Salicornia
Salicornia europaea
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Order: Caryophyllales
Family: Amaranthaceae
Subfamily: Salicornioideae
Genus: Salicornia
L.
Species

See text

Salicornia is a genus of succulent, halophytic (salt tolerant) flowering plants in the family Amaranthaceae that grow in salt marshes, on beaches, and among mangroves. Salicornia species are native to North America, Europe, Central Asia, and southern Africa. Common names for the genus include glasswort, pickleweed, picklegrass, and marsh samphire; these common names are also used for some species not in Salicornia.[1] To French speakers in Atlantic Canada, they are known colloquially as titines de souris ('mouse tits'). The main European species is often eaten, called marsh samphire in Britain, and the main North American species is occasionally sold in grocery stores or appears on restaurant menus as sea beans, samphire greens or sea asparagus.

Description

Illustration of Salicornia maritima

The Salicornia species are small annual herbs. They grow prostrate to erect, their simple or branched stems are succulent, hairless, and appear to be jointed. The opposite leaves are strongly reduced to small fleshy scales with a narrow dry margin, hairless, unstalked and united at the base, thus enclosing and forming a succulent sheath around the stem, which gives it the appearance of being composed of jointed segments.[2]:522[3] Many species are green, but their foliage turns red in autumn. Older stems may be somewhat woody basally.

All stems terminate in spike-like apparently jointed inflorescences. Each joint consists of two opposite minute bracts with an (1-) 3-flowered cyme tightly embedded in cavities of the main axis and partly hidden by the bracts. The flowers are arranged in a triangle, both lateral flowers beneath the central flower. The hermaphrodite flowers are more or less radially symmetric, with a perianth of three fleshy tepals united nearly to the apex. There are 1–2 stamens and an ovary with two stigmas.[3]

The perianth is persistent in fruit. The fruit wall (pericarp) is membranous. The vertical seed is ellipsoid, with yellowish brown, membranous, hairy seed coat. The seed contains no perisperm (feeding tissue).[3]

Like most members of the subfamily Salicornioideae, Salicornia species use the C3 carbon fixation pathway to take in carbon dioxide from the surrounding atmosphere.[4]

Taxonomy

The genus Salicornia was first described in 1753 by Carl Linnaeus.[5] Salicornia europaea was selected as the type species.[6]

The genus probably originated during the Miocene in the region between the Mediterranean Basin and Central Asia. Evolving from within the perennial and frost-sensitive former genus Sarcocornia (now shown to be paraphyletic),[7] the annual, strongly inbreeding and frost-tolerant Salicornia diversified during the late Pliocene to early Pleistocene. By events of intercontinental dispersals, they reached southern Africa twice and North America at least three times. Two tetraploid lineages expanded rapidly, with the ability to colonize lower belts of the salt marshes than their diploid relatives. Inbreeding and geographical isolation led to a large number of reproductive isolated species that are only weakly differentiated.[8]

The taxonomic classification of this genus is extremely difficult (with one paper calling it a "taxonomic nightmare").[8] The determination of species seems almost impossible for non-specialists. The reasons for these difficulties are the reduced habit with weak morphological differentiation and high phenotypic variability. As the succulent plants lose their characteristics while drying, herbarium specimens often cannot be determined with certainty and are less suited for taxonomic studies.[8]

Molecular phylogenetic studies have regularly revised the circumscription of the genus. It was considered distinct from Sarcocornia in 2007 and 2012 studies.[8][9] A 2017 study resulted in Sarcocornia being sunk into Salicornia, substantially increasing the size of the genus, which was divided into four subgenera.[7]

Species

S. rubra at a saline inland habitat

As of April 2022, Plants of the World Online accepted the following species:

