Seaweed(Redirected from Seaweeds)
|Cladistically included but traditionally excluded groups|
The term includes some types of red, brown, and green macroalgae. Seaweed offer excellent opportunities for its industrial exploitation as they could be a source of multiple compounds (i.e. polysaccharides, proteins and phenols) with applications as food  and animal feed, pharmaceuticals  or fertilizers
"Seaweed" is a colloquial term and lacks a formal definition. A seaweed may belong to one of several groups of multicellular algae: the red algae, green algae, and brown algae. As these three groups do not have a common multicellular ancestor, the seaweed are in a polyphyletic group. In addition, some tuft-forming bluegreen algae (Cyanobacteria) are sometimes considered to be seaweed.
- thallus: the algal body
- lamina or blade: a flattened structure that is somewhat leaf-like
- stipe: a stem-like structure, may be absent
- holdfast: a specialized basal structure providing attachment to a surface, often a rock or another alga
- haptera: a finger-like extension of the holdfast anchoring to a benthic substrate
The stipe and blade are collectively known as the frond.
Two specific environmental requirements dominate seaweed ecology. These are the presence of seawater (or at least brackish water) and the presence of light sufficient to drive photosynthesis. Another common requirement is a firm attachment point, although some genera such as Sargassum and Gracilaria have species that float freely. As a result, seaweed most commonly inhabit the part of a sea that is close to the shore (the littoral zone) and within that zone more frequently on rocky shores than on sand or shingle. Seaweed occupy a wide range of ecological niches. The highest elevation is only wetted by the tops of sea spray, the lowest is several meters deep. In some areas, littoral seaweed can extend several miles out to sea. The limiting factor in such cases is sunlight availability. The deepest living seaweed are some species of red algae.
At the beginning of 2011, Indonesia produced 3 million tonnes of seaweed and surpassed the Philippines as the world's largest seaweed producer. By 2011, the production was estimated to have reached 10 million tonnes.
Seaweed is consumed by coastal people, particularly in East Asia, e.g. Japan, China, Korea, Taiwan, and Southeast Asia, e.g. Brunei, Singapore, Thailand, Burma, Cambodia, Vietnam, Indonesia, Philippines, and Malaysia, and also in South Africa, Belize, Peru, Chile, the Canadian Maritimes, Scandinavia, South West England, Ireland, Wales, California, and Scotland.
In Asia, Gim (Korean food) (김, Korea), nori (海苔, Japan), zicai (紫菜, China) are sheets of dried Porphyra used in soups, sushi wrap or onigiri (rice balls). Chondrus crispus (commonly known as 'Irish moss' or carrageenan moss) is another red alga used in producing food additives, along with Kappaphycus and gigartinoid seaweed. Porphyra is a red alga used in Wales to make laver. Laverbread, made from oats and the laver, is a popular dish there. In northern Belize, edible seaweed are mixed with milk, nutmeg, cinnamon, and vanilla to make a common beverage affectionately called "dulce" (or "sweet").
Seaweed are also harvested or cultivated for the extraction of alginate, agar and carrageenan, gelatinous substances collectively known as hydrocolloids or phycocolloids. Hydrocolloids have attained commercial significance as food additives. The food industry exploits their gelling, water-retention, emulsifying and other physical properties. Agar is used in foods such as confectionery, meat and poultry products, desserts and beverages and moulded foods. Carrageenan is used in salad dressings and sauces, dietetic foods, and as a preservative in meat and fish products, dairy items and baked goods.
The development of seaweed as an alternative and sustainable source of food and animal feed ingredients depends on the sustainability of the natural resource of raw biomass and on moving the process of feed development from laboratory to industrial scale.
Alginates are commonly used in wound dressings (see alginate dressing), and production of dental moulds. In microbiology research, agar — a plant-based jelly similar to gelatin and made from seaweed — is extensively used as culture medium. Carrageenans, alginates and agaroses (the latter are prepared from agar by purification), with other lesser-known macroalgal polysaccharides, have several important biological activities or applications in biomedicine.
The strong photosynthesis of algae creates a large affinity for nutrients; this allows the seaweed to be used purposely to remove undesired nutrients from water. Nutrients such as ammonia, ammonium nitrate, nitrite, phosphate, iron, copper, as well as CO2 are rapidly consumed by growing seaweed. Reefs and lakes are naturally filtered this way (the seaweed being consumed by fish and invertebrates), and this filtering process is duplicated in artificial seaweed filters such as algae scrubbers.
Seaweed (macroalgae), as opposed to phytoplankton (microalgae), is used almost universally for filtration purposes because of the need to be able to easily remove (harvest) the algae from the water, which then removes the nutrients. Microalgae require more processing to separate it from the water than macroalgae does; macroalgae is simply pulled out.
