Laminaria nigripes
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''Laminaria nigripes'' is a species of
kelp Kelps are large brown algae seaweeds that make up the order Laminariales. There are about 30 different genera. Despite its appearance, kelp is not a plant - it is a heterokont, a completely unrelated group of organisms. Kelp grows in "underwat ...
found in the North Atlantic and North Pacific within Arctic and subarctic waters including Vancouver Island, Haida Gawaii, Greenland, Iceland, Norway, Downeast Maine, and the Bay of Fundy. The species may be found exclusively in the Arctic, but frequent misidentification of samples has led to speculation and debate over whether the actual range is subarctic or Arctic. The species is commonly confused with ''
Laminaria digitata ''Laminaria digitata'' is a large brown alga in the family Laminariaceae, also known by the common name oarweed. It is found in the sublittoral zone of the northern Atlantic Ocean. Description ''Laminaria digitata'' is a tough, leathery, dark ...
'' and ''
Laminaria hyperborea ''Laminaria hyperborea'' is a species of large brown alga, a kelp in the family Laminariaceae, also known by the common names of tangle and cuvie. It is found in the sublittoral zone of the northern Atlantic Ocean. A variety, ''Laminaria hyperbo ...
'' and is at risk from climate change.


Phylogony

''Laminaria nigripes'' is a species within the genus Laminaria. The genus
Laminaria ''Laminaria'' is a genus of brown seaweed in the order Laminariales (kelp), comprising 31 species native to the north Atlantic and northern Pacific Oceans. This economically important genus is characterized by long, leathery laminae and relativ ...
is in the family
Laminariaceae Laminariaceae is a family of brown algal seaweed Seaweed, or macroalgae, refers to thousands of species of macroscopic, multicellular, marine algae. The term includes some types of '' Rhodophyta'' (red), ''Phaeophyta'' (brown) and ''Chlor ...
which is one of eight families in the order of Laminariales. The class of Phaeophyceae includes the order of Laminariales.
Phaeophyceae Brown algae (singular: alga), comprising the class Phaeophyceae, are a large group of multicellular algae, including many seaweeds located in colder waters within the Northern Hemisphere. Brown algae are the major seaweeds of the temperate and po ...
are brown algae commonly referred to as kelp. ''Laminaria nigripes'' was first described in 1868 under the name '' Saccharina nigripes'' by Jacob Agardh in Spitsbergen, Norway.


Saccharina

Recent molecular genetic insight has led some researchers to suggest that the genetic species known as ''Laminaria nigripes'' ought to be a part of the genus
Saccharina ''Saccharina'' is a genus of 24 species of Phaeophyceae (brown algae). It is found in the north Atlantic Ocean and the northern Pacific Ocean at depths from 8 m to 30 m (exceptionally to 120 m in the warmer waters of the Mediterran ...
. Specifically, the genus Saccharina Stackhouse from 1809 is proposed for revival. The revived Saccharina Stackhouse would include the genera Hedophyllum and Kjellmaniella, the species ''Cymathaere japonica'', and certain species from Laminaria. With the re-establishment of Saccharina Stackhouse, ''Laminaria nigripes'' would be renamed ''Saccharina nigripes''.


Hedophyllum

Additional phylogenetic and molecular genetic research has added the possibility that the genus Saccharina is actually a clade containing the genera Anthrothamnus, Hedophyllum, Kjellmaniella, and Saccharina. Under this phylogenetic model, ''Laminaria nigripes'' would fall under the reinstated genus Hedophyllum 1901 Setchell as '' Hedophyllum nigripes''. Part of the reasoning behind the proposed switch is bringing ''Laminaria nigripes'' and its closest known relative, '' Saccharina subsessilis'', together on the phylogenetic tree. ''Saccharina subessilis'' would become '' Hedophyllum subsessilis'' and be the lectotype species for ''Laminaria nigripes''. In addition to ''H. nigripes'' and ''H. subsessilis,'' the genus Hedophyllum would contain the species '' H. bongardiana'', '' H. dentigera'', '' H. druehlii'', and '' H. sessilis''. The species within the Hedophyllum genus have flexible stipes and lack tissue cavitation, true branching, and split branching.


