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3. Årsovervåkning med FerryBox og satellittdata- Indre Oslofjord 2022 - Datarapport

Author

Eikrem, Wenche, Valestrand, Louise, Harvey, E. Therese, Saesin, Pipatthra, Berezina, Anfisa, and Tobiesen, August E.Dessen

Subjects
Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Inner Oslofjord, Phytoplankton, Kontinuerlige målinger, Ferrybox, Planteplankton, Continuous measurements, Indre Oslofjord
Abstract

Prosjektleder: Wenche Eikrem Denne rapporten presenterer resultatene fra årsovervåkningen utført for Fagrådet for vann- og avløpsteknisk samarbeid i indre Oslofjord i 2022 med bruk av NIVAs FerryBox system for måling og prøveinnsamling og fjernmålingsdata fra Copernicus-satellittene Sentinel-2 og 3. Høyoppløselige sensor-data fra FerryBox med observasjoner hver andre dag illustrerer frekvensen og intensiteten til algeblomstringene i fjorden godt og at de kan ha en varighet på under 2 uker. Med månedlig prøvetagning kan man miste informasjon om flere oppblomstringer. De øvrige sensordataene viser utviklingen av andre miljøog klimavariabler. Satellittdata ga en god romslig dekning av fjorden og gjorde det mulig å følge utviklingen av klorofyll-a i tid og rom. Det var god overensstemmelse mellom in situ data og satellitt data, men satellitt data viste i perioder (april og oktober) høyere verdier. For mange stasjoner kunne antallet observasjoner fordobles og for andre med få eller ingen in situ observasjoner ga satellitt nye data. Samsvaret mellom satellittdata og in situ data var god. Fagrådet for vann- og avløpsteknisk samarbeid i indre Oslofjord

Published
2023

5. International Intercomparison of In Situ Chlorophyll-a Measurements for Data Quality Assurance of the Swedish Monitoring Program

Author

Kratzer, Susanne, Harvey, E. Therese, and Canuti, Elisabetta

Subjects
General Medicine
Abstract

Chlorophyll-a is an essential climate variable. Chlorophyll-a in situ measurements are usually used for the validation of satellite images. Previous intercomparisons have shown that there can be substantial differences between in situ laboratories. In order to shed light on these differences, we arranged international chlorophyll-a intercomparisons with eight participating laboratories during 1–2 July 2021. We performed two dedicated transects through Bråviken bay (NW Baltic proper) and sampled four stations in each transect along a chlorophyll-a gradient. We took three surface replicates per laboratory and per station, i.e., 24 samples per laboratory. The samples were filtered through Whatman GF/F filters, and filters were frozen in liquid nitrogen and distributed in dry ice to all laboratories together with chlorophyll-a standards. The results between labs compared quite well. The mean normalized bias (MNB) of the standard measurements ranged between −23% and +19% for all laboratories and −7% to +19% for the Baltic Sea laboratories compared to high-performance liquid chromatography. The MNB of the two Bråviken transects ranged between −23 and +17% for all laboratories (compared to the median of all spectrophotometric and fluorometric measurements) and between −2 and +17% for the Baltic Sea laboratories. On average, the chlorophyll-a concentrations measured by the fluorometric method were about 13% higher than those measured by spectrophotometry, and fluorometry samples tended to have more scatter. The largest uncertainties seem to be caused by variable storage and extraction methods and are not fully captured in this intercomparison. This is demonstrated by analyzing historical comparisons revealing very large uncertainties (root mean square difference (RMSD) up to 109% and bias up to 68%), possibly due to too low filtration volumes and due to different extraction and storage methods. Our recommendation is to flash-freeze samples in liquid nitrogen and store them at −80°C. After storage, they should be extracted and measured at room temperature within 6–24 h. Our results also indicate that ethanol is much more efficient in extracting Chl-a than acetone. Last but not least, we would like to point out that the uncertainties in measuring chlorophyll-a by satellite are now within the range of in situ data, as shown here by comparing the in situ results from this study with published remote sensing results from the literature.