  • Salicornia alpini Lag.
  • Salicornia ambigua Michx.
  • Salicornia andina Phil.
  • Salicornia bigelovii Torr.
  • Salicornia blackiana Ulbr.
  • Salicornia brachiata Roxb.
  • Salicornia capensis (Moss) Piirainen & G.Kadereit
  • Salicornia crassispica G.L.Chu
  • Salicornia cuscoensis Gutte & G.K.Müll. ex Freitag, M.Á.Alonso & M.B.Crespo
  • Salicornia decumbens (Toelken) Piirainen & G.Kadereit
  • Salicornia decussata (S.Steffen, Mucina & G.Kadereit) Piirainen & G.Kadereit
  • Salicornia disarticulata Moss
  • Salicornia dunensis (Moss ex Adamson) Piirainen & G.Kadereit
  • Salicornia erectispica G.L.Chu
  • Salicornia europaea L.
  • Salicornia fruticosa (L.) L.
  • Salicornia globosa (Paul G.Wilson) Piirainen & G.Kadereit
  • Salicornia helmutii Piirainen & G.Kadereit
  • Salicornia hispanica (Fuente, Rufo & Sánchez Mata) Piirainen & G.Kadereit
  • Salicornia lagascae (Fuente, Rufo & Sánchez Mata) Piirainen & G.Kadereit
  • Salicornia littorea (Moss) Piirainen & G.Kadereit
  • Salicornia magellanica Phil.
  • Salicornia maritima S.L.Wolff & Jefferies
  • Salicornia × marshallii (Lambinon & Vanderp.) Stace
  • Salicornia meyeriana Moss
  • Salicornia mossambicensis (Brenan) Piirainen & G.Kadereit
  • Salicornia mossiana (Toelken) Piirainen & G.Kadereit
  • Salicornia natalensis Bunge ex Ung.-Sternb.
  • Salicornia neei Lag.
  • Salicornia nitens P.W.Ball & Tutin
  • Salicornia obclavata (Yaprak) Piirainen & G.Kadereit
  • Salicornia obscura P.W.Ball & Tutin
  • Salicornia pachystachya Bunge ex Ung.-Sternb.
  • Salicornia pacifica Standl.
  • Salicornia perennans Willd.
  • Salicornia perennis Mill.
  • Salicornia perrieri A.Chev.
  • Salicornia persica Akhani
  • Salicornia perspolitana Akhani
  • Salicornia praecox A.Chev.
  • Salicornia procumbens Sm.
  • Salicornia pruinosa (Fuente, Rufo & Sánchez Mata) Piirainen & G.Kadereit
  • Salicornia pulvinata R.E.Fr.
  • Salicornia quinqueflora Bunge ex Ung.-Sternb.
  • Salicornia rubra A.Nelson
  • Salicornia senegalensis A.Chev.
  • Salicornia sinus-persica Akhani
  • Salicornia tegetaria (S.Steffen, Mucina & G.Kadereit) Piirainen & G.Kadereit
  • Salicornia terminalis (Toelken) Piirainen & G.Kadereit
  • Salicornia uniflora Toelken
  • Salicornia utahensis Tidestr.
  • Salicornia virginica L.
  • Salicornia xerophila (Toelken) Piirainen & G.Kadereit

Distribution and habitat

Salicornia at Ballona Wetlands, Southern California

The species of Salicornia are widely distributed over the Northern Hemisphere and in southern Africa, ranging from the subtropics to subarctic regions. There is one species present in New Zealand.[10]

They grow in coastal salt marshes and in inland salty habitats like shores of salt lakes.[8] Salicornia species are halophytes and can generally tolerate immersion in salt water (hygrohalophytes).

Ecology

Salicornia species are used as food plants by the larvae of some Lepidoptera species, including the Coleophora case-bearers C. atriplicis and C. salicorniae; the latter feeds exclusively on Salicornia spp.

Uses

Culinary

S. europaea is edible, either cooked or raw,[11] as are S. rubra and S. depressa.[12] In England, S. europaea is one of several plants known as samphire (including rock samphire); the term samphire is believed to be a corruption of the French name, [herbe de] Saint-Pierre, which means "St. Peter's herb".[13]

In Hawaii, where it is known as 'sea asparagus', it is often blanched and used as a topping for salads or accompaniment for fish.[14][15]

In addition to S. europaea, the seeds of S. bigelovii yield an edible oil. S. bigelovii's edibility is compromised somewhat because it contains saponins, which are toxic under certain conditions.[11]

Umari keerai (S. brachiata) is cooked and eaten or pickled. It is also used as fodder for cattle, sheep and goats.[16] In Kalpitiya, Sri Lanka, it is used to feed donkeys.