Misidentification

Because the digitate blade of ''Laminaria nigripes'' is similar to the blade of ''Laminaria digitata'', ''Laminaria nigripes'' samples are commonly misidentified as ''Laminaria digitata'' in the Maritime Provinces of Canada and the Northwest Atlantic which has contributed to fewer reportings of ''Laminaria nigripes'' in that region. Additionally, ''Laminaria nigripes'' is often confused with ''Laminaria hyperborea'' in Europe. In addition to the similar blade morphology, the difficulty of correctly identifying a sample via mucilage ducts has added further confusion. Because there is confusion around the identification of ''Laminaria nigripes'' and similar species, the genetic species of ''Laminaria nigripes'' has been referred to by multiple names including ''Saccharina nigripes, Hedophyllum nigripes, Saccharina groelandica,'' and '' Laminaria bongardiana.''


Morphology


Blades

''Laminaria nigripes'' has two main phenotypes, one with a simple blade and one with a digitate blade. Both of these phenotypes are the same genetic species. The digitate bladed phenotypes is more common and can appear morphologically similar to Laminaria digitata while the simple bladed phenotype, which is much rarer, appears morphologically similar to Saccharina latissima. The presence of these phenotypes varies between the Northeast Pacific and Northwest Atlantic with a higher prevalence of the simple bladed phenotype in the Pacific than in the Atlantic. Because of the presence of multiple phenotypes, ''Laminaria nigripes'' is known to have phenotypic plasticity. When young, Laminaria nigripes has a stipe and bullated blades. As an individual matures, the stipe can be lost but may remain, and the blades often become smooth and cordate with lacerations. Because the blades of Laminaria nigripes are prone to being torn by environmental factors, the blades can be split into multiple segments, but the blades do not experience split branching or trues branching.


Mucilage ducts

The presence of mucilage ducts varies between kelp species and has been used in the identification process, but pseudo mucilage ducts can be formed from infections and obscure the identification process. ''Laminaria nigripes'' can have mucilage ducts on the stipe or blades, and the presence of mucilage ducts in the cortex of the stipe for a cross section of a sample can be used to identify ''Laminaria nigripes'' individuals under a microscope. However, the mucilage ducts of ''Laminaria nigripes'' can become infected and appear as pseudo mucilage ducts, and mucilage ducts are less likely to be present in individuals from more northern, colder waters.


