Tamarix


The genus Tamarix is composed of about 50–60 species of flowering plants in the family Tamaricaceae, native to drier areas of Eurasia and Africa. The generic name originated in Latin and may refer to the Tamaris River in Hispania Tarraconensis.

Description

They are evergreen or deciduous shrubs or trees growing to 1–18 m in height and forming dense thickets. The largest, Tamarix aphylla, is an evergreen tree that can grow to 18 m tall. They usually grow on saline soils, tolerating up to 15,000 ppm soluble salt and can also tolerate alkaline conditions.
Tamarisks are characterized by slender branches and grey-green foliage. The bark of young branches is smooth and reddish brown. As the plants age, the bark becomes bluish-purple, ridged and furrowed.
The leaves are scale-like, almost like that of junipers, 1–2 mm long, and overlap each other along the stem. They are often encrusted with salt secretions.
The pink to white flowers appear in dense masses on 5–10 cm long spikes at branch tips from March to September, though some species tend to flower during the winter.

Reproduction

Tamarix can spread both vegetatively, by adventitious roots or submerged stems, and sexually, by seeds. Each flower can produce thousands of tiny seeds that are contained in a small capsule usually adorned with a tuft of hair that aids in wind dispersal. Seeds can also be dispersed by water. Seedlings require extended periods of soil saturation for establishment. Tamarisk trees are most often propagated by cuttings.
Tamarix species are fire-adapted, and have long tap roots that allow them to intercept deep water tables and exploit natural water resources. They are able to limit competition from other plants by taking up salt from deep ground water, accumulating it in their foliage, and from there depositing it in the surface soil where it builds up concentrations temporarily detrimental to some plants. The salt is washed away during heavy rains.
Tamarix species are used as food plants by the larvae of some Lepidoptera species including Coleophora asthenella which feeds exclusively on T. africana.

Uses

Tamarix ramosissima has naturalized and become a major invasive plant species in parts of the world, such as in the Southwestern United States and Desert Region of California, consuming large amounts of groundwater in riparian and oasis habitats due to the density of its stands. The high salt level in tamarisk infiltrates the soil, preventing other plants from growing, creating a tamarisk-dominant forest with no understory, void of important habitat for pollinators and other native species. Tamarisk forests also tend to burn hotter than most native riparian trees, worsening the fire hazard of acres of uninterrupted tamarisk and their risk to human structures.
Tamarisk eradication projects use a combination of methods, including manual stem cutting followed by application of herbicide to the stump and burning.

Selected species

The tamarisk was introduced to the United States as an ornamental shrub, a windbreak, and a shade tree in the early 19th century. In the 1930s, during the Great Depression, tree-planting was used as a tool to fight soil erosion on the Great Plains, and the trees were planted by the millions in the Great Plains Shelterbelt.
Eight species are found in North America. They can be divided into two subgroups:
; Evergreen species
Tamarix aphylla, a large evergreen tree, does not sexually reproduce in the local climate and is not considered a seriously invasive species. The Athel tree is commonly used for windbreaks on the edge of agricultural fields and as a shade tree in the deserts of the Southwestern United States.
; Deciduous species
The second subgroup contains the deciduous tamarisks, which are small, shrubby trees, commonly known as "saltcedars". These include Tamarix pentandra, Tamarix tetranda, Tamarix gallica, Tamarix chinensis, Tamarix ramosissima, and Tamarix parvifolia.
These deciduous trees establish themselves in disturbed and undisturbed streams, waterways, bottom lands, banks, and drainage washes of natural or artificial water bodies, moist rangelands and pastures, and other areas where seedlings can be exposed to extended periods of saturated soil for establishment.

Invasive species

Tamarix species are commonly believed to disrupt the structure and stability of North American native plant communities and degrade native wildlife habitat, by outcompeting and replacing native plant species, salinizing soils, monopolizing limited sources of moisture, and increasing the frequency, intensity, and effect of fires and floods. While individual plants may not consume larger quantities of water than native species, large, dense stands of tamarisk do consume more water than equivalent stands of native cottonwoods. An active and ongoing debate exists as to when the tamarisk can out-compete native plants, and if it is actively displacing native plants or it just taking advantage of disturbance by removal of natives by humans and changes in flood regimens. Research on competition between tamarisk seedlings and co-occurring native trees has found that the seedlings are not competitive over a range of environments, but stands of mature trees effectively prevent native species' establishment in the understory, due to low light, elevated salinity, and possibly changes to the soil biota. Box elder seedlings survive and grow under higher-shade conditions than Tamarix seedlings, and mature Tamarix specimens die after 1–2 years of 98% shade, indicating a pathway for successional replacement of Tamarix by box elder. Anthropogenic activities that preferentially favor tamarisk are associated with infestation. To date, Tamarix has taken over large sections of riparian ecosystems in the western United States that were once home to native cottonwoods and willows, and are projected by some to spread well beyond the current range.

Controls

Pest populations of tamarisk in the United States can be dealt with in several ways. The National Park Service has used the methods of physically removing the plants, spraying them with herbicides, and introducing northern tamarisk beetles in the national park system. This has been done in the Dinosaur National Monument in Utah and Colorado along the Green and Yampa Rivers, during the summers of 2006 and 2007. After years of study, the USDA Agricultural Research Service has found that the tamarisk beetles eat only the tamarisk, and starve when no more tamarisk is available. No other native North American plants have been found to be eaten by the introduced tamarisk beetle. Progress is slow, but proves that containment of the tamarisk is possible in the long term.

Cultural history

In the Epic of Gilgamesh, Gilgamesh's mother, the goddess Ninsun, ceremoniously bathes in a bath of "tamarisk" and soapwort before allowing Gilgamesh and Enkidu to begin their conquest.
In Genesis 21:33, Abraham is recorded to have "planted a tamarisk at Beer-sheba". He had built a well there, earlier.
In 1 Samuel 22:6, Saul is sitting under a tamarisk tree on a hill at Gibeah when he learns that David has returned to Judah.
In Shahnameh, only a tamarisk arrow to the eye can wound the otherwise invincible Prince Esfandiar.
In the Quran 34:16, the people of Saba were punished when " converted their two garden into gardens producing bitter fruit and tamarisks...".
In the Old Testament, Saul's bones are buried under a tamarisk tree in Jabesh.
In Egyptian mythology, the body of Osiris is hidden for a time in a tamarisk tree in Byblos, until it was retrieved by Isis. A reference to this is also made in the computer game, Age of Mythology, in which the head of Osiris is said to be hidden inside the trunk of a great tamarisk tree.
Wedgwood made a "Tamarisk" China pattern.
According to the New Larousse Encyclopedia of Mythology, the tamarisk plant is a favorite of the Greek god Apollo.
This tree, like the old world Sycamore, is not infrequently seen in Scythian jewelry and art.