On the east coast of Canada, the plant is known as 'samphire greens' and is a local delicacy. In southeast Alaska, it is known as beach asparagus. In Nova Scotia, Canada, they are known as crow's foot greens. In British Columbia, they are known as sea asparagus.[17] In the United States, they are known as 'sea beans' when used for culinary purposes. Other names include sea green bean, sea pickle, and marsh samphire.[18]

In India, researchers at the Central Salt and Marine Chemicals Research Institute developed a process to yield culinary salt from S. brachiata. The resulting product is known as vegetable salt and sold under the brand name Saloni.[19]

Dehydrated, pulverized Salicornia is sold under the brand name "Green Salt" as a salt substitute claimed to be as salty in taste as table salt, but with less sodium.[20][21]

Pharmacological research

In South Korea, Phyto Corporation has developed a technology of extracting low-sodium salt from S. europaea, a salt-accumulating plant. The company claims that the naturally derived plant salt is effective in treating high blood pressure and fatty liver disease[22] by reducing sodium intake.[23] The company has also developed a desalted Salicornia powder containing antioxidative and antithrombus polyphenols, claimed to be effective in treating obesity and arteriosclerosis,[24] as well as providing a means to help resolve global food shortages.[25]

Environmental uses

Pickleweed is used in phytoextraction. It is highly effective at removing selenium from soil, which is absorbed by the plant and then released into the atmosphere to be dispersed by prevailing winds.[26] Pickleweed (S. bigelovii) has been found to have average volatilization rates 10–100 times higher than other species.[27]

Industrial use

Historical

The ashes of glasswort and saltwort plants and of kelp were long used as a source of soda ash (mainly sodium carbonate) for glassmaking and soapmaking. The introduction of the LeBlanc process for industrial production of soda ash superseded the use of plant sources in the first half of the 19th century.

Umari keerai is used as raw material in paper and board factories.[16]

Contemporary

Because S. bigelovii can be grown using saltwater and its seeds contain high levels of unsaturated oil (30 wt. %, mostly linoleic acid) and protein (35 wt. %),[28][29] it can be used to produce animal feedstuff and as a biofuel feedstock on coastal land where conventional crops cannot be grown. Adding nitrogen-based fertiliser to the seawater appears to increase the rate of growth and the eventual height of the plant,[30] and the effluent from marine aquaculture (e.g. shrimp farming) is a suggested use for this purpose.[28]

Experimental fields of Salicornia have been planted in Ras al-Zawr (Saudi Arabia),[29] Eritrea (northeast Africa) and Sonora (northwest Mexico)[31] aimed at the production of biodiesel. The company responsible for the Sonora trials (Global Seawater) claims between 225 and 250 gallons of BQ-9000 biodiesel can be produced per hectare (approximately 2.5 acres) of salicornia,[32] and is promoting a $35 million scheme to create a 12,000-acre (49 km2) salicornia farm in Bahia de Kino.[33]

Stems and roots of S. brachiata plants have a high cellulose content (ca. 30 wt. %), whereas tender stem tips exhibit a low cellulose content (9.2 wt. %).[34] S. brachiata revealed the dominance of rhamnose, arabinose, mannose, galactose, and glucose, with meager presence of ribose and xylose in their structural polysaccharide.[35]

