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  • 1
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    Responses of summer phytoplankton biomass to changes in top-down forcing : insights from comparative modelling (2018)
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © The Author(s), 2018. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Ecological Modelling 376 (2018): 54-67, doi:10.1016/j.ecolmodel.2018.03.003.
    Description: The present study describes the responses of summer phytoplankton biomass to changes in top-down forcing (expressed as zooplankton mortality) in three ecosystems (the North Sea, the Baltic Sea and the Nordic Seas) across different 3D ecosystem models. In each of the model set-ups, we applied the same changes in the magnitude of mortality (±20%) of the highest trophic zooplankton level (Z1). Model results showed overall dampened responses of phytoplankton relative to Z1 biomass. Phytoplankton responses varied depending on the food web structure and trophic coupling represented in the models. Hence, a priori model assumptions were found to influence cascades and pathways in model estimates and, thus, become highly relevant when examining ecosystem pressures such as fishing and climate change. Especially, the different roles and parameterizations of additional zooplankton groups grazed by Z1, and their importance for the outcome, emphasized the need for better calibration data. Spatial variability was high within each model indicating that physics (hydrodynamics and temperature) and nutrient dynamics also play vital roles for ecosystem responses to top-down effects. In conclusion, the model comparison indicated that changes in top-down forcing in combination with the modelled food-web structure affect summer phytoplankton biomass and, thereby, indirectly influence water quality of the systems.
    Description: The work was supported by the EU grant “Vectors of Change in Oceans and Seas, Marine Life, Impact and Economic Sectors” (Vectors, FP7/2010-2013) and The Danish Council for Strategic Research to the project “Integrated Management of Agriculture, Fishery, Environment and Economy” (IMAGE, grant no. 09-067259).
    Keywords: Plankton functional types ; Trophic cascades ; Zooplankton mortality ; Phytoplankton ; Ensemble modelling
    Repository Name: Woods Hole Open Access Server
    Type: Preprint
    Location Call Number Limitation Availability
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    PAPER (OA)
  • 2
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    Composition of the metazooplankton community and structure across the continental shelf off tropical NW Australia (2009)
    In:  [Talk] In: ASLO Aquatic Sciences Meeting 2009, 25.-30.01.2009, Nice, France .
    Details
    Publication Date: 2014-05-07
    Description: This talk focuses on the distribution pattern and grazing impact of different functional metazooplankton groups in a tropical marine ecosystem. We studied the metazooplankton distribution across the continental shelf from eutrophic mangrove areas to the oligotrophic deep blue ocean off NW Australia. Chlorophyll a concentrations were reduced by factor 10 along the transect including a shift towards small sized primary producers. The metazooplankton biomass followed the same pattern. Even though low in abundance, copepods were most frequent followed by larvaceans, doliolids other thaliacea and chaetognaths. Small size classes 〈200 μm dominated the zooplankton and e.g. 80 % of the larvacean community belonged to the micro-size fraction. We show that gelatinous zooplankton is of key importance for the carbon cycling in this tropical area. Larvaceans exceeded the copepod grazing impact on the primary producers especially in oligotrophic areas. The metazooplankton community structure and production reflect biotic and abiotic conditions of the system. We show that small size classes, especially larvaceans, have a higher contribution to secondary production and carbon cycling in tropical oligotrophic areas than previously thought
    Type: Conference or Workshop Item , NonPeerReviewed
    Location Call Number Limitation Availability
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    OceanRep: Talk
  • 3
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    Projecting changes in the distribution and productivity of living marine resources: A critical review of the suite of modelling approaches used in the large European project VECTORS (2018)
    Elsevier
    In:  Estuarine, Coastal and Shelf Science, 201 . pp. 40-55.
