Fant 10000 publikasjoner. Viser side 332 av 400:
Fjernmåling av metanutslipp ved bruk av Sentinel-5P: en mulighetsstudie
Rapporten beskriver hvilke muligheter Sentinel-5P kan gi med tanke på å utvikle produkter for årlige nasjonale dekningskart med arealestimater med vekt på klimagassen metan.
NILU
2021
Kunnskapsstatus for tverrfaglig klima- og miljøforskning
På oppdrag fra Klima- og miljødepartementet har vi i dette arbeidet svart ut en rekke spørsmål om tverrfaglig klima- og miljøforskning, samt noen spørsmål om transfaglig forskning. Vi har samlet inn data gjennom flere litteratursøk, intervjuer, én spørreundersøkelse, workshop mm. Alle litteratursøk dekker klima og miljøpublikasjoner uavhengig av hvor forskningen er gjort. Alle andre funn fra forskningsmiljøene er avgrenset til grunnforskning og anvendt forskning ved universitetene og forskningsinstitutt som mottar grunnfinansiering. Bruk av klima- og miljøforskning i forvaltningen og involvering av forvaltningen er avgrenset til statlig forvaltning. Det er usikkerhet i våre funn, men funnene vurderes likevel som tilstrekkelig robuste til å svare ut spørsmålene. Vi finner at bruken av begrepet tverrfaglig er mangfoldig. Et bredt antall fag og institusjoner er involvert i slik forskning og det samarbeides mest på tvers av naturvitenskap og samfunnsvitenskap. Vi har funnet at andelen klima- og miljøpublikasjoner som er tverrfaglig på tvers av minst to av naturvitenskap, samfunnsvitenskap, humaniora og rettsvitenskap, er 24 prosent. I Norge oppleves behovet for tverrfaglig klima- og miljøforskning som økende. Den viktigste driveren for økningen er samfunnsbehovene. Det forskes også mer tverrfaglig. Et globalt litteratursøk antyder imidlertid at antall tverrfaglige klima- og miljøpublikasjoner og totalt antall klima- og miljøpublikasjoner øker med omtrent samme takt slik at andelen av publikasjoner som er tverrfaglige, endres i liten grad. Monofaglig praksis er vanligere enn flerfaglig. Flerfaglighet er vanligere enn tverrfaglighet. Det oppleves å være betydelige barrierer for tverrfaglig klima- og miljøforskning. Faglige barrierer og manglende merittering for tverrfaglig forskning løftes spesielt fram, men også andre barrierer er betydelige. Det er relativt liten forskjell i opplevelse av barrierer for forskere ved universitetene og forskningsinstitutter. For transfaglig forskning peker både forvaltning og forskere på mangel på tid som en sentral barriere. Forskning på tverrfaglig og transfaglig forskning øker.
CIENS
2021
Målinger av SO2 i omgivelsene til Elkem Carbon og REC Solar. Januar 2020 – desember 2020.
På oppdrag fra Elkem Carbon AS har NILU utført målinger av SO2 i omgivelsene til Elkem Carbon og REC Solar i Vågsbygd
(Kristiansand kommune). Bedriftene ble pålagt av Miljødirektoratet å gjennomføre SO2-målinger i omgivelsesluft.
Målingene ble utført med SO2-monitor i boligområdet på Fiskåtangen (Konsul Wilds vei) og med passive SO2-prøvetakere
ved 6 steder rundt bedriftene. Rapporten dekker målinger i perioden 1. januar 2020 – 31. desember 2020.
Norske grenseverdier for luftkvalitet (SO2) ble overholdt ved Konsul Wilds vei for alle midlingsperioder krevet i
forurensningsforskriften (årsmiddel, vintermiddel, døgnmiddel og timemiddel). De mest belastede stedene i måleperioden
var Konsul Wilds vei og Fiskåveien rett sør for bedriftene.
NILU
2021
Effects of rocket launches in Ny-Ålesund, 2018 - 2019. Observations of snow and air samples.