See also

References

  1. Salicornia Archived 2018-09-13 at the Wayback Machine, Integrated Taxonomic Information System, serial number 20646.
  2. Stace, C. A. (2019). New Flora of the British Isles (Fourth ed.). Middlewood Green, Suffolk, U.K.: C & M Floristics. ISBN 978-1-5272-2630-2.
  3. 1 2 3 Ball, Peter W. (2004). "Salicornia L. Archived 2010-06-20 at the Wayback Machine," in Flora of North America: North of Mexico Volume 4: Magnoliophyta: Caryophyllidae, part 1 Archived 2010-06-20 at the Wayback Machine, Editorial Committee of the Flora of North America (Oxford University Press, 2004). ISBN 978-0-19-517389-5. Online version retrieved August 10, 2016.
  4. Kadereit, G.; Borsch, T.; Weising, K.; Freitag, H. (2003). "Phylogeny of Amaranthaceae and Chenopodiaceae and the evolution of C4 photosynthesis". International Journal of Plant Sciences. 164 (6): 959–86. doi:10.1086/378649. S2CID 83564261.
  5. Carl Linnaeus (1753). Species Plantarum, Tomus I: 3. First description of Salicornia, scanned at BHL Archived 2014-05-21 at the Wayback Machine
  6. "Salicornia". Tropicos. Missouri Botanical Garden. Retrieved 2016-08-11.
  7. 1 2 Piirainen, Mikko; Liebisch, Oskar & Kadereit, Gudrun (2017). "Phylogeny, biogeography, systematics and taxonomy of Salicornioideae (Amaranthaceae/Chenopodiaceae) – A cosmopolitan, highly specialized hygrohalophyte lineage dating back to the Oligocene". Taxon. 66 (1): 109–132. doi:10.12705/661.6.
  8. 1 2 3 4 5 Kadereit, G.; Ball, P.; Beer, S.; Mucina, L.; Sokoloff, D.; Teege, P.; Yaprak, A.E.; Freitag, H. (2007). "A taxonomic nightmare comes true: phylogeny and biogeography of glassworts (Salicornia L., Chenopodiaceae)". Taxon. 56 (4): 1143–70. doi:10.2307/25065909. JSTOR 25065909.
  9. Kadereit, G.; Piirainen, M.; Lambinon, J.; Vanderpoorten, A. (2012). "Cryptic taxa should have names. Reflections on the glasswort genus Salicornia (Amaranthaceae)". Taxon. 61 (6): 1227–39. doi:10.1002/tax.616005. hdl:2268/153011. Archived from the original on 2020-07-14. Retrieved 2020-09-16.
  10. "Flora of New Zealand | Taxon Profile | Salicornia quinqueflora". www.nzflora.info. Archived from the original on 2021-02-13. Retrieved 2021-02-19.
  11. 1 2 "Salicornia" Archived 2007-09-27 at the Wayback Machine, page of the Plants for a Future website Archived 2019-10-18 at the Wayback Machine. Retrieved July 14, 2007.
  12. Nyerges, Christopher (2017). Foraging Washington: Finding, Identifying, and Preparing Edible Wild Foods. Guilford, CT: Falcon Guides. ISBN 978-1-4930-2534-3. OCLC 965922681.
  13. Davidson, Alan (2002). The Penguin Companion To Food (Penguin), p. 828. ISBN 978-0-14-200163-9. On Food and Cooking: The Science and Lore of the Kitchen, Completely Revised and Updated (Scribner, New York), p. 317. ISBN 978-0-684-80001-1.
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  15. "Eating Local, Hawaiian-Style: Sea Asparagus and Ahi Poke Omaraisu". spiceboxtravels.com. April 3, 2015. Archived from the original on September 28, 2018. Retrieved September 28, 2018.
  16. 1 2 Salicornia, oil-yielding plant for coastal belts, The Hindu
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  18. Cook's Thesaurus: Sea Vegetables Archived 2013-05-01 at the Wayback Machine, retrieved 2012-10-08.
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  20. Florence Fabricant, "To Sprinkle: Add Some Green To Your Salt Lineup", New York Times, August 11, 2021, p. D3; online version "Add Green to Your Salt Lineup" August 9, 2021
  21. Green Salt web site, Archived 2021-08-30 at the Wayback Machine
