Senckenberg am Meer Wilhelmshaven

Marine Biology
geans - Genetic tools for Ecosystem health Assessment in the North Sea
region
 

EU    

Funding period: 2019-2021                

Pedro Martinez Arbizu, Ingrid Kröncke, Magdalini Christodoulou

Several EU directives and OSPAR guidelines require transnational sustainable management of
marine resources. Benthic organisms are key components in environmental impact
assessments and the Marine Strategy Framework Directive. Currently, indicators are mainly
based on morphological species identification, being time-consuming, labor-intensive and skills
reliant. DNA-based tools promise cheaper, faster and more accurate methods, yet, different
approaches between countries are used which hamper standard routine application.
GEANS aims to harmonize and consolidate existing genetic tools and methods. Transnational
co-operation will create synergies and assure comparability. An open library, linking DNAsequences
to species functioning, will guarantee continuity of traditional assessment series.
Real time pilot studies, in close cooperation with managers, policymakers and involved
stakeholders, will deliver proof of concept on the added value of genetic approaches in
environmental health management. A decision support framework will include a fit for purpose
choice of genetic tools and protocols, helping to translate genetic results into simple indicators.
GEANS will mainstream implementation of fast, accurate, cost-effective DNA-based
assessments, enabling national authorities to adapt management measures in a transnational
coherent way, resulting in improved management of human activities and protection of the
marine environment across the North Sea Region.

Kooperationspartner: ILVO, B; VLIZ, B; Nord University, N; CEFAS, UK; SeAnalytics AB, SE; Aarhus Universitet, DK; Wageningen University, Department of Animal Sciences, NL; Naturalis Biodiversity Center, NL;

SENSI 3 - Aktuelle Sensitivitätskartierung der Makrofauna-gemeinschaften des ostfriesischen Wattenmeeres  incl. EMs dollart ästuar
 

Lower Saxony Wadden Sea Foundation, Bingo Environment Foundation

Förderperiode: 2019-2021      

NN, Ingrid Kröncke

Das Inkrafttreten der Flora-Fauna-Habitat (FFH)- und Wasserrahmenrichtlinie (WRRL) zur Erhaltung der natürlichen Lebensräume sowie deren wildlebenden Tiere und Pflanzen fordert, den ökologische Zustand des Wattenmeeres und der Ästuare mittels biologischer Indikatoren, wie u.a. Makrozoobenthos, zu bewerten. Grundvoraussetzung für die richtige ökologische Bewertung eines Wattgebietes ist die Ausweisung eines Referenzdatensatzes. Im Sinne der FFH- und WRRL sollte dieser als Grundlage zur Beschreibung eines Referenzzustandes eine möglichst vollständige Erfassung des lebensraumtypischen Arteninventars (Makrofauna, Avifauna) und der lebensraumtypischen Habitatstrukturen (Sandwatt, Mischwatt, Schlickwatt, Seegrasbestände, Miesmuschelbank) aufweisen (Krause et al. 2008). Anhand der Arten, Abundanzen und ggf. Biomassedaten aktueller Untersuchungen kann dieser Referenzdatensatz als Basis für eine Zustandsbeschreibung und Beurteilung naturnaher Wattflächen im Hinblick auf zukünftige klimatische, anthropogene und natürliche Veränderungen verwendet werden.

Kooperationspartner: NIOZ, Texel, NL; Nationalparverwaltung Nieders. Wattenmeer, Wilhelmshaven

Spatial community ecology in highly dynamic landscapes: from island biogeography to metaecosystems (DynaCom) 

DFG Research group                

Funding period: 2019-2021                      

 Jana Dewenter, Ingrid Kröncke

Die Motivation für die Forschergruppe DynaCOm ergibt sich vor allem aus dem Fehlen einer trait‐basierten Nahrungsnetzperspektive im räumlichen Kontext. Es bedarf der Information zu mehreren Trait‐Achsen, um für trophisch interagierende Organismen Ausbreitung, Ressourcennutzung und Toleranz bei rapiden Umweltveränderungen
vorherzusagen. Diese Information soll in ein räumlich strukturiertes Nahrungsnetz (Meta‐Nahrungsnetz) integriert werden, geleitet von allometrischen (größenabhängigen) und stöchiometrischen (ressourcennutzungsabhängigen) Konzepten (Ziel 1). Die Teilprojekte decken dabei marine und terrestrische Nahrungsnetzkomponenten (Primärproduzenten, Primärkonsumenten, Prädatoren) ab, um eine hohes Maß der Generalisierung über verschiedene Organismentypen zu
erlauben. Daher wurden bereits experimentelle und beobachtende Infrastrukturen im Wattenmeer etabliert, da in dieser Küstenzone terrestrische und marine Nahrungsnetze koexistieren. Außerdem ist das Wattenmeer ein sehr dynamischer Lebensraum, der die Betrachtung existierender Modellvorstellungen außerhalb von Gleichgewichtsbedingugen erlaubt (Ziel 2).

