Vegetables production in NW Portugal, agriculture practices and groundwater quality

In NW of Portugal, the region between Esposende and Vila do Conde was established into a unique system called masseiras; masseiras are small fields that were created at the beginning of XX century by removing sand from dunes. Since the 80’s sand between closed masseiras has been removed giving way for larger fields, the “enlarged masseira with greenhouses”. This region is part of vulnerable zone nº1 (VZ1). Nowadays, the masseiras have almost disappeared; they had been replaced by “enlarged masseiras with plastic greenhouses” exploited by a new generation of growers. As water quality is an indicator of agriculture practices, 8 wells were selected and water samples were collected on four dates from September 2009 to May 2010. Laboratorial analysis was performed on nitrates and 28 pesticides. The results confirm that water in VZ1 is contaminated with nitrates (as it was expected) and also with pesticides. The water was contaminated in both dug wells and drilled wells all year round. Masseiras’ wells have more nitrates than greenhouses’ wells, probably due to poor agricultural practices used by growers who still employ high quantities of fertilizers and water. Pesticides detected in water samples include some that have been sprayed in the field and others that have not. Some forbidden substances were found. Our results confirm that, in VZ1, there is a diffusion contamination, which origin is unknown. In this communication, we put in picture the history of masseiras fields: how masseiras fields have been created and how they have disappeared; what trends exist in pest management strategies and the use of fertilizers, pesticides and water resources. These results reinforce the need to change the agricultural system in this region of traditional vegetable production.

A gripe em Portugal: análise preliminar da atividade gripal na época 2015/2016

Este estudo pretende divulgar a análise preliminar dos dados da atividade gripal em Portugal na época de 2015/2016 (setembro de 2015 a junho de 2016). Segundo o Programa Nacional de Vigilância da Gripe (PNVG) a atividade gripal foi considerada de baixa intensidade, tendo ocorrido o período epidémico entre as semanas 1/2016 e 9/2016. O valor máximo de incidência foi observado na semana 3/2016 (59,4 casos por 100 000 habitantes). O vírus da gripe foi detetado em 40,7% (449/1.104) dos casos de síndroma gripal (SG) estudados. O vírus da gripe do subtipo A(H1)pdm09 foi detetado em 90,4% (406/449) dos casos de gripe. O vírus A(H1)pdm09 foi o mais frequente em todos os grupos etários, sendo a percentagem mais elevada no grupo etário 65 ou mais anos (97,4%). O vírus da gripe do tipo B (linhagem Victoria) foi detetado com maior frequência nas crianças entre os 5 e os 14 anos de idade (14,3%). Todos os vírus da gripe A(H1)pdm09 isolados e caraterizados antigenicamente foram semelhantes à estirpe vacinal A/California/7/2009, contemplada na vacina antigripal do Hemisfério Norte 2015/2016. Os vírus da gripe do tipo B (linhagem Victoria) caraterizados foram antigénicamente diferentes da estirpe contemplada na vacina antigripal do Hemisfério Norte 2015-2016. Foi detetado em circulação o vírus do subtipo A(H3), semelhante à estirpe selecionada para a composição da vacina antigripal da época de 2016/2017 (A/Hong Kong/4801/2014). Os vírus da gripe A(H1)pdm09 que predominaram em circulação em Portugal durante a época de 2015/2016 foram antigenicamente semelhantes à estirpe que integrou a vacina antigripal para o mesmo inverno.

Seasonal influenza vaccine effectiveness in Portugal: results from the EuroEVA project 2015/16

The EuroEVA study aimed to estimate the 2015-16 end of season influenza vaccine effectiveness for all population and for the influenza vaccination target group. The presented results resulted from implementation of the study during 2015/2016 season.

Influenza vaccine effectiveness in Portugal: season 2015/2016 report

This report was prepared as part of the Project “Monitoring Influenza vaccine effectiveness during influenza seasons and pandemics in the European Union” and describes the results obtained in Portugal under the Protocol Agreement celebrated between EpiConcept SARL, Paris and National Health Institute Dr. Ricardo Jorge, Lisbon. Data and activities related to the individuals 65 years and more were funded by European Union’s Horizon 2020 research and innovation programme under grant agreement no 634446.

Environmental exposure to toxicants mixtures from a multi-purpose estuary: perspectives for a biomonitoring study in Portugal

This work was focused on a multi-purpose estuarine environment (river Sado estuary, SW Portugal) around which a number of activities (e.g., fishing, farming, heavy industry, tourism and recreational activities) coexist with urban centres with a total of about 200 000 inhabitants. Based on previous knowledge of the hazardous chemicals within the ecosystem and their potential toxicity to benthic species, this project intended to evaluate the impact of estuarine contaminants on the human and ecosystem health. An integrative methodology based on epidemiological, analytical and biological data and comprising several lines of evidence, namely, human contamination pathways, human health effects, consumption of local produce, estuarine sediments, wells and soils contamination, effects on commercial benthic organisms, and genotoxic potential of sediments, was used. The epidemiological survey confirmed the occurrence of direct and indirect (through food chain) exposure of the local population to estuarine contaminants. Furthermore, the complex mixture of contaminants (e.g., metals, pesticides, polycyclic aromatic hydrocarbons) trapped in the estuary sediments was toxic to human liver cells exposed in vitro, causing cell death, oxidative stress and genotoxic effects that might constitute a risk factor for the development of chronic-degenerative diseases, on the long term. Finally, the integration of data from several endpoints indicated that the estuary is moderately impacted by toxicants that affect also the aquatic biota. Nevertheless, the human health risk can only be correctly assessed through a biomonitoring study including the quantification of contaminants (or metabolites) in biological fluids as well as biomarkers of early biological effects (e.g., biochemical, genetic and omics-based endpoints) and genetic susceptibility in the target population. Data should be supported by a detailed survey to assess the impact of the contaminated seafood and local farm products consumption on human health and, particularly, on metabolic diseases or cancer development.