TY - JOUR A1 - Hermanussen, Michael A1 - Pulungan, Aman B. A1 - Scheffler, Christiane A1 - Mumm, Rebekka A1 - Rogol, Alan D. A1 - Pop, Raluca A1 - Swanson, James M. A1 - Sonuga-Barke, Edmund A1 - Reimann, Anna A1 - Siniarska-Wolanska, Anna A1 - Musalek, Martin A1 - Bogin, Barry A1 - Boldsen, Jesper L. A1 - Tassenaar, (Vincent) A1 - Groth, Detlef A1 - Liu, Yuk-Chien A1 - Meigen, Christof A1 - Quanjer, Bjorn A1 - Thompson, Kristina A1 - Ozer, Baak Koca A1 - Bryl, Ewa A1 - Mamrot, Paula A1 - Hanc, Tomasz A1 - Koziel, Slawomir A1 - Soderhall, Jani A1 - Gomula, Aleksandra A1 - Banik, Sudip Datta A1 - Roelants, Mathieu A1 - Veldre, Gudrun A1 - Lieberman, Leslie Sue A1 - Sievert, Lynnette Leidy T1 - Meeting Reports BT - The Role of Beliefs and Perception on Body Size. Proceedings of the 26th Aschauer Soiree, Held at Aschauhof, Altenhof, Germany, May 26th, 2018 JF - Pediatric Endocrinology Reviews N2 - Thirty-one scientists met at Aschauhof, Germany to discuss the role of beliefs and self-perception on body size. In view of apparent growth stimulatory effects of dominance within the social group that is observed in social mammals, they discussed various aspects of competitive growth strategies and growth adjustments. Presentations included new data from Indonesia, a cohort-based prospective study from Merida, Yucatan, and evidence from recent meta-analyses and patterns of growth in the socially deprived. The effects of stress experienced during pregnancy and adverse childhood events were discussed, as well as obesity in school children, with emphasis on problems when using z-scores in extremely obese children. Aspects were presented on body image in African-American women, and body perception and the disappointments of menopause in view of feelings of attractiveness in different populations. Secular trends in height were presented, including short views on so called 'racial types' vs bio-plasticity, and historic data on early-life nutritional status and later-life socioeconomic outcomes during the Dutch potato famine. New tools for describing body proportions in patients with variable degrees of phocomelia were presented along with electronic growth charts. Bio-statisticians discussed the influence of randomness, community and network structures, and presented novel tools and methods for analyzing social network data. KW - Body size KW - Social group KW - Social network KW - Body perception KW - Competitive growth strategies KW - Growth adjustment Y1 - 2019 U6 - https://doi.org/10.17458/per.vol16.2019.hps.mr.26achauersoiree SN - 1565-4753 VL - 16 IS - 3 SP - 383 EP - 400 PB - Medical Media CY - Netanya ER - TY - JOUR A1 - Rainford, James L. A1 - Hofreiter, Michael A1 - Mayhew, Peter J. T1 - Phylogenetic analyses suggest that diversification and body size evolution are independent in insects JF - BMC evolutionary biology N2 - Background: Skewed body size distributions and the high relative richness of small-bodied taxa are a fundamental property of a wide range of animal clades. The evolutionary processes responsible for generating these distributions are well described in vertebrate model systems but have yet to be explored in detail for other major terrestrial clades. In this study, we explore the macro-evolutionary patterns of body size variation across families of Hexapoda (insects and their close relatives), using recent advances in phylogenetic understanding, with an aim to investigate the link between size and diversity within this ancient and highly diverse lineage. Results: The maximum, minimum and mean-log body lengths of hexapod families are all approximately log-normally distributed, consistent with previous studies at lower taxonomic levels, and contrasting with skewed distributions typical of vertebrate groups. After taking phylogeny and within-tip variation into account, we find no evidence for a negative relationship between diversification rate and body size, suggesting decoupling of the forces controlling these two traits. Likelihood-based modeling of the log-mean body size identifies distinct processes operating within Holometabola and Diptera compared with other hexapod groups, consistent with accelerating rates of size evolution within these clades, while as a whole, hexapod body size evolution is found to be dominated by neutral processes including significant phylogenetic conservatism. Conclusions: Based on our findings we suggest that the use of models derived from well-studied but atypical clades, such as vertebrates may lead to misleading conclusions when applied to other major terrestrial lineages. Our results indicate that within hexapods, and within the limits of current systematic and phylogenetic knowledge, insect diversification is generally unfettered by size-biased macro-evolutionary processes, and that these processes over large timescales tend to converge on apparently neutral evolutionary processes. We also identify limitations on available data within the clade and modeling approaches for the resolution of trees of higher taxa, the resolution of which may collectively enhance our understanding of this key component of terrestrial ecosystems. KW - Body size KW - Diversification KW - Hexapoda KW - Insects KW - Phylogeny Y1 - 2016 U6 - https://doi.org/10.1186/s12862-015-0570-3 SN - 1471-2148 VL - 16 SP - 47 EP - 55 PB - BioMed Central CY - London ER - TY - JOUR A1 - Curtsdotter, Alva A1 - Binzer, Amrei A1 - Brose, Ulrich A1 - de