Published
2022
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6. Undersøkelse av hydrografiske og biologiske forhold i Indre Oslofjord Årsrapport 2021

Author

Staalstrøm, Andre, Andersen, Guri Sogn, Walday, Mats Gunnar, Engesmo, Anette, Gran-Stadniczeñko, Sandra, and Harvey, E. Therese

Subjects
Biological diversity, Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Hydromorphology, Phytoplankton, Hydromorfologi, Biologisk mangfold, Planteplankton, Økosystem, Ecosystem
Abstract

Prosjektleder/Hovedforfatter André Staalstrøm Vannkvaliteten er moderat på alle målestasjonene i Indre Oslofjord, inkludert Drøbaksundet. Det var dypvannsfornyelse i Bunnefjorden i 2021, kun litt over to år etter forrige dypvannsfornyelse. NFR sitt nye dypvannsutslipp i Bunnefjorden har gitt signifikant mer vertikal omrøring, som sannsynligvis var medvirkende til at dypvannet ble fornyet tidligere enn forventet. Drøbakjetéen har en positiv virkning på den vertikale omrøringen i fjorden og må bevares. I november 2021 ble det observert den største planteplanktonoppblomstringen i Oslofjorden på flere tiår.

Published
2022

7. Økokyst - DP Nordsjøen, Årsrapport 2021

Author

Trannum, Hilde Cecilie, Bekkby, Trine, Borgersen, Gunhild, Deininger, Anne, Eikrem, Wenche, Fagerli, Camilla With, Frigstad, Helene, Harvey, E. Therese, Heggem, Thomas, Mengeot, Caroline, Michelsen, Helena Kling, Tveiten, Lise Ann, and Valestrand, Louise

Subjects
Environmental status, Water Framework Directive, Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Miljøtilstand, Næringssalter, Biomangfold, Vannforskriften, Biodiversity, Nutrients
Abstract

Prosjektansvarlig Hilde Cecilie Trannum Overvåkingsprogrammet "Økosystemovervåking i Kystvann – Økokyst" har til hensikt å overvåke miljøtilstanden langs norskekysten i henhold til vannforskriften. Økokyst delprogram Nordsjøen dekker kyststrekningen fra Lista i sør til Sognefjorden i nord. Av de 19 vannforekomster som kunne klassifiseres, fikk 6 “svært god” tilstand, 10 «god» tilstand og 3 «moderat» tilstand. Tilstanden var minst “god” for makroalger, bløtbunnsfauna og planteplankton, mens det var støtteparameterne og ålegress som trakk ned tilstanden på stasjonene hvor samlet tilstand kun ble «moderat». Utover parameterne som kunne klassifiseres, ble dyreplankton, lys og andre “klimaparametere” overvåket på én stasjon i Sognefjorden. The monitoring program "Ecosystem Monitoring in Coastal Water - Økokyst" aims at monitoring the environmental status along the Norwegian coast according to vannforskriften (the Water Framework Directive). Subprogram Nordsjøen includes the coastline from Lista in south to Sognefjorden in north. Of the 19 water bodies that could be classified, 6 obtained «very good» state, 10 obtained “good” state and 3 “moderate” state. The state was at least “good” for macroalgae, soft bottom fauna and phytoplankton, while it was the supporting elements and sea grass which reduced the state for the stations where the overall state was only “moderate”. In addition to the parameters that could be classified, zooplankton, light and other “climate parameters” were monitored at one station in Sognefjorden.

Published
2022

8. ØKOKYST – DP Norskehavet Sør, Årsrapport 2021

Author

Deininger, Anne, Bekkby, Trine, Trannum, Hilde Cecilie, Borgersen, Gunhild, Eikrem, Wenche, Fagerli, Camilla With, Frigstad, Helene, Harvey, E. Therese, Heggem, Thomas, Mengeot, Caroline, Kvile, Kristina Øie, and Tveiten, Lise Ann

Subjects
Environmental status, Water Framework Directive, Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Miljøtilstand, Næringssalter, Biomangfold, Vannforskriften, Biodiversity, Nutrients
Abstract

Prosjektansvarlig Anne Deininger Overvåkingsprogrammet "Økosystemovervåking i Kystvann – Økokyst" har til hensikt å overvåke miljøtilstanden langs norskekysten i henhold til vannforskriften. Økokyst delprogram Norskehavet Sør dekker kyststrekningen fra Ulsteinvik i sør til Helgeland i nord. Av de 11 vannforekomster som kunne klassifiseres, fikk 1 “svært god” tilstand, 7 «god» tilstand og 3 «moderat» tilstand. Tilstanden var minst “god” for makroalger, bløtbunnsfauna og planteplankton, mens det var støtteparameterne og ålegress som trakk ned tilstanden på stasjonene hvor samlet tilstand kun ble «moderat».