    Details
    Publication Date: 2021-02-08
    Description: We review and compare four broad categories of spatially-explicit modelling approaches currently used to understand and project changes in the distribution and productivity of living marine resources including: 1) statistical species distribution models, 2) physiology-based, biophysical models of single life stages or the whole life cycle of species, 3) food web models, and 4) end-to-end models. Single pressures are rare and, in the future, models must be able to examine multiple factors affecting living marine resources such as interactions between: i) climate-driven changes in temperature regimes and acidification, ii) reductions in water quality due to eutrophication, iii) the introduction of alien invasive species, and/or iv) (over-)exploitation by fisheries. Statistical (correlative) approaches can be used to detect historical patterns which may not be relevant in the future. Advancing predictive capacity of changes in distribution and productivity of living marine resources requires explicit modelling of biological and physical mechanisms. New formulations are needed which (depending on the question) will need to strive for more realism in ecophysiology and behaviour of individuals, life history strategies of species, as well as trophodynamic interactions occurring at different spatial scales. Coupling existing models (e.g. physical, biological, economic) is one avenue that has proven successful. However, fundamental advancements are needed to address key issues such as the adaptive capacity of species/groups and ecosystems. The continued development of end-to-end models (e.g., physics to fish to human sectors) will be critical if we hope to assess how multiple pressures may interact to cause changes in living marine resources including the ecological and economic costs and trade-offs of different spatial management strategies. Given the strengths and weaknesses of the various types of models reviewed here, confidence in projections of changes in the distribution and productivity of living marine resources will be increased by assessing model structural uncertainty through biological ensemble modelling.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1016/j.ecss.2016.05.019
    Location Call Number Limitation Availability
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 4
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    CD180 expression in B-cell lymphomas: A multicenter GEIL study (2015)
    Wiley-Blackwell
    Details
    Publication Date: 2015-09-20
    Topics: Biology , Medicine
    Published by Wiley-Blackwell
    Location Call Number Limitation Availability
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    PAPER CURRENT
  • 5
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    Water currents and light intensity data for estimating sediment plume size and light conditions from mussel dredging in two areas of the Limfjorden, Denmark (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: As part of a research project supported by the European Marine Fishery Fund and the Danish Fisheries Agency (grant no. 33113-I-16-011) and the Danish Centre for Environment and Energy at Aarhus University, field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging. In addition, a 600 kHz ADCP (RDI Workhorse Sentinel) was deployed at each site (station 1 at the Lovns Bredning mooring, station 3 at the Løgstør Bredning mooring) in a bottom-mounted, upward-looking configuration. 30-second ensembles of 3D velocity components were collected along with corresponding records of beam correlation and error velocity. Each vertical profile had a bin size of 0.5 m and the first bin was at 1.59 m above the bottom (blanking distance: 0.88 m). The velocity data time series at each bin were filtered using a 30 minute moving average.
    Keywords: ADCP; light intensity; Limfjorden; mussel dredging; Sediment plumes
    Type: Dataset
    Format: application/zip, 20 datasets
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 6
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    Light intensity time series from 16 locations in Løgstør Bredning, Limfjorden, Denmark, at 0.5 m above seabed, 9-March-2017 (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging.
    Keywords: Date/Time local; Event label; Height above sea floor/altitude; HOBO_ON; HOBO Pendant Temperature/Light 64K Data Logger; Illuminance; light intensity; Limfjorden; MULT; Multiple investigations; mussel dredging; Onset HOBO data logger; Sediment plumes; Time in hours; Tloi_01; Tloi_02; Tloi_03; Tloi_04; Tloi_05; Tloi_06; Tloi_07; Tloi_08; Tloo_09; Tloo_10; Tloo_11; Tloo_12; Tloo_13; Tloo_14; Tloo_15; Tloo_16
    Type: Dataset
    Format: text/tab-separated-values, 181503 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 7
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    Light intensity time series from 16 locations in Løgstør Bredning, Limfjorden, Denmark, at 1.5 m above seabed, 7-March-2017 (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging.
