Taxodium distichum Information
|Bald cypress forest in a central Mississippi lake|
Taxodium distichum (bald cypress) is a deciduous conifer in the family Cupressaceae. It is native to the southeastern United States. Hardy and tough, this tree adapts to a wide range of soil types, whether wet, dry, or swampy. It is noted for the russet-red fall color of its lacy needles.
This plant has some cultivated varieties      and is often used in groupings in public spaces. Common names include bald cypress, baldcypress, swamp cypress, white cypress, tidewater red cypress, gulf cypress and red cypress.  
The main trunk is often surrounded by cypress knees. The bark is grayish brown to reddish brown, thin, and fibrous with a stringy texture; it has a vertically, interwoven pattern of shallow ridges and narrow furrows.
The needle-like leaves are 1⁄2 to 3⁄4 inch (1.3 to 1.9 cm) long and are simple, alternate, green and linear, with entire margins. In autumn, the leaves turn yellow or copper red.  The bald cypress drops its needles each winter and then grows a new set in spring. 
This species is monoecious, with male and female flowers on a single plant forming on slender, tassel-like structures near the edge of branchlets. The tree flowers in April and the seeds ripen in October.  The male and female strobili are produced from buds formed in late autumn, with pollination in early winter, and mature in about 12 months. Male cones emerge on panicles that are 4–5 inches (10–13 cm) inches long. Female cones are round, resinous and green while young. They then turn hard and then brown as the tree matures. They are globular and 2.0–3.5 cm (3⁄4–1 3⁄8 in) in diameter. They have from 20 to 30 spirally arranged, four-sided scales, each bearing one, two, or rarely three triangular seeds. Each cone contains 20 to 40 large seeds. The cones disintegrate at maturity to release the seeds. The seeds are 5–10 mm (3⁄16–13⁄32 in) long, the largest of any species of Cupressaceae, and are produced every year, with heavy crops every 3–5 years. The seedlings have three to nine, but usually six, cotyledons each. 
The bald cypress grows in full sunlight to partial shade. This species grows best in wet or well-drained soil but can tolerate dry soil. It is moderately able to grow in aerosols of salt water. The cones are often consumed by wildlife.  
This tree is suitable for cultivation in light (sandy), medium (loamy) and heavy (clay) soils. It does well in acid, neutral and alkaline soils and can grow in very alkaline and saline soils. It can grow in semi-shade (light woodland) or no shade. It prefers moist or wet soil and can grow in water. It can tolerate atmospheric pollution.
The tallest known specimen, near Williamsburg, Virginia, is 44.11 m (145 ft) tall, and the stoutest known, in the Real County near Leaky, Texas, has a diameter at breast height of 475 in (39 ft).  The oldest known living specimen, found along the Black River in North Carolina, is at least 2,624 years old, rendering it the oldest living trees in eastern North America. 
The closely related Taxodium ascendens (pond cypress) is treated by some botanists as a distinct species,   while others classify it as merely a variety of bald cypress,   as Taxodium distichum var. imbricatum (Nutt.) Croom. It differs in shorter leaves borne on erect shoots, and in ecology, being largely confined to low-nutrient blackwater habitats. A few authors also treat Taxodium mucronatum as a variety of bald cypress, as T. distichum var. mexicanum Gordon, thereby considering the genus as comprising only one species. 
The native range extends from southeastern New Jersey south to Florida and west to East Texas and southeastern Oklahoma, and also inland up the Mississippi River. Ancient bald cypress forests, with some trees more than 1,700 years old, once dominated swamps in the Southeast. The range had been believed to extended north only as far as Delaware, but researchers have now found a natural forest on the Cape May Peninsula in southern New Jersey. The species can also be found growing outside its natural native range.  The largest remaining old-growth stands are at Corkscrew Swamp Sanctuary, near Naples, Florida, and in the Three Sisters tract along eastern North Carolina's Black River.[ citation needed] The Corkscrew trees are around 500 years of age, and some exceed 40 m in height. The Black River trees were cored by dendrochronologist David Stahle from the University of Arkansas. He found that some began growing as early as 364 AD. 