Published
2022

9. Frequent sampling of microplastic particles in surface waters in the open parts of the Kattegat and Great Belt, Denmark

Author

Lusher, Amy, Singdahl-Larsen, Cecilie, Jaccard, Pierre Franqois, van Bavel, Bert, Valestrand, Louise, Harvey, E. Therese, and Andersen, Jesper Harbo

Subjects
Monitoring, Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Overvåking, Indre danske farvann, Marine Strategy Framework Directive, Microplastic, Inner Danish marine water, Havstrategidirektivet, Mikroplast
Abstract

Project manager E. Therese Harvey The EU Marine Strategy Framework Directive require that EU Member States establish appropriate strategies and sampling programmes for microplastic in the marine environment. We report the results of a second study sampling microplastics in the Inner Danish Water using the Ferrybox system onboard the ‘M/S Color Line Fantasy’ ferry between Oslo and Kiel. This study aimed to supplement and extend a pilot project following recommendations to increase sample frequency and sample volume.

Published
2021

10. Increased light attenuation in Norwegian coastal waters - A literature review

Author

Frigstad, Helene, Harvey, E. Therese, Deininger, Anne, and Poste, Amanda

Subjects
Biologiske effekter, Coastal darkening, Biological effects, Management measures, Kystformørkning, Forvaltningstiltak
Abstract

Project Manager Helene Frigstad This report describes the results of a literature review on increased light attenuation and biological effects in Norwegian waters and comparable global coastal regions. An overview of research projects on increased light attenuation is given.

Published
2020

11. Supplementary material to ECOMAR:A data-driven framework for ecosystembased Maritime Spatial Planning in Danish marine waters

Author

Andersen, Jesper Harbo, Hammer, Kathrine Jul, Harvey, E. Therese, Knudsen, Steen Wilhelm, Murray, Ciaran Joseph, Carstensen, Jacob, Petersen, Ib Krag, Sveegaard, Signe, Tougaard, Jakob, Edelvang, Karen, Olsen, Jeppe, Vinther, Morten, Al-Hamdani, Zyad, Jensen, Jørn Bo, Leth, Jørgen O, Kaae, Berit C, and Olafsson, Anton S

Subjects
Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Maritime Spatial Planning, Metode og datagrunnlag, Havplanlegging, Økosystemkomponenter, Pressfaktorer, Ecosystem components, Pressures
Abstract

Project manager Jesper H. Andersen This report contains, as said in the title, the supplementary material to the synthesis report from the ECOMAR project (2018- 2020). The supplementary material consists of three parts: 1) Annex A, being the data sets and layers dealing with human pressures and activities, 2) Annex B, being the data set related to ecosystem components and analogue data sets, and 3) Annex C, being additional data used for the mapping of potentially cumulative effects in Danish marine waters as well as maps of results mentioned, but not show in the synthesis report. For each data set, a specific reference to the data authoring organization as well as contact information for the Data Author. THE VELUX FOUNDATIONS

Published
2020

12. The Effect of Optical Properties on Secchi Depth and Implications for Eutrophication Management

Author

Harvey, E. Therese, Walve, Jakob, Andersson, Agneta, Karlson, Bengt, and Kratzer, Susanne

Subjects
Oceanography, Hydrology and Water Resources, Oceanografi, hydrologi och vattenresurser
Abstract

Successful management of coastal environments requires reliable monitoring methods and indicators. Besides Chlorophyll-a concentration (Chl-a), water transparency measured as Secchi Depth (ZSD) is widely used in Baltic Sea management for water quality assessment as eutrophication indicator. However, in many coastal waters not only phytoplankton but also colored dissolved organic matter (CDOM) and suspended particulate matter (SPM) influence the under-water light field, and therefore the ZSD. In this study all three main optical variables (CDOM, Chl-a, and SPM [organic and inorganic]) as well as ZSD were measured in three Swedish regions: the Bothnian Sea, the Baltic Proper, and the Skagerrak in 2010–2014. Regional multiple regressions with Chl-a, CDOM, and inorganic SPM as predictors explained the variations in ZSD well (Radj2 = 0.53–0.84). Commonality analyses of the regressions indicated considerable differences between regions regarding the contribution of each factor to the variance, Radj2, in ZSD. CDOM explained most of the variance in the Bothnian Sea and the Skagerrak; in general, Chl-a contributed only modestly to the ZSD variance. In the Baltic Proper the largest contribution was from the interaction of all three variables. As expected, the link between Chl-a and ZSD was much weaker in the Bothnian Sea with high CDOM absorption and SPM concentration. When applying the Swedish EU Water Framework Directive threshold for Good/Moderate Chl-a status in the models it was shown that ZSD is neither a sufficient indicator for eutrophication, nor for changes in Chl-a. Natural coastal gradients in CDOM and SPM influence the reference conditions for ZSD and other eutrophication indicators, such as the depth distribution of macro-algae. Hence, setting targets for these indicators based on reference Chl-a concentrations and simple Chl-a to ZSD relationships might in some cases be inappropriate and misleading due to overestimation of water transparency under natural conditions.