The report summarizes the results from additional snow sampling and regular monitoring activities in connection to the rocket launch in Ny-Ålesund 7 Dec 2018, 26 Nov 2019 and 10 Dec 2019 to document possible impacts on environment and on the monitoring activities in Ny-Ålesund. An enhanced deposition of aluminium (Al) and iron (Fe) on the local environment due to the rocket launch is observed.
NILU
2021
Beregning av luftkvalitet ved Bjørnheimveien 26
NILU har blitt engasjert av Prem Partners II A/S for å vurdere utbredelse av luftsoner for dagens situasjon og en framtidig situasjon med foreslått boligblokk i Bjørnheimveien 26. Det er anvendt en Gaussisk spredningsmodell for linjekilder (Hiway-2). Når det tas hensyn til at E6 går på bru ved det aktuelle området, viser beregningene et vesentlig lavere konsentrasjonsnivå og dermed mindre utbredelse av rød og gul luftsone på bakkenivå. Videre viser beregningene at skjermingseffekten for eksisterende bebyggelse av en ny bygning er marginal. Dersom de samme forutsetningene om høyde av veg og høyde av terreng legges til grunn, viser beregningene god overenstemmelse med eksisterende luftsonekart.
NILU
2021
Maximizing output from non-target screening
The purpose of this project is to dig deeper into the data material already generated in the Suspect screening in Nordic countries: Point sources in city areas (TemaNord: 2017:561) to further optimize the benefits of the major work that has already been done. Samples (effluent, sediment, and biota) from all of the Nordic countries were carefully selected, sampled and analysed by a consortium of some of the Nordic region’s most experienced scientific groups in analyses of emerging environmental contaminants. But where perhaps the full potential of the generated data is still to be realized. This project will try to further identify and describe the substances already detected, to be able to better understand what substances we in modern Nordic societies release into the sea via our wastewater.
Nordic Council of Ministers
2021
Status report of air quality in Europe for year 2019, using validated data
This report presents summarized information on the status of air quality in Europe in 2019, based on validated air quality monitoring data officially reported by the member and cooperating countries of the EEA. It aims at informing on the status of ambient air quality in Europe in 2019 and on the progress towards meeting the European air quality standards for the protection of health, as well as the WHO air quality guidelines. The report also compares the air quality status in 2019 with the previous three years. The pollutants covered in this report are particulate matter (PM10 and PM2.5), O3, NO2, benzo(a)pyrene (BaP), SO2, CO, benzene and toxic metals (As, Cd, Ni, Pb). Measured concentrations above the European air quality standards for PM10, PM2.5, O3, NO2 were reported by 21, 7, 24, and 22 European countries for 2019, respectively. Exceedances of the air quality standards for BaP, SO2, CO, and benzene were measured in, respectively, 14, 6, 3, and two European countries in 2019. Exceedances of European standards for toxic metals were reported by one country for Cd and Pb and by three countries for As and Ni.
ETC/ATNI
2021
This report presents VOC (volatile organic compound) measurements carried out during 2019 at EMEP monitoring sites. In total, 19 sites reported VOC-data from EMEP VOC sites this year. Some of the data-sets are considered preliminary and are not included in the report.
The monitoring of VOC has become more diverse with time in terms of instrumentation. Starting in the early 1990s with standardized methods based on manual sampling in steel canisters and adsorption tubes with subsequent analyses at the lab, the methods now consist of a variety of instruments and measurement principles, including automated continuous monitors and manual flask samples.
Within the EU infrastructure project ACTRIS, data quality issues related to measurements of VOC are an important topic. Many of the institutions providing VOC-data to EMEP are participating in the ACTRIS infrastructure project, either as formal partners or on a voluntary basis. Participation in ACTRIS means an extensive effort with data-checking including detailed discussions between the ACTRIS community and individual participants. There is no doubt that this extensive effort has benefited the EMEP-program substantially and has led to improved data quality in general.
