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5. Comparing spatial diversification and meta-population models in the Indo-Australian Archipelago

Author

Chalmandrier, Loic, Albouy, Camille, Descombes, Patrice, Sandel, Brody, Faurby, Soren, Syenning, Jens-christian, Zimmermann, Niklaus E., Pellissier, Loic, Chalmandrier, Loic, Albouy, Camille, Descombes, Patrice, Sandel, Brody, Faurby, Soren, Syenning, Jens-christian, Zimmermann, Niklaus E., and Pellissier, Loic

Abstract

Reconstructing the processes that have shaped the emergence of biodiversity gradients is critical to understand the dynamics of diversification of life on Earth. Islands have traditionally been used as model systems to unravel the processes shaping biological diversity. MacArthur and Wilson's island biogeographic model predicts diversity to be based on dynamic interactions between colonization and extinction rates, while treating islands themselves as geologically static entities. The current spatial configuration of islands should influence meta-population dynamics, but long-term geological changes within archipelagos are also expected to have shaped island biodiversity, in part by driving diversification. Here, we compare two mechanistic models providing inferences on species richness at a biogeographic scale: a mechanistic spatial-temporal model of species diversification and a spatial meta-population model. While the meta-population model operates over a static landscape, the diversification model is driven by changes in the size and spatial configuration of islands through time. We compare the inferences of both models to floristic diversity patterns among land patches of the Indo-Australian Archipelago. Simulation results from the diversification model better matched observed diversity than a meta-population model constrained only by the contemporary landscape. The diversification model suggests that the dynamic repositioning of islands promoting land disconnection and reconnection induced an accumulation of particularly high species diversity on Borneo, which is central within the island network. By contrast, the meta-population model predicts a higher diversity on the mainlands, which is less compatible with empirical data. Our analyses highlight that, by comparing models with contrasting assumptions, we can pinpoint the processes that are most compatible with extant biodiversity patterns.

Published
2018
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6. Species pool distributions along functional trade-offs shape plant productivity-diversity relationships

Author

Chalmandrier, Loic, Albouy, Camille, Pellissier, Loic, Chalmandrier, Loic, Albouy, Camille, and Pellissier, Loic

Abstract

Grasslands deliver the resources for food production and are among the most biologically diverse ecosystems. These characteristics are often in conflict as increasing yield through fertilization can lead to biodiversity loss. Thus, the challenge in grassland management is to sustain both yield and diversity. Biodiversity-ecosystem functioning experiments typically reveal a positive relationship between manipulated species diversity and productivity. In contrast, observations of the effect of increasing productivity via fertilization suggest a negative association with biodiversity. Using a mathematical model simulating species co-existence along a resource gradient, we show that trade-offs and species pool structure (size and trait distribution) determines the shape of the productivity-diversity relationship. At a constant resource level, over-yielding drives a positive relationship between biodiversity and productivity. In contrast, along a resource gradient, the shape of the productivity-diversity relationship is determined by the distribution of species along trade-off axes and often resulted in a bell-shaped relationship. In accordance to this theoretical result, we then explain the general trend of plant biodiversity loss with fertilisation in the European flora, by showing empirical evidence that trait distribution of plant species pools throughout Europe is biased toward species preferring poorer soils.

Published
2017
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8. De la communauté à la méta-communauté, décrypter les patrons de diversité

Author

Chalmandrier, Loic, Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), Université Grenoble Alpes, Wilfried Thuiller, Tamara Munkemuller, Sébastien Lavergne, and STAR, ABES

Subjects
Biostatistiques, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, Intraspecific variability, Variabilité intraspécifique, Spatial scaling, Diversity patterns, Biostatistics, Végétation alpine, Ecology des communautés, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, Patrons de diversité, Community ecology, Alpine vegetation, Echelle spatiale
Abstract

Patterns of community diversity refers to the structure of diversity, i.e. its quantification, its distribution and its turnover in space and time. Its study is likely to shed the light on the assembly rules that determined the structure of communities. However, numerous ecological assumptions are often made when studying diversity patterns. What motivated the work was the perspective that by relaxing these assumptions, a number of developments linked to diversity indices and null models are possible and can help to understand the impact of multiple ecological processes on phylogenetic and functional diversity patterns. In a first part we studied the pattern of functional diversity of alpine plant communities as a function of spatial and organizational scales. In the second part, we studied the methodological perspectives brought by the Hill numbers. In a third part, we addressed the main methodological issues of a new type of community data: environmental DNA., Les patrons de diversité caractérisent la structure de la diversité des communautés, c'est-à-dire sa valeur, sa distribution et son changement dans l'espace et le temps. Leur étude peut amener des informations importantes sur les processus écologiques qui en sont à l'origine. Cependant de nombreuses hypothèses de travail sont faites lors de leur analyse. L'idée générale de cette thèse est qu'en remettant en cause ces hypothèses, un certain nombre de développements liés aux indices de diversité et aux modèles nuls deviennent possibles et permettent de mieux comprendre les processus écologiques à l'origine des patrons de diversité fonctionnelle ou phylogénétique. Le premier chapitre est consacré à l'étude des patrons de diversité fonctionnelle des communautés végétales alpines à de multiples échelles spatiales et organisationnelles. Le second chapitre s'intéresse aux perspectives méthodologiques amenés par les nombres de Hill. Dans le dernier chapitre, on s'intéresse aux enjeux méthodologiques d'un nouveau type de données de communautés : l'ADN environnemental.

