Research

Investigations of the prevalence of minke whale (Balaenoptera acutorostrata) at the Doggerbank

Untersuchungen des Vorkommens von Zwergwalen (Balaenoptera acutorostrata) auf der Doggerbank

Project Investigators: Prof. Prof. h.c. Dr. Ursula Siebert

Duration: April 2016 until June 2018

Funding: WWF Deutschland, Berlin, 46.064 EUR

Project Details:
The Doggerbank, the largest sandbank of the central North Sea, is an important habitat of the minke whale (Balaenoptera acutorostrata), which is the most frequently occurring baleen whale species in the entire North Sea. There is a high biological level of production due to the relatively shallow sea in the Doggerbank area combined with a special circulation. This results in rich but agglomerated food resources for apex predators like seabirds and marine mammals owing to good growing conditions for fish populations.

Minke whales are endangered because of several anthropogenic impacts like fishery activities or offshore construction of wind farms due to their biology and occurrence in the North Sea and adjacent waters. Miscellaneous visual surveys on a national as well as international level were conducted in the Doggerbank marine area in the last few years. The collected data are archived in different data bases and have not been merged and analysed yet.

These archived data shall be evaluated during this project in cooperation with Danish, Dutch and British colleagues. Additionally, an acoustic monitoring for the identification of minke whales is to be established. These studies are important steps in order to understand the minke whales´ habitat utilisation in the Doggerbank area more accurately as well as to better protect this species.

Results:

Effort-related survey data of eight different European institutes working on marine mammals were collected and merged into a common database. In total, 794 sighting records of minke whales from marine mammal and seabird surveys were collected and joined in one database. These data submit a description of the spatio-temporal distribution patterns of minke whales in the North Sea.

In spring, minke whales of the north-eastern Atlantic population enter the North Sea from the north. The numbers increase in the course of the summer and decrease within autumn to a minimum of sightings in winter. The Prey species, like sandeels, are a conceivable trigger. A patchy distribution of sandeels or other prey species in the spawning period and at their foraging grounds result in a cluster of marine top predators at known hot spots. The results of this thesis present more than 50% of all sightings within a radius of 20 km of known sandeel foraging grounds.

This report, in particular, shows that minke whales were recorded at the edges and the slopes of the Dogger Bank, where abundant prey species are common. A minor part of individuals is assumed to remain on the shelf in autumn and winter. Despite a small number of sighting records, were noted in the cold seasons around the North Sea.

The numbers of minke whale sightings and strandings increased in recent years, especially in the southern part. This rise may be the result of a growing population, inter- and intraspecific relations, an increase in monitoring effort or a change in distribution patterns.

Due to increasing minke whale sightings around the Dogger Bank a sound recorder was deployed to detect the animals acoustically. The recordings did not show any detection of minke whale calls. However, airgun sounds used for seismic surveys were recorded which can be a reason that the animals were absent.

The results of this report should be considered for species conservation and management as well as for marine spatial planning in the North Sea

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SCANS III; Survey of small cetacean in the North Sea, German contribution