Comparison between median levels in 2019 and the medians of the previous 10-years period, revealed similar geographical patterns as in the previous years. Changes in instrumentation, procedures and station network with time make it difficult though to provide a rigorous and pan-European assessment of long-term trends of the observed VOCs. In this report, we have estimated the trends in NMHC over the 2000-2019 period at five sites by three independent statistical methods. All three methods gave comparable estimates of the trends, although the Mann-Kendall method based on annual data (compared to daily data for the other two methods) found fewer significant trends.
These estimates indicate marked differences in the long-term trends for the individual species. Small or non-significant trends were found for ethane during 2000-2019. Propane also showed fairly small reductions. On the other hand, components linked to road traffic (ethene, ethyne and benzene) showed the strongest drop in mean concentrations, up to 60-80% at some stations.
NILU
2021
PM10/PM2.5 comparison exercise in Oslo, Norway. Study in 2015-2016 and 2018.
The purpose of the comparison was to test for equivalence and establish calibration functions for automatic PM-analysers commonly used in Norway. The reference laboratory performed a field test at three different locations in Oslo during summer and winter conditions in the periods September 2015 to July 2016 and February to March 2018. Participating analysers were Palas Fidas 200, Grimm EDM 180, TEI TEOM 1405 DF, TEI FH 62 I-R, and R&P TEOM 1400AB.
The report proposes a system to carry out ongoing verification of equivalence in the Norwegian monitoring network and how to calibrate analyser data.
NILU
2021
Transboundary particulate matter, photo-oxidants, acidifying and eutrophying components
Norwegian Meteorological Institute
2021
Heavy metals and POPs: Pollution assessment of toxic substances on regional and global scales
Meteorological Synthesizing Centre - East
2021
Status report of air quality in Europe for year 2020, using validated and up-to-date data
This report presents summarized information on the status of air quality in Europe in 2020, based on up-to date (i.e. prior to final quality control) and validated air quality monitoring data reported by the member and cooperating countries of the EEA. It aims at giving more timely and preliminary information on the status of ambient air quality in Europe in 2020 for five key air pollutants (PM10, PM2.5, O3, NO2 and SO2). The report also gives a preliminary assessment of the progress towards meeting the European air quality standards for the protection of health and the World Health Organization air quality guidelines, and compares the air quality status in 2020 with the previous three years. The preliminary data reported for 2020 shows that more than 10% of the monitoring stations exceeded the EU standards for PM10 and O3 and the WHO guidelines for PM2.5, PM10, O3 and SO2 in the EU-27 and UK. Exceedances of the NO2 limit value and WHO guideline still occur in 9 countries of the EU-27 and the UK.
ETC/ATNI
2021
Emission changes are the main driver of all air pollutant trends. For NO2 and PM10, both the GAM and the CTM results indicate that emission changes contribute to at least 90% of the 2000-2017 trend. For ozone peaks (as 4MDA8), meteorology can be important. The GAM model estimates that it contributes to an increase counteracting mitigation effort up to a magnitude of 20 to 80% (compared to the effect of emission and background changes) in Austria, Belgium, Czech Republic, France, and Italy. Given the good skill of the GAM model to capture meteorological effect, this estimate can be considered quite robust.
The relative contribution of agriculture and industry to the total PM10 mass has been reduced by around 30% for both sectors, but the similarity of evolution is not directly linked to the emission trends in the respective sectors. The relationship between emissions and concentrations is nonlinear and depends on availability of precursor gases to form ammonium sulphate and ammonium nitrate. The relative contribution of traffic sources to PM10 has been reduced with around 20%, while the trend attributed to residential heating is marginal. The heating sector has become a relatively more important contributor to the aerosol pollution and needs more attention. The model also indicates that the natural contributions (such as sea salt and dust) has had little impact on the long-term changes in PM10.
The analysis includes observational data only from stations with data available for at least 14 years in the period 2000-2017. This drastically reduces the number of monitoring sites included in the analysis and the spatial representativity of the assessment, with bias towards countries benefiting from a long-term monitoring network.
Further improvements of models as well as observational basis are needed to reduce the uncertainties. Understanding organic aerosols from the residential heating sector should be a priority.
