A unified model of species abundance, genetic diversity, and functional diversity reveals the mechanisms structuring ecological communities.

Biodiversity accumulates hierarchically by means of ecological and evolutionary processes and feedbacks. Within ecological communities drift, dispersal, speciation, and selection operate simultaneously to shape patterns of biodiversity. Reconciling the relative importance of these is hindered by current models and inference methods, which tend to focus on a subset of processes and their resulting predictions. Here we introduce massive ecoevolutionary synthesis simulations (MESS), a unified mechanistic model of community assembly, rooted in classic island biogeography theory, which makes temporally explicit joint predictions across three biodiversity data axes: (i) species richness and abundances, (ii) population genetic diversities, and (iii) trait variation in a phylogenetic context. Using simulations we demonstrate that each data axis captures information at different timescales, and that integrating these axes enables discriminating among previously unidentifiable community assembly models. MESS is unique in generating predictions of community-scale genetic diversity, and in characterizing joint patterns of genetic diversity, abundance, and trait values. MESS unlocks the full potential for investigation of biodiversity processes using multidimensional community data including a genetic component, such as might be produced by contemporary eDNA or metabarcoding studies. We combine MESS with supervised machine learning to fit the parameters of the model to real data and infer processes underlying how biodiversity accumulates, using communities of tropical trees, arthropods, and gastropods as case studies that span a range of data availability scenarios, and spatial and taxonomic scales.

Global perspectives on food fraud: results from a WHO survey of members of the International Food Safety Authorities Network (INFOSAN).

This survey of International Food Safety Authorities Network (INFOSAN) members regarding food fraud prevention, management, education, and information sharing included 166 WHO member states that resulted in 175 responses. The respondents engage in food fraud prevention (70%) or are responsible for food fraud incident response (74%). Nearly all respondents acknowledged a desire for more guidance and information on best practices in managing the full range of "food safety events involving food fraud" (97%), but also for prevention of such events (97%), indicating a need to provide technical support beyond acute incident response. The scope of food fraud covered in the survey comprised the full range of fraudulent activities, including the addition of adulterant-substances, tampering (including mislabeling), theft, smuggling, gray market/diversion, and counterfeiting (intellectual property rights). Key needs included: capacity-building/education; a platform for information sharing; and utilization of INFOSAN as an interagency/intergovernmental collaboration point.

In Search of Real Circumcision: Ritual Failure and Circumcision in Paul.

This article applies the theoretical framework of 'ritual failure', a sub-discipline of ritual criticism, to Paul's discussion of circumcision in his letter to the Galatians, Philippians and Romans. It is argued that the application of this theoretical perspective clarifies the dynamics at stake and provides a new way of understanding the development in Paul's position regarding circumcision. There is movement from an attitude of strong propagation, by way of indifference and a subsequent attitude of rejection, to one of modified reintegration into Paul's thinking. At every turn of this development, ritual failure plays a pivotal role and functions as a catalyst for the development of Paul's theology.

Avian influenza H5N1: risks at the human-animal interface.

BACKGROUND: Great concern has arisen over the continued infection of humans with highly pathogenic avian influenza (HPAI) of the H5N1 subtype. Ongoing human exposure potentially increases the risk that a pandemic virus strain will emerge that is easily transmissible among humans. Although the pathogenicity of a pandemic strain cannot be predicted, the high mortality seen in documented H5N1 human infections thus far has raised the level of concern. OBJECTIVES: To define the three types of influenza that can affect humans, discuss potential exposure risks at the human-animal interface, and suggest ways to reduce exposure and help prevent development of a pandemic virus. METHODS: This review is based on data and guidelines available from the World Health Organization, the scientific literature, and official governmental reports. RESULTS: Epidemiological data on human exposure risk are generally incomplete. Transmission of HPAI to humans is thought to occur through contact with respiratory secretions, feces, contaminated feathers, organs, and blood from live or dead infected birds and possibly from contaminated surfaces. Consumption of properly cooked poultry and eggs is not thought to pose a risk. Use of antiviral containment and vaccination may protect against development of a pandemic. CONCLUSIONS: To most effectively decrease the risk of a pandemic, the public health and animal health sectors--those which are responsible for protecting and improving the health of humans and animals, respectively--must collaborate to decrease human exposure to HPAI virus, both by controlling virus circulation among poultry and by assessing the risks of human exposure to avian influenza virus at the human-animal interface from primary production through consumption of poultry and poultry products, and implementing risk-based mitigation measures.