Kooperationspartner: ICBM und IBU Universität Oldenburg, Universität Göttingen, iDiv

 

Long-term variability of functional diversity of in- and epifauna communities at the North Sea

 

SGN              

Funding period: 2015-2017             

                                        Julia Meyer, Ingrid Kröncke

Since the 1970ies the community structure of the North Sea ecosystem, including the costal zones and the subtidal areas of the Wadden Sea underlay several long- and short-term changes, including plankton, benthic species and fish. The spatial and temporal variability of community structures of benthic ecosystems is mainly influenced by anthropogenic, natural and climatic factors, primary affecting the benthic species or primary affecting the benthic environment and as a consequence the benthic species. Most of the changes arose from anthropogenic impacts like fisheries or dumping and dredging activities and climatic impacts like climate warming or changes in the North Atlantic Oscillation index (NAOI). In connection with the changes in community structure that mainly concerning abundance, species number and species distribution, first of all the functional diversity of an ecosystem is influenced, that includes the structure of food webs and biological interactions. The processes that influence the long-term variability of functional diversity of in- and epifauna communities at the North Sea are only partly investigated so far.

Cooperation partners: NOAH-Project

                          

 

 

Biodiversity – Ecosystem Functioning across marine and terrestrial ecos ystems

 

Nieders. MWK 

Förderperiode: 2014-2017

                    Gesine Lange, Ingrid Kröncke

The current rate of change in biodiversity is orders of magnitudes higher than in the fossil record, reflecting human domination and alteration of the Earth’s ecosystems. The aim of reducing the rate of global biodiversity loss as part of the Convention on Biological Diversity (CBD) has not been achieved, due in large part to the major pressures on biodiversity still increasing. For instance, human actions often facilitate the transport of new species into habitats, homogenizing floras and faunas and – if exotic species turn invasive – pressuring native biodiversity further. Consequently, research on biodiversity-ecosystem function (BEF) relationships has become a major facet of ecology in just two decades and, more recently, of evolutionary biology as well. Several fundamental questions for functional biodiversity research remain unanswered. Which processes lead to the observed patterns in biodiversity? How will biodiversity respond locally, regionally and globally to environmental change including human impact? What are the consequences of these changes for ecosystem functions and ecosystem services?

Cooperation partner: Universität Oldenburg: ICBM, IBU; Universität Göttingen

Web: http://www.icbm.de/wissenschaftliche-projekte/befmate/

 

 

 

 

 

 

BEFmate


 

North Sea - Observation and Assessment of Habitats (NOAH)

 

BMBF FONA 

Förderperiode: 2013-2019

                    Hermann Neumann, Ulrike Schückel, Ingrid Kröncke

 

Human pressures on sea floors of the North Sea are mounting and require a thorough inventory of status and functions of this important ecosystem component. The NOAH project has gathered multidisciplinary expertise to construct a comprehensive habitat atlas that assesses sea floor state and functions, and establishes baselines against which environmental changes can be determined.
NOAH will develop a comprehensive geo-referenced inventory of seafloor properties in the German Bight of the North Sea by:

  1. analysing and processing existing sedimentological, biogeochemical, biological and human impact data to derive statistically distinct sediment provinces.
  2. raising new data on temporal and spatial variability during field campaigns in typical sediment provinces to better constrain their characteristic physical, sedimentological, chemical and biological properties.
  3. employing numerical models and statistical techniques to assess habitat properties (diagenetic flux rates, bed forms, biological diversity, pollutant concentrations), and to exptrapolate results to similar sediment provinces for a comprehensive data base of seafloor properties in the German Bight.
  4. exploiting the “habitat atlas” and model data to describe the status of seafloor ecosystems, derive and test indicators for good environmental status, and to estimate thresholds and risks to this important ecosystem component.
The habitat atlas and related data will be publicised in the form of an interactive WebGIS. The NOAH project is one of five collaborating R&D-projects that are committed to the “Coastal Research Agenda for the North Sea and Baltic Sea”. The 3 year project started in April 2013, has 8 national partners and is coordinated by the Helmholtz Zentrum Geesthacht.