Habitat and distribution

Laminaria nigripes is distributed in the North Atlantic and North Pacific, within Arctic, subarctic, and cold temperate waters. The range of ''Laminaria nigripes'' varies latitudinally between the Pacifica and Atlantic with records of the species in the waters around the southern end of British Columbia and a more northern distribution in the Atlantic. In the Northwest Atlantic, ''Laminaria nigripes'' is absent in Atlantic Nova Scotia, the Northumberland Strait of New Brunswick, Southern Maine, Massachusetts, and Rhode Island. Additionally, some researches have claimed that ''Laminaria nigripes'' has distribution in subarctic but not Arctic waters. ''Laminaria nigripes'' is recorded in Europe in addition to the Northwest Atlantic. There is some evidence that ''Laminaria nigripes'' plays an important ecological role in the Bay of Fundy, but researchers caution that more research needs to be done before the distribution of ''Laminaria nigripes'' in Atlantic Canada is clear. ''Laminaria nigripes'' is also found off of Greenland along with ''
Saccharina latissima ''Saccharina latissima'' is a brown alga (class Phaeophyceae), of the family Laminariaceae. It is known by the common names sugar kelp, sea belt, and Devil's apron, and is one of the species known to Japanese cuisine as kombu. It is found in the ...
'', '' Laminaria solidungula'', ''
Alaria esculenta ''Alaria esculenta'' is an edible seaweed, also known as dabberlocks or badderlocks, or winged kelp. It is a traditional food along the coasts of the far north Atlantic Ocean. It may be eaten fresh or cooked in Greenland, Iceland, Scotland and Ir ...
'', '' Agarum clathratum'', '' Saccharina dermatodea'', and '' Saccharina logicruris''. In the Kara Sea, Laminaria nigripes is observed with ''Saccharina latissima'', '' Laminaria solidungula'', ''
Alaria elliptica Alaria may refer to: * ''Alaria'' (alga), a brown alga genus in the family Alariaceae * ''Alaria'' (trematode), a flatworm genus in the family Diplostomatidae {{genus disambiguation ...
'', and ''
Alaria oblonga Alaria may refer to: * Alaria (alga), ''Alaria'' (alga), a brown alga genus in the family Alariaceae * Alaria (trematode), ''Alaria'' (trematode), a flatworm genus in the family Diplostomatidae {{genus disambiguation ...
''. The North Pacific has more endemic species of kelp than the North Atlantic and is believed to be where kelps as a whole began. The Saccharina clade likely began in the Northwest Pacific before moving into the Northeast Pacific and later into the Atlantic via passage through the Arctic. During the
Cretaceous The Cretaceous ( ) is a geological period that lasted from about 145 to 66 million years ago (Mya). It is the third and final period of the Mesozoic Era, as well as the longest. At around 79 million years, it is the longest geological period of th ...
through
Pleistocene The Pleistocene ( , often referred to as the ''Ice age'') is the geological Epoch (geology), epoch that lasted from about 2,580,000 to 11,700 years ago, spanning the Earth's most recent period of repeated glaciations. Before a change was fina ...
eras, tectonic plate movements and glacial periods continually changed the seaways into and out of the Arctic. This resulted in a succession of different biotic exchanges between the Arctic and other ocean basins which resulted in the spreading of species across ocean basins and the creation of new species. Within its range, ''Laminaria nigripes'' is most often found in areas of rocky, intertidal zone with moderate to high wave action. ''Laminaria nigripes'' has to cope with and adjust to sea ice cover, low temperatures, and unique light conditions. Abrasion, low light, low salinity, and low temperatures are common in areas like these which can have ice cover for part or all of the year. Ice cover is not static and creates abrasions in kelps as it moves. Ice cover also limits the light available for organisms beneath it by reflecting light, and the low availability of light affects photosynthetic activity. With the ice cover and high latitude of these areas, there is a wide range in the amount of light available at certain times for photosynthetic organisms, and there is a rapid increase of light available as the ice cover breaks up. This results in a limited season for ''Laminaria nigripes'' to grow. ''Laminaria nigripes'' may utilize the cold water of these areas to reproduce by spreading spores and to support early development. Because ''Laminaria nigripes'' prefers areas with moderate to high wave action, it shares that space with ''Laminaria digitata'' in the Bay of Fundy.


Distribution changes in response to climate change

Changes in sea temperature, salinity, ecosystem composition and sea ice cover are forecast to globally impact the distribution of kelp species. At a study site, the presence of ''Laminaria nigripes'' decreased at the same time as sea surface temperatures in the area increased, and the decrease could not be attributed to heavy storms, increased competition, or salinity changes. When the sea surface temperatures returned to a more typical level, ''Laminaria nigripes'' did not recover. Kelps in general are affect by increased water temperatures because it disrupts their reproduction and development which may be why ''Laminaria nigripes'' decreased during a period of increase in sea surface temperatures. During certain life stages, ''Laminaria nigripes'' has an upper tolerance limit for temperature similar to that of Arctic species of kelp, and ''Laminaria nigripes'' could struggle if it is temperature sensitive and if temperatures contain to rise .


References

{{Taxonbar, from=Q12236927 Laminariaceae Taxa named by Jacob Georg Agardh Plants described in 1868