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Glenn, E. P., Brown, J. J., and Blumwald, E. (1999). "Salt Tolerance and Crop Potential of Halophytes," ''Critical Review in Plant Sciences,'' Vol. 18, No. 2, pp. 227-255. DOI: [http://dx.doi.org/10.1080/07352689991309207 10.1080/07352689991309207]</ref>
Glenn, E. P., Brown, J. J., and Blumwald, E. (1999). "Salt Tolerance and Crop Potential of Halophytes," ''Critical Review in Plant Sciences,'' Vol. 18, No. 2, pp. 227-255. DOI: [http://dx.doi.org/10.1080/07352689991309207 10.1080/07352689991309207]</ref>


One quantitative measure of salt tolerance is the "total dissolved solids" in irrigation water that a plant can tolerate. Sea water typically contains 40 grams per liter (g/l) of dissolved salts (mostly sodium chloride). [[Beans]] and [[rice]] can tolerate about 1-3 g/l, and are considered glycophytes (as are most crop plants). At the other extreme, ''[[Salicornia]] bigalovii'' (dwarf glasswort) grows well at 70 g/l of dissolved solids, and is a promising halophyte for use as a crop. More than 20 countries are involved in saltwater agriculture projects for food crops. Among the plants known as salwort protein accounts for about 17 per cent of the saltwort seeds' weight, the protein is rich in the amino acids lysine and methionine. A quarter of the seed mass is made of oils that are 93 per cent unsaturated, and thus less likely to cause heart disease
One quantitative measure of salt tolerance is the "total dissolved solids" in irrigation water that a plant can tolerate. Sea water typically contains 40 grams per liter (g/l) of dissolved salts (mostly sodium chloride). [[Beans]] and [[rice]] can tolerate about 1-3 g/l, and are considered glycophytes (as are most crop plants). At the other extreme, ''[[Salicornia]] bigalovii'' (dwarf glasswort) grows well at 70 g/l of dissolved solids, and is a promising halophyte for use as a crop.



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==External links==
==External links==
*http://www.ussl.ars.usda.gov/pls/caliche/halophyte.preface
*http://www.ussl.ars.usda.gov/pls/caliche/halophyte.preface
*http://makeshiftblog.wordpress.com/2007/07/10/university-of-delaware-researcher-says-seeds-from-salt-tolerant-plant-a-promising-source-of-biodiesel/
==References==
==References==
<references/>
<references/>

Revision as of 07:31, 27 September 2007

Spartina alterniflora (cordgrass), a halophyte.
See also: biosalinity and halophile

A halophyte is a plant that naturally grows where it is affected by salinity in the root area or by salt spray, such as in saline semi-deserts, mangrove swamps, marshes and sloughs, and seashores. An example of a halophyte is the salt marsh grass Spartina alterniflora (smooth cordgrass). Relatively few plant species are halophytes - perhaps only 2% of all plant species. The large majority of plant species are "glycophytes," and are damaged fairly easily by salinity.[1]

One quantitative measure of salt tolerance is the "total dissolved solids" in irrigation water that a plant can tolerate. Sea water typically contains 40 grams per liter (g/l) of dissolved salts (mostly sodium chloride). Beans and rice can tolerate about 1-3 g/l, and are considered glycophytes (as are most crop plants). At the other extreme, Salicornia bigalovii (dwarf glasswort) grows well at 70 g/l of dissolved solids, and is a promising halophyte for use as a crop.

[2] Plants such as barley (Hordeum vulgare) and the date palm (Phoenix dactylifera) can tolerate about 5 g/l, and can be considered as marginal halophytes.[1]

Adaptation to saline environments by halophytes may take the form of salt tolerance (see halotolerance) or salt avoidance. Plants that avoid the effects of high salt even though they live in a saline environment may be referred to as facultative halophytes rather than 'true', or obligatory, halophytes.

For example, a short-lived plant species that completes its reproductive life cycle during periods (such as a rainy season) when the salt concentration is low would be avoiding salt rather than tolerating it. Or a plant species may maintain a 'normal' internal salt concentration by excreting excess salts through its leaves or by concentrating salts in leaves that later die and drop off.

References

  1. ^ a b Glenn, E. P., Brown, J. J., and Blumwald, E. (1999). "Salt Tolerance and Crop Potential of Halophytes," Critical Review in Plant Sciences, Vol. 18, No. 2, pp. 227-255. DOI: 10.1080/07352689991309207
  2. ^ Glenn, E. P.; Brown, J. J.; O'Leary, J. W. (1998). "Irrigating Crops with Seawater," Scientific American, Vol. 279, no. 8, Aug. 1998, pp. 56-61.

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