  22. Kim, Jae Hwan; Suk, Sujin; Jang, Woo Jung; Lee, Chang Hyung; Kim, Jong-Eun; Park, Jin-Kyu; Kweon, Mee-Hyang; Kim, Jong Hun; Lee, Ki Won (2017). "Salicornia Extract Ameliorates Salt-Induced Aggravation of Nonalcoholic Fatty Liver Disease in Obese Mice Fed a High-Fat Diet". Journal of Food Science. 82 (7): 1765–1774. doi:10.1111/1750-3841.13777. PMID 28608557.
  23. Panth, Nisha; Park, Sin-Hee; Kim, Hyun; Kim, Deuk-Hoi; Oak, Min-Ho (2016). "Protective Effect of Salicornia europaea Extracts on High Salt Intake-Induced Vascular Dysfunction and Hypertension". International Journal of Molecular Sciences. 17 (7): 1176. doi:10.3390/ijms17071176. PMC 4964547. PMID 27455235.
  24. Won, Kyung Jong; Lee, Kang Pa; Baek, Suji; Cui, Long; Kweon, Mee-Hyang; Jung, Seung Hyo; Ryu, Yun-Kyoung; Hong, Jung Min; Cho, Eun-Ah; Shin, Hwa-Sup; Kim, Bokyung (2017). "Desalted Salicornia europaea extract attenuated vascular neointima formation by inhibiting the MAPK pathway-mediated migration and proliferation in vascular smooth muscle cells". Biomedicine & Pharmacotherapy. 94: 430–438. doi:10.1016/j.biopha.2017.07.108. PMID 28778046.
  25. Rahman, Md. Mahbubur; Kim, Myung-Jin; Kim, Jin-Hyoung; Kim, Sok-Ho; Go, Hyeon-Kyu; Kweon, Mee-Hyang; Kim, Do-Hyung (2018). "Desalted Salicornia europaea powder and its active constituent, trans-ferulic acid, exert anti-obesity effects by suppressing adipogenic-related factors". Pharmaceutical Biology. 56 (1): 183–191. doi:10.1080/13880209.2018.1436073. PMC 6130585. PMID 29521146.
  26. Raven, Peter H.; Eichhorn, Susan E.; Ray F. Evert (2011). Biology of plants (8 ed.). New York, NY: Freeman. p. 12. ISBN 9781429219617.
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  28. 1 2 Glenn, Edward P.; Brown, J. Jed; O'Leary, James W. (August 1998). "Irrigating Crops with Seawater" (PDF). Scientific American. USA: Scientific American, Inc. 279 (August 1998): 76–81. Bibcode:1998SciAm.279b..76G. doi:10.1038/scientificamerican0898-76. Archived (PDF) from the original on 2015-09-06. Retrieved 2008-11-17.
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  30. Alsaeedi, Abdullah H. (2003). "Di Pattern of Salicornia Vegetative Growth in Relation to Fertilization" (PDF). Journal of King Faisal University. Al-Hassa: King Faisal University. 4 (1): 105–18. Retrieved 2008-11-17. adequate fertilization increases significantly the relative growth rate especially during the 'rapid' phase of the vegetative stage
  31. "USIJI Uniform Reporting Document" (PDF). United States Initiative on Joint Implementation. c. 1997. Archived from the original (PDF) on 2011-07-26. Retrieved 2008-11-17. Project Salicornia: Halophyte Cultivation in Sonora
  32. Ryan C. Christiansen (2008-07-31). "Sea asparagus can be oilseed feedstock for biodiesel". Biomass Magazine. Archived from the original on 2009-07-20. Retrieved 2008-11-17.
  33. Dickerson, Marla (2008-07-10). "Letting the sea cultivate the land". Los Angeles Times. Archived from the original on 2011-08-11. Retrieved 17 November 2008.
  34. Sanandiya, Naresh D.; Prasad, Kamalesh; Meena, Ramavatar; Siddhanta, Arup K. (2010-04-01). "Cellulose of Salicornia brachiata". Natural Product Communications. 5 (4): 603–606. doi:10.1177/1934578X1000500421. ISSN 1934-578X. PMID 20433080. S2CID 12588647.
  35. Sanandiya, Naresh D; Siddhanta, A.K (2014). "Chemical studies on the polysaccharides of Salicornia brachiata". Carbohydrate Polymers. 112: 300–7. doi:10.1016/j.carbpol.2014.05.072. PMID 25129748.
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