero, Juškaitis, Rimvydas, Korpimäki, Erkki, Krams, Indrikis, Laaksonen, Toni, Leclercq, Bernard, Lehikoinen, Esa, Loukola, Olli, Lundberg, Arne, Mainwaring, Mark C., Mänd, Raivo, Massa, Bruno, Mazgajski, Tomasz D., Merino, Santiago, Mitrus, Cezary, Mönkkönen, Mikko, Morales-Fernaz, Judith, Morin, Xavier, Nager, Ruedi G., Nilsson, Jan-Åke, Norte, Ana C., Orell, Markku, Perret, Philippe, Pimentel, Carla S., Pinxten, Rianne, Priedniece, Ilze, Quidoz, Marie-Claude, Remeš, Vladimir, Richner, Heinz, Robles, Hugo, Rytkönen, Seppo, Senar, Juan Carlos, Seppänen, Janne T., Silva, Luís P. da, Slagsvold, Tore, Solonen, Tapio, Sorace, Alberto, Stenning, Martyn J., Török, János, Tryjanowski, Piotr, Noordwijk, Arie J. van, Numers, Mikael von, Walankiewicz, Wiesław, and Lambrechts, Marcel M.

Published

2014

50. Variation in clutch size in relation to nest size in birds

Author

Møller, Anders P., primary, Adriaensen, Frank, additional, Artemyev, Alexandr, additional, Bańbura, Jerzy, additional, Barba, Emilio, additional, Biard, Clotilde, additional, Blondel, Jacques, additional, Bouslama, Zihad, additional, Bouvier, Jean-Charles, additional, Camprodon, Jordi, additional, Cecere, Francesco, additional, Charmantier, Anne, additional, Charter, Motti, additional, Cichoń, Mariusz, additional, Cusimano, Camillo, additional, Czeszczewik, Dorota, additional, Demeyrier, Virginie, additional, Doligez, Blandine, additional, Doutrelant, Claire, additional, Dubiec, Anna, additional, Eens, Marcel, additional, Eeva, Tapio, additional, Faivre, Bruno, additional, Ferns, Peter N., additional, Forsman, Jukka T., additional, García-Del-Rey, Eduardo, additional, Goldshtein, Aya, additional, Goodenough, Anne E., additional, Gosler, Andrew G., additional, Góźdź, Iga, additional, Grégoire, Arnaud, additional, Gustafsson, Lars, additional, Hartley, Ian R., additional, Heeb, Philipp, additional, Hinsley, Shelley A., additional, Isenmann, Paul, additional, Jacob, Staffan, additional, Järvinen, Antero, additional, Juškaitis, Rimvydas, additional, Korpimäki, Erkki, additional, Krams, Indrikis, additional, Laaksonen, Toni, additional, Leclercq, Bernard, additional, Lehikoinen, Esa, additional, Loukola, Olli, additional, Lundberg, Arne, additional, Mainwaring, Mark C., additional, Mänd, Raivo, additional, Massa, Bruno, additional, Mazgajski, Tomasz D., additional, Merino, Santiago, additional, Mitrus, Cezary, additional, Mönkkönen, Mikko, additional, Morales-Fernaz, Judith, additional, Morin, Xavier, additional, Nager, Ruedi G., additional, Nilsson, Jan-Åke, additional, Nilsson, Sven G., additional, Norte, Ana C., additional, Orell, Markku, additional, Perret, Philippe, additional, Pimentel, Carla S., additional, Pinxten, Rianne, additional, Priedniece, Ilze, additional, Quidoz, Marie-Claude, additional, Remeš, Vladimir, additional, Richner, Heinz, additional, Robles, Hugo, additional, Rytkönen, Seppo, additional, Senar, Juan Carlos, additional, Seppänen, Janne T., additional, da Silva, Luís P., additional, Slagsvold, Tore, additional, Solonen, Tapio, additional, Sorace, Alberto, additional, Stenning, Martyn J., additional, Török, János, additional, Tryjanowski, Piotr, additional, van Noordwijk, Arie J., additional, von Numers, Mikael, additional, Walankiewicz, Wiesław, additional, and Lambrechts, Marcel M., additional

Published

2014