Kooperationspartner: HZG, AWI, MARUM, THÜNEN, UHH, CEN, Hochschule f. Angwandte Wiss. HH, BSH

Web: NOAH HZG

 

 

 

 

 

 

 

 

 

 

  NOAH   

 

 

               

   


 
integrated coastal zone and shelf-sea research (intercoast)     
 

DFG

Funding period: 2009-2018 Lydia Kohlmorgen, Anja Singer, Ruth Gutperlet,              Ingrid Kröncke
 

The International Research Training Group INTERCOAST – ‘Integrated Coastal Zone and Shelf-Sea Research’ is a collaboration between the Universities of Bremen (Germany) and Waikato (New Zealand). Interdisciplinary research themes dealing with global and climate change which have strong impacts in coastal and shelf-sea areas and are of biological, geoscientific, socio-economic, and legal interest.

In the 1st project phase, at the Senckenberg institute marine biologists work together with sedimentologists in order to investigate the dynamics of benthic habitats in response to the construction of the Jade Weser Port. This deepwater harbour is situated in the German Bight of the southern North Sea. The combined approach of hydroacoustic and macrofaunal studies will gain insight into the consequences of changes in hydrodynamics and sediment structure on benthic dynamics due to harbour construction as well as dredge activities. This cooperation will be continued at Tauranga Port in New Zealand.

In the 2nd project phase 2012-2015 we will model the macrofauna species distribution in the Jade Bay in relation to environmental variables and harbour effects.

Cooperation partners: University of Bremen, Marum, University of Waikato (New Zealand)
Web: INTERCOAST

 INTERCOAST

 

 

 

lter north sea benthos observatory

 

macrofauna Long-term Study off Norderney
 
SGN
since 1978 Ingrid Kröncke, Kerstin Thaler, Petra Nehmer

Since 1978 we study the the seasonal variability of macrofaunal species number, abundance and biomass in the subtidal off the island of Norderney. Our data set is one of only few North Sea benthos long-term studies  and almost unique due to it´s methodological contstancy.
The statistical data analysis revealed that the increase in macrofaunal species number, abundance and biomass since 1988 is correlated with positive North Atlantic Oscillation Indices (NAOI). Positive NAOIs are related with mild winters, westerly winds and higher strom frequency. Thus, changes in the macrofaunal communities are influenced by changes in the hydroclimate of the North Sea, at least in mixed water columns.

 

 

 

Macrofauna long-term study along Transect German Bight-Dogger bank
 

SGN

since 1990 Ingrid Kröncke, Kerstin Thaler, Petra Nehmer

We study the short- and long-term variability of macrofaunal communities along a transect from the inner German Bight towards the Dogger Bank.
At 7 stations samples were taken in 1990 and since 1995 at 4 stations each year in May. Additionally, 3 stations were sampled on a monthly scale from autumn 2000 to spring 2002 to investigate the seasonal variability of species number, abundance and biomass of macro- and epifauna in relation to environmental parameters and food availability.
The results show that seasonal variability is mainly influenced by recruiment in spring. Long-term variability at the study sites was mainly affected by the extreme cold winter 1995/96. Highest intraannual variability was genereally found in coastal communities due to higher variability in environmental parameters such as temperature, stratification and food availability in this region.
Climatic induced changes in the communtiy structure are evident since 2000.

 

 

 

macrofauna Long-term Comparison Dogger bank
 

SGN

since 1985 Ingrid Kröncke
The macrofauna communities on Dogger Bank from the 1920s, the 1950s and the 1980s to the 2000s were compared. Five communities with similar spatial distribution throughout the 20th century were identified. The abundance of dominant species in the five communities varied with time. Most obvious in the 1950s was the loss of the extensive Spisula and Mactra patches, which covered most of the shallow parts of the Bank in the 1920s. Since the 1980s, they have been found as juveniles only. The biological regime shift in the late 1980s caused an increase in macrofauna abundance, species numbers, diversity and southern species in most of the communities. The climate regime shift in 2001 had opposite effects, abundance, species numbers, diversity and southern species decreased in most of the communities. The increase in interface feeding species and the decrease in sand licking amphipods in the 2000s especially in the shallow Bank Community give evidence for climate driven changes in water masses, currents, storms, turbidity and food availability via planktonic or benthic primary production. Both, fishing impact and climate change are reasonable to explain the changes in the Dogger Bank macrofauna communities.  

 

 

Epifauna long-term study in the jade

 

SGN

      since 1970                    

                                       Ulrike Schückel, Julia Meyer, Ingrid Kröncke


Since 1970, Senckenberg am Meer is sampling epifauna at several stations in the Jade and the Jade Bay. In the 1970s and 1980s, samples were taken monthly, since 1992 twice per year in spring and autumn. Catches include epifauna and fish.