Published
2019

13. Ytelser og anvendelser ved bruk av fjernmålingsdata i overvåking av vannkvalitet for norske innsjøer. Evaluering av MERIS, Sentinel-2 og Sentinel-3 produkter

Author

Ledang, Anna Birgitta, Harvey, E. Therese, and Marty, Sabine

Subjects
Vannkvalitet, Lakes, Water quality, Monitoring, Matematikk og naturvitenskap: 400 [VDP], Mathematics and natural scienses: 400 [VDP], Overvåking, Fjernmåling, Remote sensing, Innsjøer
Abstract

Project Manager Anna Birgitta Ledang In this work, five lakes have been evaluated for the purpose of including satellite remote sensing products in water quality monitoring. Atmospheric correction has been performed and in-water products have been calculated, and the results are analysed in comparison with in situ data. The work shows that additional optical measurements are needed for a proper validation and for sound development of the remote sensing water quality products e.g. Chlorophyll-a (Chl-a). Still, Case2Regional CoastColour (C2RCC) products show promising results for the lakes investigated. A pixel-based average product of Chl-a, for example, shows the spatial variation within a lake which is a great add-on to the in situ classification and would otherwise be unavailable through conventional monitoring approaches. Challenges with dissolved organic matter absorbing in the same blue green spectra as chlorophyll needs careful consideration, and Chl-a products such as mean and yearly maps can be produced if the development of regional conversion factors are secured through additional sampling of the necessary parameters. Norwegian Environment Agency

Published
2019

15. Retrieval of suspended particulate matter from turbidity - model development, validation, and application to MERIS data over the Baltic Sea

Author

Kari, Elina, Kratzer, Susanne, Beltrán-Abaunza, José M., Harvey, E. Therese, Vaiciute, Diana, Kari, Elina, Kratzer, Susanne, Beltrán-Abaunza, José M., Harvey, E. Therese, and Vaiciute, Diana

Abstract

Suspended particulate matter (SPM) causes most of the scattering in natural waters and thus has a strong influence on the underwater light field, and consequently on the whole ecosystem. Turbidity is related to the concentration of SPM which usually is measured gravimetrically, a rather time-consuming method. Measuring turbidity is quick and easy, and therefore also more cost-effective. When derived from remote sensing data the method becomes even more cost-effective because of the good spatial resolution of satellite data and the synoptic capability of the method. Turbidity is also listed in the European Union's Marine Strategy Framework Directive as a supporting monitoring parameter, especially in the coastal zone. In this study, we aim to provide a new Baltic Sea algorithm to retrieve SPM concentration from in situ turbidity and investigate how this can be applied to satellite data. An in situ dataset was collected in Swedish coastal waters to develop a new SPM model. The model was then tested against independent datasets from both Swedish and Lithuanian coastal waters. Despite the optical variability in the datasets, SPM and turbidity were strongly correlated (r = 0.97). The developed model predicts SPM reliably from in situ turbidity (R-2 = 0.93) with a mean normalized bias (MNB) of 2.4% for the Swedish and 14.0% for the Lithuanian datasets, and a relative error (RMS) of 25.3% and 37.3%, respectively. In the validation dataset, turbidity ranged from 0.3 to 49.8 FNU (Formazin Nephelometric Unit) and correspondingly, SPM concentration ranged from 0.3 to 34.0 g m(-3) which covers the ranges typical for Baltic Sea waters. Next, the medium-resolution imaging spectrometer (MERIS) standard SPM product MERIS Ground Segment (MEGS) was tested on all available match-up data (n = 67). The correlation between SPM retrieved from MERIS and in situ SPM was strong for the Swedish dataset with r = 0.74 (RMS = 47.4 and MNB = 11.3%; n = 32) and very strong for the Lithuanian datas

