The microalgal sector in Europe: towards a sustainable bioeconomy.

Microalgae are a diverse group of photosynthetic microorganisms that can be exploited to produce sustainable food and feed products, alleviate environmental pollution, or sequester CO to mitigate climate change, among other uses. To optimize resource use and integrate industrial waste streams, it is essential to consider factors such as the biology and cultivation parameters of the microalgal species and strains, as well as the cultivation system and processing technologies employed. This paper reviews the main commercial applications of microalgae (including cyanobacteria) and examines the biological and biotechnological aspects critical to the sustainable processing of microalgal biomass and its derived compounds.

Response of the tomato leaf miner Phthorimaea absoluta to wild and domesticated tomato genotypes.

Background: Phthorimaea absoluta, a highly destructive invasive pest, poses a significant threat to tomato production globally. Exploring alternative control methods, such as host plant resistance can contribute to diminish reliance on insecticides and promote sustainable integrated pest management (IPM) practices. Thus, the identification of new P.

Options for regulating new genomic techniques for plants in the European Union.

Which option for regulating plants derived from new genomic techniques in European Union law is feasible and justifiable scientifically? The European Commission has proposed a new regulation on plants obtained by specific new genomic techniques, which is now subject to discussion in the legislative process. From the perspective of the European Commission's envisaged legal reforms of European Union law towards the integration of greater sustainability, we conclude that the option focusing on plant traits delivering sustainability benefits should be chosen, which is most fitting to facilitate a contribution to climate action, the transition towards climate neutrality, and promptly integrate sustainability into all food-related policies. To assist the decision-making in the legislative process, we outline six regulatory options resulting from regulatory research involving interdisciplinary teams.

Assessing potential hybridization between a hypothetical gene drive-modified Drosophila suzukii and nontarget Drosophila species.

Genetically engineered gene drives (geGD) are potentially powerful tools for suppressing or even eradicating populations of pest insects. Before living geGD insects can be released into the environment, they must pass an environmental risk assessment to ensure that their release will not cause unacceptable harm to non-targeted entities of the environment. A key research question concerns the likelihood that nontarget species will acquire the functional GD elements; such acquisition could lead to reduced abundance or loss of those species and to a disruption of the ecosystem services they provide.