Fant 9758 publikasjoner. Viser side 66 av 391:
American Meteorological Society
2021
Implementing Citizen Science in Primary Schools: Engaging Young Children in Monitoring Air Pollution
Frontiers Media S.A.
2021
Instead of a flag valid/non-valid usually proposed in the quality control (QC) processes of air quality (AQ), we proposed a method that predicts the p-value of each observation as a value between 0 and 1. We based our error predictions on three approaches: the one proposed by the Working Group on Guidance for the Demonstration of Equivalence (European Commission (2010)), the one proposed by Wager (Journal of Machine Learning Research, 15, 1625–1651 (2014)) and the one proposed by Lu (Journal of Machine Learning Research, 22, 1–41 (2021)). Total Error framework enables to differentiate the different errors: input, output, structural modeling and remnant. We thus theoretically described a one-site AQ prediction based on a multi-site network using Random Forest for regression in a Total Error framework. We demonstrated the methodology with a dataset of hourly nitrogen dioxide measured by a network of monitoring stations located in Oslo, Norway and implemented the error predictions for the three approaches. The results indicate that a simple one-site AQ prediction based on a multi-site network using Random Forest for regression provides moderate metrics for fixed stations. According to the diagnostic based on predictive qq-plot and among the three approaches used in this study, the approach proposed by Lu provides better error predictions. Furthermore, ensuring a high precision of the error prediction requires efforts on getting accurate input, output and prediction model and limiting our lack of knowledge about the “true” AQ phenomena. We put effort in quantifying each type of error involved in the error prediction to assess the error prediction model and further improving it in terms of performance and precision.
MDPI
2021
2021
2021
Ftalater er organiske stoffer som hovedsakelig brukes til å gjøre plast mykere, særlig i PVC. Produksjonen av disse forbindelsene er ikke regulert på globalt nivå. Vi undersøkte nivåer av 12 ftalater i fett/spekk fra blåhval, finnhval, grønlandshval og isbjørn fra norsk Arktis. I tillegg målte vi nivåer av nedbrytningsprodukter av ftalater i plasma fra isbjørn. Bis(2-etylhexyl) ftalat (DEHP) var den eneste ftalat-forbindelsen som ble kvantifisert i prøvene. DEHP var til stede i de fleste hvalprøvene og nivåene i blå- og finnhvalspekk var lik nivåer av kjente miljøgifter som PCBer og organiske plantevernmidler. Nedbrytningsprodukter av ftalater ble funnet i lave konsentrasjoner i noen få isbjørnprøver. I tillegg undersøkte vi ftalaters potensial til å forstyrre finnhvalenes kjernereseptorer. Kjernereseptorer er proteiner som regulerer gener. De studerte reseptorene er viktige for å regulere blant annet metabolisme, stressresponser og energibalanse. Vi fant at DEHP både kan øke og hemme aktiviteten til skjoldbruskkjertelhormonreseptor, men da i høyere konsentrasjoner enn det som ble målt i spekk-/fettprøvene. Siden de studerte finnhvalreseptorene er helt eller nesten like de som finnes hos mange andre arter inkludert blåhval, vågehval, spekkhoggere, hvithval, isbjørn og mennesker, er resultatene også relevante for disse artene. Dette studiet bidrar til å øke kunnskapen om plastrelaterte stoffer og deres potensial til å forstyrre hormonsystemet hos marine pattedyr fra norsk Arktis.
Elsevier
2021
2021
2021
2021
Denne rapporten går igjennom status innen mikrosensorteknologien. Den vurderer tilgjengelighet av produkter på markedet, målte parametere og datakvalitet, samt hvilke muligheter sensorene åpner for når de blir brukt riktig.
NILU
2021
Pergamon Press
2021
2021
2021
2021
DNA repair gene polymorphisms and chromosomal aberrations in healthy, nonsmoking population
Elsevier
2021
2021
Målinger av PM10 i Lohavn. April og mai 2020.
On behalf of Hav Eiendom, NILU – Norwegian Institute for Air Research carried out measurements of particulate matter (PM10) in Lohavn in Oslo. The area will be developed into a new urban area with residential buildings, school, outdoor areas and businesses. The PM-concentration was measured at three locations in Lohavn to map the PM-distribution and possible sources. The measurement project took place in spring 2020. Possible effects of Covid-shutdown, variations in amount of traffic in the area and meteorological variations on the PM concentration are discussed.
The measurement results show a lower PM-concentration than in the measurement period 2016/17. The reason was probably the disappearance of temporary sources which led to periodically high concentrations in 2016/17. The highest PM10-concentrations were observed with winds from the south-southwest (which dominates during the day).
NILU
2021
2021
The report holds a comprehensive literature review on the non-exhaust PM emission from transport. All types of wear particles are considered (brake, tyre, road surface) and all modes (road, rail, aviation), with strong emphasis on road. The report serves as an input to review current emission inventories, summarizing the current emission estimates, the estimation methodologies, uncertainties and future trends, briefly zooming in on the relevance of electric vehicles. The report considers both air quality as well as the relevance of non-exhaust emission as a source of microplastics. To conclude, the report includes a brief overview of technological and policy options to reduce the environmental impact.
ETC/ATNI
2021
The report provides the annual update of the European air quality concentration maps and population exposure estimates for human health related indicators of pollutants PM10 (annual average, 90.4 percentile of daily means), PM2.5 (annual average), ozone (93.2 percentile of maximum daily 8-hour means, SOMO35, SOMO10) and NO2 (annual average), and vegetation related ozone indicators (AOT40 for vegetation and for forests) for the year 2018. The report contains also Phytotoxic ozone dose (POD) for wheat and potato maps and NOx annual average maps for 2018. The POD maps are presented for the first time in this regular mapping report. The trends in exposure estimates in the period 2005-2018 are summarized. The analysis is based on interpolation of annual statistics of the 2018 observational data reported by the EEA member and cooperating countries and other voluntary reporting countries and stored in the Air Quality e-reporting database. The mapping method is the Regression – Interpolation – Merging Mapping. It combines monitoring data, chemical transport model results and other supplementary data using linear regression model followed by kriging of its residuals (residual kriging). The paper presents the mapping results and gives an uncertainty analysis of the interpolated maps.
ETC/ATNI
2021