Published
2017
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16. Retrieval of suspended particulate matter from turbidity – model development, validation, and application to MERIS data over the Baltic Sea

Author

Kari, Elina, Kratzer, Susanne, Beltrán-Abaunza, José M., Harvey, E. Therese, and Vaiciute, Diana

Subjects
Biologiska vetenskaper, Biological Sciences
Abstract

Suspended particulate matter (SPM) causes most of the scattering in natural waters and thus has a strong influence on the underwater light field, and consequently on the whole ecosystem. Turbidity is related to the concentration of SPM which usually is measured gravimetrically, a rather time-consuming method. Measuring turbidity is quick and easy, and therefore also more cost-effective. When derived from remote sensing data the method becomes even more cost-effective because of the good spatial resolution of satellite data and the synoptic capability of the method. Turbidity is also listed in the European Union's Marine Strategy Framework Directive as a supporting monitoring parameter, especially in the coastal zone. In this study, we aim to provide a new Baltic Sea algorithm to retrieve SPM concentration from in situ turbidity and investigate how this can be applied to satellite data. An in situ dataset was collected in Swedish coastal waters to develop a new SPM model. The model was then tested against independent datasets from both Swedish and Lithuanian coastal waters. Despite the optical variability in the datasets, SPM and turbidity were strongly correlated (r = 0.97). The developed model predicts SPM reliably from in situ turbidity (R-2 = 0.93) with a mean normalized bias (MNB) of 2.4% for the Swedish and 14.0% for the Lithuanian datasets, and a relative error (RMS) of 25.3% and 37.3%, respectively. In the validation dataset, turbidity ranged from 0.3 to 49.8 FNU (Formazin Nephelometric Unit) and correspondingly, SPM concentration ranged from 0.3 to 34.0 g m(-3) which covers the ranges typical for Baltic Sea waters. Next, the medium-resolution imaging spectrometer (MERIS) standard SPM product MERIS Ground Segment (MEGS) was tested on all available match-up data (n = 67). The correlation between SPM retrieved from MERIS and in situ SPM was strong for the Swedish dataset with r = 0.74 (RMS = 47.4 and MNB = 11.3%; n = 32) and very strong for the Lithuanian dataset with r = 0.94 (RMS = 29.5% and MNB = -1.5%; n = 35). Then, the turbidity was derived from the MERIS standard SPM product using the new in situ SPM model, but retrieving turbidity from SPM instead. The derived image was then compared to existing in situ data and showed to be in the right range of values for each sub-area. The new SPM model provides a robust and cost-efficient method to determine SPM from in situ turbidity measurements (or vice versa). The developed SPM model predicts SPM concentration with high quality despite the high coloured dissolved organic matter (CDOM) range in the Baltic Sea. By applying the developed SPM model to already existing remote sensing data (MERIS/Envisat) and most importantly to a new generation of satellite sensors (in particular OLCI on board the Sentinel-3), it is possible to derive turbidity for the Baltic Sea.

Published
2016

18. The use of ocean color remote sensing in integrated coastal zone management - A case study from Himmerfjärden, Sweden

Author

Kratzer, Susanne, Harvey, E. Therese, Philipson, Petra, Kratzer, Susanne, Harvey, E. Therese, and Philipson, Petra

Abstract

In this study the use of ocean color data as a diagnostic tool in integrated coastal zone management was investigated as part of the Science Policy Integration for Coastal Systems Assessment (SPICOSA) project. Parallel to this, an operational coastal monitoring system has been set up in close collaboration with end-users. The core work of the bio-optical part in the project was to develop Secchi depth and attenuation of light as indicators for coastal zone management, by linking remote sensing with the socio-economic and ecological model developed in SPICOSA. The article emphasizes the benefits of stakeholder involvement and end-user feedback for efficient and improved system development. Furthermore, conceptual models were developed on how to integrate remote sensing data into coastal zone management and into a physical-biological model of the Baltic Sea. One of the work packages in the SPICOSA project was academic training. In this work package, on-line teaching material in the field of remote sensing and bio-optics was developed and disseminated on the SETnet web page. The article presented here may act as supportive material for training in bio-optics and remote sensing., AuthorCount:3

Published
2013
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