When used for filtration, saltwater algae commonly grows species of Cladophora, Ulva (sea lettuce), and Chaetomorpha. Freshwater filtration applications are useful, too, and will commonly grow species such as Spirogyra.
Other seaweed may be used as fertilizer, compost for landscaping, or a means of combating beach erosion through burial in beach dunes. Seaweed is under consideration as a potential source of bioethanol.
Seaweed is an ingredient in toothpaste, cosmetics and paints. Alginates enjoy many of the same uses as carrageenan and are used in industrial products such as paper coatings, adhesives, dyes, gels, explosives and in processes such as paper sizing, textile printing, hydro-mulching and drilling. Research suggests that the Australian seaweed Delisea pulchra may interfere with bacterial colonization. Sulfated saccharides from both red and green algae have been known to inhibit some DNA and RNA enveloped viruses.
Seaweed collecting is the process of collecting, drying and pressing seaweed. It was a popular pastime in the Victorian era and remains a hobby today. In some emerging countries, Seaweed is harvested daily to support communities.
Seaweeds are also used as animal feeds. They have long been grazed by sheep, horses and cattle in Northern Europe. They are currently particularly valuable for fish production. Adding seaweed to livestock feed can substantially reduce methane emissions from cattle.
Photo essay showing women in Zanzibar, Tanzania farming seaweed and making seaweed soapEdit
The stinging seaweed Microcoleus lyngbyaceus contains several known toxins including lyngbyatoxin-a and debromoaplysiatoxin. Direct skin contact can cause seaweed dermatitis characterized by painful, burning lesions that subsist for several days.  
The following table lists a very few example genera of seaweed.
|Fucus||Brown||In intertidal zones on rocky shores.|
|Gracilaria||Red||Cultivated for food|
|Laminaria||Brown||Also known as kelp, 8–30 m under water, cultivated for food.|
|Macrocystis||Brown||Giant kelp, forming floating canopies.|
|Porphyra||Red||Intertidal zones in temperate climate. Cultivated for food.|
- Smith, G.M. 1944. Marine Algae of the Monterey Peninsula, California. Stanford Univ., 2nd Edition.
- Garcia-Vaquero, M; Rajauria, G; O'Doherty, JV; Sweeney, T (2017). "Polysaccharides from macroalgae: Recent advances, innovative technologies and challenges in extraction and purification". Food Research International. 99 (Pt 3): 1011–1020. doi:10.1016/j.foodres.2016.11.016. PMID 28865611 – via Elsevier.
- Garcia-Vaquero, M.; Hayes, M. (2016). "Red and green macroalgae for fish and animal feed and human functional food development". Food Reviews International. 32: 15–45. doi:10.1080/87559129.2015.1041184 – via Taylor & Francis Online.
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- Seaweed Biofuels: Production of Biogas and Bioethanol from Brown Macroalgae
- Francesca Cappitelli & Claudia Sorlini (2008). "Microorganisms attack synthetic polymers in items representing our cultural heritage". Applied and Environmental Microbiology. 74 (3): 564–569. doi:10.1128/AEM.01768-07. PMC . PMID 18065627.
- "Seaweed Thatch". naturalhomes.org. Retrieved 9 April 2018.
- Heuzé V., Tran G., Giger-Reverdin S., Lessire M., Lebas F., 2017. Seaweeds (marine macroalgae). Feedipedia, a programme by INRA, CIRAD, AFZ and FAO. https://www.feedipedia.org/node/78 Last updated on May 29, 2017, 16:46
- "Seaweed shown to reduce 99% methane from cattle". irishtimes.com. Retrieved 9 April 2018.
- "Algues vertes: la famille du chauffeur décédé porte plainte contre X" AFP, retrieved 2010-04-22 (in French)
- https://www.cabdirect.org/cabdirect/abstract/19822902103 "Escharotic stomatitis caused by the "stinging seaweed" Microcoleus lyngbyaceus (formerly Lyngbya majuscula): case report and literature review"
- https://onlinelibrary.wiley.com/doi/full/10.1111/j.1365-4632.2011.05042.x "Lyngbya dermatitis (toxic seaweed dermatitis)"
|Wikimedia Commons has media related to Seaweed.|
- Michael Guiry's Seaweed Site information on all aspects of algae, seaweed and marine algal biology
- SeaweedAfrica, information on seaweed utilisation for the African continent.
- Seaweed. A chemical industry in Brittany, in the past and today.
- AlgaeBase, a searchable taxonomic, image, and utilization database of freshwater, marine and terrestrial algae, including seaweed.