A history of United States military simulation

Understanding and predicting species extinctions and coextinctions is a major goal of ecological research in the face of a biodiversity crisis. Typically, models based on network topology are used to simulate coextinctions in mutualistic networks. However, such topological models neglect two key biological features of species interactions: variation in the intrinsic dependence of species on the mutualism, and variation in the relative importance of each interacting partner. By incorporating both types of variation, we developed a stochastic coextinction model capable of simulating extinction cascades far more complex than those observed in previous topological models. Using a set of empirical mutualistic networks, we show that the traditional topological model may either underestimate or overestimate the number and likelihood of coextinctions, depending on the intrinsic dependence of species on the mutualism. More importantly, contrary to topological models, our stochastic model predicts extinction cascades to be more likely in highly connected mutualistic communities.

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Influenza Virus Vaccination Elicits Poorly Adapted B Cell Responses in Elderly Individuals

Henry

Zheng

Huang

et al. 2019

Cell Host & Microbe

123

127

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Winners and losers: a meta‐analysis of functional determinants of fighting ability in arthropod contests

Vieira

Peixoto

2013

Functional Ecology

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Summary1. Many game-theoretical models assume that the outcome of agonistic interactions depends on morphological and physiological asymmetries between rivals (the RHP-asymmetry hypothesis). However, some empirical studies fail at identifying traits linked to fighting capacity and are thus unable to support the role of RHP in contest resolution. Perhaps the role of RHP asymmetries in contest resolution is less general than previously thought. 2. If RHP asymmetries are indeed important, then the actual suite of relevant traits should depend on how costs are accrued during disputes (the functional hypothesis). In species in which contests involve physical contact at some stage, strength-related traits should be important, whereas in species in which disputes do not involve physical contact, persistence-related traits should determine individual fighting ability. 3. We performed a meta-analysis to investigate the generality of morphological and physiological asymmetries between winners and losers in arthropod contests. We also investigated whether the suite of traits determining fighting ability differs between disputes involving physical contact and disputes in which physical contact is absent. 4. We show that RHP asymmetries are a general property of contest settlement among arthropods. However, strength-related traits did not have a greater effect than persistence-related traits in determining the settlement of disputes involving physical contact. Neither did persistence-related traits have a greater role in disputes without physical contact than in those involving physical contact. 5. We provide the first quantitative assessment of the generality and magnitude of RHP asymmetries in contest resolution among arthropods. As different suites of traits were important regardless of the type of dispute, we highlight the importance of considering functionally diverse morphological and physiological traits when trying to identify determinants of fighting ability in agonistic interactions, instead of focusing on a few functionally similar traits. 6. The assumption of fighting capacity differences among rivals in game-theoretical models was supported by our data. Consequently, models predicting contest settlement based on uncorrelated asymmetries are incompatible with the observation that winners and losers consistently differ in certain attributes.

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Contrasting Effects of Land Use Intensity and Exotic Host Plants on the Specialization of Interactions in Plant-Herbivore Networks

et al. 2015

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Human land use tends to decrease the diversity of native plant species and facilitate the invasion and establishment of exotic ones. Such changes in land use and plant community composition usually have negative impacts on the assemblages of native herbivorous insects. Highly specialized herbivores are expected to be especially sensitive to land use intensification and the presence of exotic plant species because they are neither capable of consuming alternative plant species of the native flora nor exotic plant species. Therefore, higher levels of land use intensity might reduce the proportion of highly specialized herbivores, which ultimately would lead to changes in the specialization of interactions in plant-herbivore networks. This study investigates the community-wide effects of land use intensity on the degree of specialization of 72 plant-herbivore networks, including effects mediated by the increase in the proportion of exotic plant species. Contrary to our expectation, the net effect of land use intensity on network specialization was positive. However, this positive effect of land use intensity was partially canceled by an opposite effect of the proportion of exotic plant species on network specialization. When we analyzed networks composed exclusively of endophagous herbivores separately from those composed exclusively of exophagous herbivores, we found that only endophages showed a consistent change in network specialization at higher land use levels. Altogether, these results indicate that land use intensity is an important ecological driver of network specialization, by way of reducing the local host range of herbivore guilds with highly specialized feeding habits. However, because the effect of land use intensity is offset by an opposite effect owing to the proportion of exotic host species, the net effect of land use in a given herbivore assemblage will likely depend on the extent of the replacement of native host species with exotic ones.

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Spec-seq unveils transcriptional subpopulations of antibody-secreting cells following influenza vaccination

Neu¹,

Guthmiller²,

Huang³

et al. 2018

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Plant-Pollinator Coextinctions and the Loss of Plant Functional and Phylogenetic Diversity

2013

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Plant-pollinator coextinctions are likely to become more frequent as habitat alteration and climate change continue to threaten pollinators. The consequences of the resulting collapse of plant communities will depend partly on how quickly plant functional and phylogenetic diversity decline following pollinator extinctions. We investigated the functional and phylogenetic consequences of pollinator extinctions by simulating coextinctions in seven plant-pollinator networks coupled with independent data on plant phylogeny and functional traits. Declines in plant functional diversity were slower than expected under a scenario of random extinctions, while phylogenetic diversity often decreased faster than expected by chance. Our results show that plant functional diversity was relatively robust to plant-pollinator coextinctions, despite the underlying rapid loss of evolutionary history. Thus, our study suggests the possibility of uncoupled responses of functional and phylogenetic diversity to species coextinctions, highlighting the importance of considering both dimensions of biodiversity explicitly in ecological studies and when planning for the conservation of species and interactions.

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Seasonal variation in diet breadth of folivorous Lepidoptera in the Brazilian cerrado

et al. 2016

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Documented patterns of specialization and species interactions often omit plasticity in resource use across space and time, yet such variation is an important part of species interactions. To examine temporal variation in resource use, we compared species‐ and community‐level patterns of host plant use by folivorous caterpillars between the dry and rainy seasons in four preserved areas of cerrado vegetation in the Distrito Federal, Brazil. We sampled plants and caterpillars in 10 m circular plots monthly from March 2010 to March 2011. At the community level, we found a significant increase in the mean diet breadth of dry season caterpillars relative to those collected in the rainy season. Families and species of moths varied in diet breadth, but most exhibited a seasonal expansion. In particular, intraspecific comparisons showed a 30% increase in the number of host plants used in the dry season compared to the rainy season. These results provide a clear example of how temporal variation in resource use is heterogeneous, and more generalized patterns of resource use can emerge from studies at large temporal scales. Thus, seasonal or annual heterogeneity may obscure ecologically relevant specialized interactions that occur at smaller scales.

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Influenza immune escape under heterogeneous host immune histories

Oidtman

Arevalo

et al. 2021

Trends in Microbiology

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12 3

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A simple stochastic model for complex coextinctions in mutualistic networks: robustness decreases with connectance

Influenza Virus Vaccination Elicits Poorly Adapted B Cell Responses in Elderly Individuals

Winners and losers: a meta‐analysis of functional determinants of fighting ability in arthropod contests

Contrasting Effects of Land Use Intensity and Exotic Host Plants on the Specialization of Interactions in Plant-Herbivore Networks

Spec-seq unveils transcriptional subpopulations of antibody-secreting cells following influenza vaccination

Plant-Pollinator Coextinctions and the Loss of Plant Functional and Phylogenetic Diversity

Seasonal variation in diet breadth of folivorous Lepidoptera in the Brazilian cerrado

Influenza immune escape under heterogeneous host immune histories

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