SCANS III; Erfassung von Kleinwalen im Nordseeraum, deutscher Anteil

Project Investigators: Prof. Prof. h. c. Dr. Ursula Siebert; Sacha Viquerat

Duration: August 2016 until January 2018

Funding: BfN, 200.436 EUR

Project Details:
Ziel der SCANS Projekte ist es, in regelmäßigen Abständen (etwa alle 10 Jahre) die Abundanz und Verbreitung von Kleinwalen in der Nordsee sowie angrenzenden Gewässern koordiniert zu erfassen. SCANS III (Small Cetaceans in European Atlantic waters and the North Sea) ist nach SCANS I (1994) und SCANS II (2005) die dritte synoptische Erfassung in europäischen Gewässern. Die Erfassung wurde im Juli 2016 durchgeführt, und es kamen dabei drei Schiffe und sieben Flugzeuge zum Einsatz, von welchen aus entlang festgelegter Transekte Kleinwale erfasst wurden. Die Projektergebnisse sollen den Bestand, Veränderungen in der Häufigkeit und die Verteilung von marinen Säugetieren darstellen. Forschungsinstitute aus Frankreich, Schweden, Dänemark, Portugal, Spanien, Niederlande, Deutschland und Großbritannien sind an dem Projekt beteiligt. Das ITAW übernimmt den deutschen Teil der Projektdurchführung und gewährleistet, dass die Abdeckung der deutschen Gewässer erfolgt und dass deutsche Wissenschaftler und Institutionen an Planung, Durchführung und Auswertung des Gesamtsurveys beteiligt sind.
Die gewonnen Erkenntnisse bezüglich der Bestandsentwicklung der Kleinwale sollen auf europäischer Ebene auch der Bewertung des Erhaltungszustandes im Rahmen der FFH-RL bzw. des Umweltzustands gemäß Meeresstrategie-Rahmenrichtlinie (MSRL) dienen.
Die Projektkoordination obliegt der University St Andrews.

Results:

https://synergy.st-andrews.ac.uk/scans3/category/researchoutput/

Cooperation Partners:

Professor Philip Hammond, Claire Lacey, Koordination - Sea Mammal Research Unit, University of St Andrews, Großbritannien

Dr. Jonas Teilmann - Department of Bioscience, Aarhus University, Dänemark

Professor Vincent Ridoux - University of La Rochelle, Frankreich

Dr. Meike Scheidat - Wageningen Marine Research, Niederlande

Dr. Nils Øien - Institute of Marine Research, Norwegen

Dr. José Vingada - Sociedade Portuguesa de Vida Selvagem, Portugal

Dr. Begoña Santos - Instituto Español de Oceanografía, Centro Oceanográfico de Vigo, Spanien

Dr. Patrik Börjesson - Swedish University of Agricultural Sciences, Schweden

Dr. Kelly Macleod - Joint Nature Conservation Committee, Großbritannien

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N-RENNT 2 (Work package Bioinformatics)

N-RENNT 2 (Arbeitspaket Bioinformatik)

Project Investigators: Klaus Jung

Duration: October 2016 until September 2018

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Effects of glyphosate on bacteria derived from farm animals

Auswirkungen von Glyphosat auf aus Tierhaltungen stammende Bakterien

Project Investigators: Prof. Dr. Gerhard Breves; Dr. Susanne Riede

Duration: January 2016 until December 2018

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Tränkewasserhygiene

Project Investigators: Johanna Vogels; Franziska Nienhaus

Duration: March 2016 until June 2018

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Impact of zinc and zinc transporters in Mycobacterium avium ssp. paratuberculosis pathogenicity

Die Bedeutung von Zink und Zink-Transportern für die Pathogenität von Mycobacterium avium ssp. paratuberculosis

Project Investigators: Ralph Goethe

Duration: January 2016 until December 2018

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Effects of omega-3 fatty acids on the levels of oxylipins in blood and urine

Einfluss von Omega-3 Fettsäuren auf die Spiegel an Oxylipinen in Blut und Urin

Project Investigators: PD Dr. Nils Helge Schebb

Duration: June 2016 until Novemer 2018

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Investigation into electricution as an humane methode for euthanasia of suckling piglets

Untersuchung der elektrischen Hirn-Herz-Durchströmung als tierschutzgerechtes Verfahren zur Euthanasie von Saugferkeln

Project Investigators: Alexandra von Altrock; Karl-Heinz Waldmann; Matthias Lüpke; Hermann Seifert; Peter Dziallas

Duration: Beginning 2016 until End 2018

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Einfluss der Haltungsbedingungen auf die Entwicklung von Diabetes Typ 2 in verschiedenen Mausmodellen

Project Investigators: Hackbarth; Kandira

Duration: April 2016 until Mid 2018

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Modellhafte Untersuchungen zum Nachweis von sehr frühen Entwicklungsstadien des Echten Rebenmehltaus (Erysiphe necator)und ersten Symptomen der Rebenneospora (Plasmopara viticola) durch darauf speziell trainierte Suchhunde.

Project Investigators: Hackbarth; Herlyn

Duration: April 2016 until Mid 2018

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