    Keywords: Date/Time local; Event label; Height above sea floor/altitude; HOBO_ON; HOBO Pendant Temperature/Light 64K Data Logger; Illuminance; light intensity; Limfjorden; MULT; Multiple investigations; mussel dredging; Onset HOBO data logger; Sediment plumes; Time in hours; Tloi_01; Tloi_02; Tloi_03; Tloi_04; Tloi_05; Tloi_06; Tloi_07; Tloi_08; Tloo_09; Tloo_10; Tloo_11; Tloo_12; Tloo_13; Tloo_14; Tloo_15; Tloo_16
    Type: Dataset
    Format: text/tab-separated-values, 186176 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 8
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    Light intensity time series from 16 locations in Løgstør Bredning, Limfjorden, Denmark, at 3 m above seabed, 7-March-2017 (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging.
    Keywords: Date/Time local; Event label; Height above sea floor/altitude; HOBO_ON; HOBO Pendant Temperature/Light 64K Data Logger; Illuminance; light intensity; Limfjorden; MULT; Multiple investigations; mussel dredging; Onset HOBO data logger; Sediment plumes; Time in hours; Tloi_01; Tloi_02; Tloi_03; Tloi_04; Tloi_05; Tloi_06; Tloi_07; Tloi_08; Tloo_09; Tloo_10; Tloo_11; Tloo_12; Tloo_13; Tloo_14; Tloo_15; Tloo_16
    Type: Dataset
    Format: text/tab-separated-values, 181440 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 9
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    Light intensity time series from 16 locations in Lovns Bredning, Limfjorden, Denmark, at 3 m above seabed, 2-March-2017 (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging.
    Keywords: Date/Time local; Event label; Height above sea floor/altitude; HOBO_ON; HOBO Pendant Temperature/Light 64K Data Logger; Illuminance; light intensity; Limfjorden; MULT; Multiple investigations; mussel dredging; Onset HOBO data logger; Sediment plumes; Time in hours; TLi_01; TLi_02; TLi_03; TLi_04; TLi_05; TLi_06; TLi_07; TLi_08; TLo_09; TLo_10; TLo_11; TLo_12; TLo_13; TLo_14; TLo_15; TLo_16
    Type: Dataset
    Format: text/tab-separated-values, 109861 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 10
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    Light intensity time series from 16 locations in Lovns Bredning, Limfjorden, Denmark, at 3 m above seabed, 1-March-2017 (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Field studies were conducted in two different areas of the Limfjorden, in Lovns Bredning (26th February to 4th March 2017) and in Løgstør Bredning (6-10th March 2017). In each sampling area, 16 fixed-position moorings were deployed in two circular sensor arrays around a mussel dredging area to investigate possible effects of dredging related sediment plumes (Pastor et al, 2020). The inner array (stations 1 - 8) had a diameter of 200 m and the outer array (stations 9 - 16) was set up with a diameter of 600 m. Integrated temperature and light loggers (HOBO Pendant Temperature/Light 64K Data Logger) were mounted on each mooring in the two circular arrays at three different water depths (0.5, 1.5 and 3.0 m above seabed). The 48 loggers (3 depths and 16 stations) were deployed in each area over a period of four days and light intensity time series were collected with a sampling interval of 30 seconds. Five loggers in the Lovns area did not provide any data due to technical problems (two near-surface loggers and three loggers at 1.5 m above the seabed). However, only one bottom logger at Løgstør Bredning failed to provide data. Each time series was filtered using a 3-minute moving average for removing the largest outliers, but retaining sharp changes in light intensity associated with short-lived sediment plumes caused by experimental mussel dredging.
    Keywords: Date/Time local; Event label; Height above sea floor/altitude; HOBO_ON; HOBO Pendant Temperature/Light 64K Data Logger; Illuminance; light intensity; Limfjorden; MULT; Multiple investigations; mussel dredging; Onset HOBO data logger; Sediment plumes; Time in hours; TLi_01; TLi_02; TLi_03; TLi_04; TLi_05; TLi_06; TLi_07; TLi_08; TLo_09; TLo_10; TLo_11; TLo_12; TLo_13; TLo_14; TLo_15; TLo_16
    Type: Dataset
    Format: text/tab-separated-values, 175680 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
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