ETC/ATNI
2021
Global environment outlook - Geo-6. Technical summary
he sixth Global Environment Outlook was launched in 2019 at the fourth UN Environment Assembly. It highlighted the ongoing damage to life and health from pollution and land degradation, and warned that zoonosis was already accounting for more than 60% of human infectious diseases. Since then the spread of COVID-19 has demonstrated the enormous challenges a global pandemic can cause for health care systems and the economy, as well as revealing potential environmental benefits of an altered lifestyle. This Technical Summary synthesizes the science and data in the GEO-6 report to make it accessible to a broad audience of policymakers, students and scientists. It demonstrates that more urgent and sustained action is required to address the degradation caused by our energy, food and waste systems and identifies a variety of transformational pathways for those seeking far-reaching policies for environmental and economic recovery.
Cambridge University Press
2021
Method for high resolution emission estimations from construction sites. Phase I: Mapping input data
This report presents the results from exploring the available input data to develop a model for estimating air pollutants and GHG-emissions based on a bottom-up approach, including both exhaust and non-exhaust emissions. The availability of
reliable input data is the limiting factor and the most critical part of designing such a bottom-up approach. In this study, we have focussed on assessing input data that allow defining; i) the exact location and area affected during building and construction; ii) the starting and finalization dates; iii) the type of construction activity; iv) the non-road mobile machinery (NRMM) activity within building and construction; v) roads in the vicinity of construction sites.
NILU
2021
- Aukra, Harøya, Fræna, Møre & Romsdal fylke, Ormen Lange
- Oljeindustri, prosessanlegg, miljøovervåking
- Luftforurensing, nitrogengjødsling, eutrofiering, forsuring
- Vegetasjon, artssammensetning, nedbørsmyr, kystlynghei
- Plantekjemi, jordanalyser, jordvannanalyser, tungmetaller, gjenanalyserAukra, Harøya, Fræna, Møre & Romsdal county, Ormen Lange
- Oil industry, process plant, environmental monitoring
- Air pollution, nitrogen fertilization, eutrophication, acidification
- Vegetation, species composition, bogs, heathland
- Plant chemistry, soil analyses, ground water analyses, heavy
metals, re-analyses
Norsk institutt for naturforskning (NINA)
2021
The increase of the commercial availability of low-cost sensor technology to monitor atmospheric composition is contributing to the rapid adoption of such technology by both public authorities and self-organized initiatives (e.g. grass root movements, citizen science, etc.). Low-cost sensors (LCS) can provide real time measurements, in principle at lower cost than traditional monitoring reference stations, allowing higher spatial coverage than the current reference methods. However, data quality from LCS is lower than the one provided by reference methods. Also, the total cost of deploying a dense sensor network needs to consider the costs associated not only to the sensor platforms but also the costs associated for instance with deployment, maintenance and data transmission.
This report aims to give an overview of the current status of LCS technology in relation to commercialization, measuring capabilities and data quality, with especial emphasis on the challenges associated to the use of this novel technology, and the opportunities they open when correctly used.
NILU
2021
Målinger av PM10 i Lohavn. April og mai 2020.
NILU – Norsk institutt for luftforskning har på oppdrag fra HAV Eiendom utført målinger av svevestøv (PM10) i Lohavn i Oslo. Området skal utvikles til et nytt byområde med boliger, skole, utearealer og næring. PM-konsentrasjonen ble målt på tre steder i Lohavn for å kartlegge svevestøvkonsentrasjonen og mulige kilder. Måleprosjektet pågikk våren 2020. Mulige effekter av Covid-nedstengning, variasjoner i trafikkmengden i området og variasjoner av meteorologiske parametere på PM-konsentrasjonen er diskutert.
Måleresultatene viser lavere PM-konsentrasjon enn i måleperioden 2016/17. Årsaken var trolig bortfall av midlertidige kilder som førte til periodevis høye konsentrasjoner i 2016/17. De høyeste PM10-konsentrasjonene ble observert ved vind fra sør-sørvest (som dominerer på dagtid).
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