Unusual aquatic vertebrates in the Firth of Forth, Scotland, during 2020: swordfish and northern bottlenose whales

Orcinus orcais a cosmopolitan species and the most widely distributed marine mammal. Its diet includes over 140 species of fish, cephalopods, sea birds and marine mammals. However, many populations are specialised on certain specific prey items. Three genetically distinct populations have been described in the North Atlantic. Population A (that includes the Icelandic and Norwegian sub-populations) is believed to be piscivorous, as is population C, which includes fish-eating killer whales from the Strait of Gibraltar. In contrast, population B feeds on both fish and marine mammals. Norwegian killer whales follow the Norwegian spring spawning herring stock. The only description in the literature of Norwegian killer whales feeding on another cetacean species is a predation event on northern bottlenose whales in 1968. Daily land-based surveys targeting sperm whales were conducted from the Andenes lighthouse using BigEyes®binoculars (25×, 80 mm). The location of animals at sea was approximated through the use of an internal reticule system and a graduated wheel. On 24 June 2012 at 3:12 am, an opportunistic sighting of 11 killer whales was made off Andenes harbour. The whales hunted and fed on a harbour porpoise. Despite these species having overlapping distributions in Norwegian waters, this is the first predatory event reported in the literature.

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Quantitative analysis of dental microwear in threespine stickleback: a new approach to analysis of trophic ecology in aquatic vertebrates

Journal of Animal Ecology ◽

10.1111/j.1365-2656.2006.01116.x ◽

2006 ◽

Vol 75 (4) ◽

pp. 967-977 ◽

Cited By ~ 30

Author(s):

MARK A. PURNELL ◽

PAUL J. B. HART ◽

DAVID C. BAINES ◽

MICHAEL A. BELL

Keyword(s):

Quantitative Analysis ◽

Trophic Ecology ◽

Threespine Stickleback ◽

Dental Microwear ◽

New Approach ◽

Aquatic Vertebrates

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The tidal flux in the Firth of Forth

Proceedings of the Institution of Civil Engineers - Maritime Engineering ◽

10.1680/maen.2007.160.1.25 ◽

2007 ◽

Vol 160 (1) ◽

pp. 25-32 ◽

Cited By ~ 1

Author(s):

A. J. Elliott ◽

S. P. Neill

Keyword(s):

Firth Of Forth

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2. Communication relative to the Fresh-Water Limestone of Burdiehouse, near Edinburgh, belonging to the Carboniferous Group of Rocks

Proceedings of the Royal Society of Edinburgh ◽

10.1017/s0370164600037147 ◽

1845 ◽

Vol 1 ◽

pp. 33-35 ◽

Cited By ~ 1

Author(s):

Hibbert

Keyword(s):

Fresh Water ◽

Marine Origin ◽

North East ◽

South West ◽

Water Origin ◽

The Common ◽

Firth Of Forth ◽

Carboniferous Limestone

In his paper, the author explains that the limestone in question, which is confounded with the common carboniferous or mountain limestone of marine origin, is, in his opinion, of fresh-water origin.On an irregular line extending from Joppa on the coast of the Firth of Forth, in a south and south-west direction to the Pentland Hills, strata of mountain or carboniferous limestone crop out at intervals; and their marine origin is indicated by encrinites, the Productus, &c., and corallines. This limestone is developed with least interruption between Edmonstone and Muirhouse, where it is from twelve to twenty feet thick. At this part of the line may be seen fractures and elevations of the strata of limestone and superincumbent shale and sandstone, evidently occasioned by a sudden and violent uplifting force acting from north-east to south-west, and causing the uplifted strata to dip south-east at an angle of 25°. These uplifted beds, between Edmonstone and Muirhouse, and subsequently to Burdiehouse, form the strata which dip under the coalmeasures of Gilmerton, Loanhead, and other sites.

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On the electrodetection threshold of aquatic vertebrates with ampullary or mucous gland electroreceptor organs

Biological Reviews ◽

10.1111/j.1469-185x.2007.00015.x ◽

2007 ◽

Vol 82 (3) ◽

pp. 361-373 ◽

Cited By ~ 37

Author(s):

Rob C. Peters ◽

Lonneke B. M. Eeuwes ◽

Franklin Bretschneider

Keyword(s):

Mucous Gland ◽

Aquatic Vertebrates

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Regeneration, Plasticity, and Induced Molecular Programs in Adult Zebrafish Brain

BioMed Research International ◽

10.1155/2015/769763 ◽

2015 ◽

Vol 2015 ◽

pp. 1-10 ◽

Cited By ~ 17

Author(s):

Mehmet Ilyas Cosacak ◽

Christos Papadimitriou ◽

Caghan Kizil

Keyword(s):

Neural Plasticity ◽

Molecular Mechanisms ◽

Clinical Settings ◽

Regenerative Capacity ◽

Zebrafish Brain ◽

Aquatic Vertebrates ◽

Neural Stem Progenitor Cells ◽

Set Up ◽

Regenerative Therapies ◽

The Brain

Regenerative capacity of the brain is a variable trait within animals. Aquatic vertebrates such as zebrafish have widespread ability to renew their brains upon damage, while mammals have—if not none—very limited overall regenerative competence. Underlying cause of such a disparity is not fully evident; however, one of the reasons could be activation of peculiar molecular programs, which might have specific roles after injury or damage, by the organisms that regenerate. If this hypothesis is correct, then there must be genes and pathways that (a) are expressed only after injury or damage in tissues, (b) are biologically and functionally relevant to restoration of neural tissue, and (c) are not detected in regenerating organisms. Presence of such programs might circumvent the initial detrimental effects of the damage and subsequently set up the stage for tissue redevelopment to take place by modulating the plasticity of the neural stem/progenitor cells. Additionally, if transferable, those “molecular mechanisms of regeneration” could open up new avenues for regenerative therapies of humans in clinical settings. This review focuses on the recent studies addressing injury/damage-induced molecular programs in zebrafish brain, underscoring the possibility of the presence of genes that could be used as biomarkers of neural plasticity and regeneration.

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