 

epifauna long-term study in the north sea

 

SGN

        since 1998                                                                             Hermann Neumann, Ingrid Kröncke


Epifauna are invertebrates living at the sediment surface. The organisms are major prey for e.g. cod, haddock, plaice and sole. The epifauna is also a good indicator for environmental change due to pollution, fishing effort or climate change.
Within this long-term study the epifauna of different areas of the North Sea from the German Bight towards the Norwegian Sea and the British coast has been studied since 1998 twice a year in summer and winter. The data analysis is in progress. Sampling was possible in cooperation with S. Ehrich from the Federal Fisheries Center in Hamburg during the International Bottom Trawl Survey (IBTS) respectively the German Small-scale Bottom Trawl Survey (GSBTS). 

 

 

 Finished projects

 

the impact of biological invasions on the food web of the wadden sea (infoweb)
 

BMBF               

Funding period: 2012-2016                                   

Ulrike Schückel, Ingrid Kröncke

 

In recent years the data on biotic and abiotic components have been synthesized for the Sylt-Rømø Bight, Northern Wadden Sea, resulting in a food web model based on network analysis for the total bay as well as for the dominant intertidal communities (Baird, Asmus, Asmus 2004, 2007, 2008, 2011). This food web describes carbon flow as well as nitrogen and phosphorus cycling within a larger geographic unit based on the data material of the mid nineties representing a snapshot of this tidal basin before the major alterations occurred due to the invasion of neophytic and neozoic species.

We therefore plan an update of the model including new communities such as Pacific oyster beds, Sargassum muticum- forests, and American razor clam beds. We also have to include new species such as Mnemiopsis leydii and Caprella mutica and investigate their probable place in the food web and their role as predators and prey. For the established communities we have to consider alterations in species composition and in energy flow rates due to altered seasonal temperatures.

We would like to initiate an adaptation of this idea to the Trilateral strategy of the Wadden Sea, by installing two additional areas for research, as in the Central Wadden Sea the Jade Bay that is more directly influenced by the large estuaries of the rivers Elbe, Weser and Ems and the Balgzand area in the Southern Wadden Sea in order to cover the whole area.

Cooperation partners: AWI-Sylt, NIOZ, FTZ Büsum, University of Groningen 

                                                         

 

scientific monitoring concepts for the german bight (WIMO)

 

NMWK, NMUK

            Funding period 2009-2015                          Hermann Neumann, Edith Markert, Ingrid Kröncke

 

 Scientists of the Marine Biology and the Marine Sedimentology of the Senckenberg Institute, Wilhemshaven are collaborating in this project to study macrofauna communities with hydroacoustic methods and to apply habitat models. Due to the development of high-resolution hydroacoustic systems (e.g. Site Scan Sonar, Multibeam) and improved technologies in signal processing, an area-wide mapping of the sea floor and partly the macrofauna communities is possible. The aim is to analyse the small and large scale variability of the macrofauna communities in different areas of the southern North Sea. The recording of the hydroacoustic signals of the sea bed and the structuring benthic organisms is carried out in parallel to the macrofauna sampling. Furthermore, habitat maps will be generated by using the macrofauna and hydroacoustic data for Habitat Suitability Modeling. Both the detection of benthic species with hydroacoustic methods, and the modelling of benthos communities with habitat models is a new and innovative method to better understand benthic ecosystems.

Cooperation partners: see official web site
Web: WIMO
 WIMO

  

benthic species distribution modelling in bik-f

 

LOEWE BiK-F

              Funding period: 2011-2016                 Michael Weinert, Hermann Neumann, Ingrid Kröncke

 

Species distribution models (SDMs) have generally been under-utilized in the marine realm relative to terrestrial applications. SDMs are numerical tools that combine observations of species occurrence or abundance with environmental estimates. They commonly utilize these associations to identify environmental conditions within which populations can be maintained, and to then identify where suitable environments are distributed in space. Compared to the terrestrial environment, accessing and monitoring marine benthic species is particularly difficult and SDMs can help to predict species distribution on large scales for different regions or time periods.