Published
2015

9. A global meta-analysis of the relative extent of intraspecific trait variation in plant communities

Author

Siefert, Andrew, Violle, Cyrille, Chalmandrier, Loic, Albert, Cecile H., Taudiere, Adrien, Fajardo, Alex, Aarssen, Lonnie W., Baraloto, Christopher, Carlucci, Marcos B., Cianciaruso, Marcus V., Dantas, Vinicius de L., de Bello, Francesco, Duarte, Leandro D. S., Fonseca, Carlos R., Freschet, Gregoire T., Gaucherand, Stephanie, Gross, Nicolas, Hikosaka, Kouki, Jackson, Benjamin, Jung, Vincent, Kamiyama, Chiho, Katabuchi, Masatoshi, Kembel, Steven W., Kichenin, Emilie, Kraft, Nathan J. B., Lagerstrom, Anna, Le Bagousse-Pinguet, Yoann, Li, Yuanzhi, Mason, Norman, Messier, Julie, Nakashizuka, Tohru, McC Overton, Jacob, Peltzer, Duane A., Perez-Ramos, I. M., Pillar, Valerio D., Prentice, Honor C., Richardson, Sarah, Sasaki, Takehiro, Schamp, Brandon S., Schoeb, Christian, Shipley, Bill, Sundqvist, Maja, Sykes, Martin T., Vandewalle, Marie, Wardle, David A., Siefert, Andrew, Violle, Cyrille, Chalmandrier, Loic, Albert, Cecile H., Taudiere, Adrien, Fajardo, Alex, Aarssen, Lonnie W., Baraloto, Christopher, Carlucci, Marcos B., Cianciaruso, Marcus V., Dantas, Vinicius de L., de Bello, Francesco, Duarte, Leandro D. S., Fonseca, Carlos R., Freschet, Gregoire T., Gaucherand, Stephanie, Gross, Nicolas, Hikosaka, Kouki, Jackson, Benjamin, Jung, Vincent, Kamiyama, Chiho, Katabuchi, Masatoshi, Kembel, Steven W., Kichenin, Emilie, Kraft, Nathan J. B., Lagerstrom, Anna, Le Bagousse-Pinguet, Yoann, Li, Yuanzhi, Mason, Norman, Messier, Julie, Nakashizuka, Tohru, McC Overton, Jacob, Peltzer, Duane A., Perez-Ramos, I. M., Pillar, Valerio D., Prentice, Honor C., Richardson, Sarah, Sasaki, Takehiro, Schamp, Brandon S., Schoeb, Christian, Shipley, Bill, Sundqvist, Maja, Sykes, Martin T., Vandewalle, Marie, and Wardle, David A.

Abstract

Recent studies have shown that accounting for intraspecific trait variation (ITV) may better address major questions in community ecology. However, a general picture of the relative extent of ITV compared to interspecific trait variation in plant communities is still missing. Here, we conducted a meta-analysis of the relative extent of ITV within and among plant communities worldwide, using a data set encompassing 629 communities (plots) and 36 functional traits. Overall, ITV accounted for 25% of the total trait variation within communities and 32% of the total trait variation among communities on average. The relative extent of ITV tended to be greater for whole-plant (e.g. plant height) vs. organ-level traits and for leaf chemical (e.g. leaf N and P concentration) vs. leaf morphological (e.g. leaf area and thickness) traits. The relative amount of ITV decreased with increasing species richness and spatial extent, but did not vary with plant growth form or climate. These results highlight global patterns in the relative importance of ITV in plant communities, providing practical guidelines for when researchers should include ITV in trait-based community and ecosystem studies.

Published
2015
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10. Species pool distributions along functional trade-offs shape plant productivity-diversity relationships

Author

Chalmandrier, Loic, Albouy, Camille, and Pellissier, Loïc

Subjects
2. Zero hunger, Grassland ecology, Community ecology, 15. Life on land, Theoretical ecology
Abstract

Grasslands deliver the resources for food production and are among the most biologically diverse ecosystems. These characteristics are often in conflict as increasing yield through fertilization can lead to biodiversity loss. Thus, the challenge in grassland management is to sustain both yield and diversity. Biodiversity–ecosystem functioning experiments typically reveal a positive relationship between manipulated species diversity and productivity. In contrast, observations of the effect of increasing productivity via fertilization suggest a negative association with biodiversity. Using a mathematical model simulating species co-existence along a resource gradient, we show that trade-offs and species pool structure (size and trait distribution) determines the shape of the productivity-diversity relationship. At a constant resource level, over-yielding drives a positive relationship between biodiversity and productivity. In contrast, along a resource gradient, the shape of the productivity-diversity relationship is determined by the distribution of species along trade-off axes and often resulted in a bell-shaped relationship. In accordance to this theoretical result, we then explain the general trend of plant biodiversity loss with fertilisation in the European flora, by showing empirical evidence that trait distribution of plant species pools throughout Europe is biased toward species preferring poorer soils., Scientific Reports, 7, ISSN:2045-2322

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