Policy masquerading as science: an examination of non-state actor involvement in European risk assessment policy for genetically modified animals

In 2013, at the request of the European Commission, the European Food Safety Authority (EFSA) announced a new risk assessment policy: Guidance on the environmental risks of genetically modified (GM) animals (‘Guidance’). This policy specifies the issues to be addressed in future risk assessments for GM animals. EFSA is the European Commission's scientific arm, responsible for food-related risk assessment. EFSA relies heavily on independent experts and consults non-state actors. Employing expert interviews and documentary analysis, the article explores non-state actor involvement in a traditionally expert domain through a case study. Analysis of EFSA's consultation demonstrates the inability of non-state actors to influence policy. The article argues that despite international legal obligations to develop risk assessment policy, the European Commission failed to recognize the Guidance as policy. When policy masquerades as science, unjustified restrictions are placed on non-state actor involvement and value judgements are cloaked from public scrutiny

Organotins: Sources and Impacts on Health and Environment

Organotin compounds are used as biocides, plastic stabilizers, and catalysts for the production of polyurethanes and silicones. Their notoriety is due to tributyltin (TBT), a potent biocide extensively used in antifouling paints until the beginning of the 21st century. As a consequence of its widespread use, TBT was responsible for the contamination of the marine environment at a global scale, causing several deleterious effects toward nontarget organisms, including imposex in gastropods, which is still considered the best example of endocrine disruption in wildlife. In mammals, including humans, organotins' negative effects comprise cardiotoxicity, neurotoxicity, immunotoxicity, and endocrine/metabolic dysfunction, including obesity

Ceramic foam supported active materials for boron remediation in water

Due to the narrowrange between boron necessities and toxicity in the environment, there is a high interest in the design of effective boron remediation procedures. We have previously reported a promising boron adsorptionmaterial based on the affinity of boron aqueous species for cis-diol groups that were anchored on differentmesoporous silica matrices.However, the small particle size of these systemsmakes themdifficult to be applied on real remediation situations. In this context we report herein a novel systemfor boron adsorption fromaqueous solutions inwhich the high boron affinity for functionalized mesoporousmaterials is combined with themechanical properties of ceramic foams as macroscopic supports. The efficiency of these new composites for boron removal is very high and comparable with the parent microparticulated adsorbent.Financial support from the Spanish Government (Project MAT2009-14564-C04-01 and MAT2009-14564-C04-04, and MAT2012-38429-C04-01 and MAT2012-38429-C04-02) and the Generalitat Valenciana (Project PROMETEO/2009/016) is gratefully acknowledged. C.S. thanks the MICINN for a predoctoral fellowship.Sanfeliu Cano, C.; Martínez-Máñez, R.; Sancenón Galarza, F.; Soto Camino, J.; Amoros Del Toro, PJ.; Marcos Martínez, MD. (2015). Ceramic foam supported active materials for boron remediation in water. Desalination. 374:10-19. https://doi.org/10.1016/j.desal.2015.06.020S101937