Cooperation partner

Prof. Dr. H. Reiss, University in Nordland, Bodo, Norway

and BiK-F

 BiK-FVerbreitung von A brachiata

 

 


climate induced changes in the epifauna communities of the north sea
 

LOEWE Research Centre BiK-F 

Funding period: 2008-2014 Hermann Neumann, Ingrid Kröncke, Michael Weinert


Epifauna are invertebrates living at the sediment surface. The organisms are major prey for e.g. cod, haddock, plaice and sole. The epifauna is also a good indicator for environmental change due to pollution, fishing effort or climate change. Long-term variability in North Sea phyto- and zooplankton, benthic infauna and fish stocks is severely effected by hydroclimate change.
However, little is known about the long-term variability of North Sea epifauna. The temporal variability has primarily been studied in the German Bight on seasonal scale.
Within this long-term study the epifauna of different areas of the North Sea from the German Bight towards the Norwegian Sea and the British coast has been studied since 1998 twice a year in summer and winter. The data analysis is in progress. Sampling was possible in cooperation with S. Ehrich from the Federal Fisheries Center in Hamburg during the International Bottom Trawl Survey (IBTS) respectively the German Small-scale Bottom Trawl Survey (GSBTS). 

Within the Hessen Centre of Excellence for Biodiversity and Climate (BiK-F) we will analyse the spatial and temporal variablity of epifaunal species in the North Sea in relation to hydroclimate change.

Cooperation partner

Prof. Dr. H. Reiss, University in Nordland, Bodo, Norway

see web page BiK-F

 BiK-F

 


 

Epifauna long-term study in the jade
 

Lower Saxony

Wadden Sea

Foundation

      Funding period: 2012-2013                     

    Ulrike Schückel, Julia Meyer, Ingrid Kröncke


Since 1970, Senckenberg am Meer is sampling epifauna at severla stations in the Jade and the Jade Bay. In the 1970s and 1980s, samples were taken monthly, since 1992 twice per year in spring and autumn. Catches include epifauna and fish.

Aims of this study are: the storage of all data in one data base, the statistical analyses of data, the correlation of epifauna and fish data with environmental data, the analysis of climate or anthropogenic driven effects on the communties, the role of neobiota in the study area. 

Cooperation partners:
Web:

                                                        
 

 

Monitoring and Evaluation of Spatially Managed Areas (MESMA)
 
EU Funding period: 2009-2012

Sandra Vöge, Henning Reiss, Ingrid Kröncke


The increasing pressures upon the marine realm call for a well planned approach of further spatial development of this area. The EU FP7 project MESMA focuses on marine spatial planning and aims to produce integrated management tools (concepts, models and guidelines) for Monitoring, Evaluation and implementation of Spatially Managed marine Areas, based on European collaboration.
MESMA is expected to supply innovative methods and integrated strategies for governments, local authorities, stakeholders, and other managerial bodies for planning and decision making at different local, national, and European scales, for sustainable development of European seas.

Cooperation partners: see official web site
Web: MESMA


             MESMA

 

 

Der Jadebusen von der Eiszeit bis heute - Untersuchung der Veränderungen in den Makrofaunagemeinschaften des Jadebusens seit 1930
 

Niedersächsisches MWK, Volkswagenstiftung

Funding period: 2008 - 2011 Ulrike Schückel, Ingrid Kröncke
The “Jade Bay” project is a background study in the coastal region of the Jade Bay aiming to collect basic data of natural sciences and cultural studies for a coastal database of Lower Saxony.

The sub-project “Benthosecology” focused on the comparison between recent data on the structure and function of macrofaunal communities with former investigations. Historical data based on intertidal and subtidal investigations carried out by LINKE (1939) in the 1930s, DÖRJES et al. (1969; 1970) in the 1960s and MICHAELIS (1986) in the 1970s will be linked to recent data to detect changes in the species composition as well as in the spatial distribution of species and communities due to natural or anthropogenic impacts.
 Jade Bay Project

 

 

Predator Prey interactions between Benthos and demersale Fish
 

Deutsche Bundesstiftung Umwelt

Funding period: 2008 - 2011 Sabine Schückel, Ingrid Kröncke, Henning Reiss
The objectives of this study are to investigate the prey composition of demersal fish species in relation to benthic prey availability in the field. Abundance, diversity and community structure of benthic communities and the diet of demersal fish will be compared among different areas in the North Sea. We focus on the commercial valuable fish species, such as haddock, plaice and dab as well as on the  understudied non-commercial fish species (solenette, scaldfish, goby and common dragonet), which have steadily increased in abundance in the North Sea due to fisheries impact and eutrophication. The knowledge about the feeding strategy of non-commercial fish species in relation to benthic prey availability in the field is essential to understand food web structures and predator-prey interactions. This, in turn provides useful information in terms of environment- and nature conservation. 

Cooperation partners: Johan Heinrich von Thünen Institut
Web: Food webs
 Food webs
https://die-welt-baut-ihr-museum.de/en