Castro, Francisco A1 - Ebenman, Bo A1 - Ekloef, Anna A1 - Riede, Jens O. A1 - Thierry, Aaron A1 - Rall, Bjoern C. T1 - Robustness to secondary extinctions comparing trait-based sequential deletions in static and dynamic food webs JF - Basic and applied ecology : Journal of the Gesellschaft für Ökologie N2 - The loss of species from ecological communities can unleash a cascade of secondary extinctions, the risk and extent of which are likely to depend on the traits of the species that are lost from the community. To identify species traits that have the greatest impact on food web robustness to species loss we here subject allometrically scaled, dynamical food web models to several deletion sequences based on species' connectivity, generality, vulnerability or body mass. Further, to evaluate the relative importance of dynamical to topological effects we compare robustness between dynamical and purely topological models. This comparison reveals that the topological approach overestimates robustness in general and for certain sequences in particular. Top-down directed sequences have no or very low impact on robustness in topological analyses, while the dynamical analysis reveals that they may be as important as high-impact bottom-up directed sequences. Moreover, there are no deletion sequences that result, on average, in no or very few secondary extinctions in the dynamical approach. Instead, the least detrimental sequence in the dynamical approach yields an average robustness similar to the most detrimental (non-basal) deletion sequence in the topological approach. Hence, a topological analysis may lead to erroneous conclusions concerning both the relative and the absolute importance of different species traits for robustness. The dynamical sequential deletion analysis shows that food webs are least robust to the loss of species that have many trophic links or that occupy low trophic levels. In contrast to previous studies we can infer, albeit indirectly, that secondary extinctions were triggered by both bottom-up and top-down cascades. KW - Species loss KW - Extinction cascades KW - Top-down effect KW - Bottom-up effect KW - Stability KW - Body size KW - Trophic interactions KW - Vulnerability KW - Generality KW - Keystone species Y1 - 2011 U6 - https://doi.org/10.1016/j.baae.2011.09.008 SN - 1439-1791 VL - 12 IS - 7 SP - 571 EP - 580 PB - Elsevier CY - Jena ER - TY - JOUR A1 - Buchmann, Carsten M. A1 - Schurr, Frank Martin A1 - Nathan, Ran A1 - Jeltsch, Florian T1 - Habitat loss and fragmentation affecting mammal and bird communities-The role of interspecific competition and individual space use JF - Ecological informatics : an international journal on ecoinformatics and computational ecolog N2 - Fragmentation and loss of habitat are major threats to animal communities and are therefore important to conservation. Due to the complexity of the interplay of spatial effects and community processes, our mechanistic understanding of how communities respond to such landscape changes is still poor. Modelling studies have mostly focused on elucidating the principles of community response to fragmentation and habitat loss at relatively large spatial and temporal scales relevant to metacommunity dynamics. Yet, it has been shown that also small scale processes, like foraging behaviour, space use by individuals and local resource competition are also important factors. However, most studies that consider these smaller scales are designed for single species and are characterized by high model complexity. Hence, they are not easily applicable to ecological communities of interacting individuals. To fill this gap, we apply an allometric model of individual home range formation to investigate the effects of habitat loss and fragmentation on mammal and bird communities, and, in this context, to investigate the role of interspecific competition and individual space use. Results show a similar response of both taxa to habitat loss. Community composition is shifted towards higher frequency of relatively small animals. The exponent and the 95%-quantile of the individual size distribution (ISD, described as a power law distribution) of the emerging communities show threshold behaviour with decreasing habitat area. Fragmentation per se has a similar and strong effect on mammals, but not on birds. The ISDs of bird communities were insensitive to fragmentation at the small scales considered here. These patterns can be explained by competitive release taking place in interacting animal communities, with the exception of bird's buffering response to fragmentation, presumably by adjusting the size of their home ranges. These results reflect consequences of higher mobility of birds compared to mammals of the same size and the importance of considering competitive interaction, particularly for mammal communities, in response to landscape fragmentation. Our allometric approach enables scaling up from individual physiology and foraging behaviour to terrestrial communities, and disentangling the role of individual space use and interspecific competition in controlling the response of mammal and bird communities to landscape changes. KW - Allometry KW - Body size KW - Fractal landscapes KW - Foraging movement KW - Individual-based model KW - Locomotion costs Y1 - 2013 U6 - https://doi.org/10.1016/j.ecoinf.2012.11.015 SN - 1574-9541 VL - 14 SP - 90 EP - 98 PB - Elsevier CY - Amsterdam ER -