This species is native to humid climates where annual precipitation ranges from about 760 mm or 30 inches in Texas to 1,630 mm or 64 inches along the Gulf Coast. Although it grows best in warm climates, the natural northern limit of the species is not due to a lack of cold tolerance, but to specific reproductive requirements: further north, regeneration is prevented by ice damage to seedlings. Larger trees are able to tolerate much lower temperatures and lower humidity.
In 2012 scuba divers discovered an underwater cypress forest several miles off the coast of Mobile, Alabama, in 60 feet of water. The forest contains trees that could not be dated with radiocarbon methods, indicating that they are more than 50,000 years old and thus most likely lived in the early glacial interval of the last ice age. The cypress forest is well preserved, and when samples are cut they still smell like fresh cypress. A team, which has not yet published its results in a peer-reviewed journal, is studying the site. One possibility is that hurricane Katrina exposed the grove of bald cypress, which had been protected under ocean floor sediments. 
The bald cypress is monoecious. Male and female strobili mature in one growing season from buds formed the previous year. The male catkins are about 2 mm (0.079 in) in diameter and are borne in slender, purplish, drooping clusters 7 to 13 cm (2 3⁄4 to 5 in) long that are conspicuous during the winter on this deciduous conifer. Pollen is shed in March and April. Female conelets are found singly or in clusters of two or three. The globose cones turn from green to brownish-purple as they mature from October to December. The cones are 13 to 36 mm (0.51 to 1.42 in) in diameter and consist of 9 to 15 four-sided scales that break away irregularly after maturity. Each scale can bear two (rarely three) irregular, triangular seeds with thick, horny, warty coats and projecting flanges.      The number of seeds per cone averages 16 and ranges from 2 to 34. Cleaned seeds number from about 5,600 to 18,430 per kg (2,540 to 8,360 per lb).    
Some seeds are produced every year, and good seed crops occur at three- to five-year intervals.  At maturity, the cone scales with their resin-coated seeds adhering to them, or sometimes entire cones, drop to the water or ground.  This drop of mature seeds is often hastened by squirrels, which eat bald cypress seeds, but usually drop several scales with undamaged seeds still attached to each cone they pick.  Floodwaters spread the scales or cones along streams and are the most important means of seed dissemination. 
Germination is epigeal.  Under swamp conditions, germination generally takes place on a sphagnum moss or a wet-muck seedbed. Seeds will not germinate under water, but some will remain viable for 30 months under water. By contrast, seeds usually fail to germinate on better drained soils because of the lack of surface water. Thus, a soil saturated but not flooded for a period of one to three months after seedfall is required for germination. 
After germination, seedlings must grow fast enough to keep at least part of their crowns above floodwaters for most of the growing season.    Bald cypress seedlings can endure partial shading, but require overhead light for good growth.  Seedlings in swamps often reach heights of 20 to 75 cm (8 to 29.5 in) their first year.  Growth is checked when a seedling is completely submerged by flooding, and prolonged submergence kills the seedling. 
In nurseries, Taxodium seeds show an apparent internal dormancy that can be overcome by various treatments, usually including cold stratification or submerging in water for 60 days. Nursery beds are sown in spring with pretreated seeds or in fall with untreated seeds. Seedlings usually reach 75 to 100 cm (29.5 to 39.5 in) in height during their first (and usually only) year in the nursery. Average size of 1-0 nursery-grown seedlings in a seed source test including 72 families was 81.4 cm (32.0 in) tall and 1.1 cm (0.43 in) in diameter.[ citation needed]
Control of competing vegetation may be necessary for a year or more for bald cypress planted outside of swamps. Five years after planting on a harrowed and bedded, poorly drained site in Florida, survival was high, but heights had increased only 30 cm (12 in), probably because of heavy herbaceous competition. Seedlings grown in a crawfish pond in Louisiana, where weed control and soil moisture were excellent through June, averaged 2.9 m (9.5 ft) and 3.5 cm (1.4 in) diameter at breast heigh after five years. However, a replicate of the same sources planted in an old soybean field, where weed control and soil moisture were poor, resulted in the same diameter, but a smaller average seedling height of 2.1 m (6.9 ft). When planted in a residential yard and weeded and watered, they averaged 3.7 m (12 ft) tall three years later.
Bald cypress is one of the few conifer species that sprouts. Thrifty sprouts are generally produced from stumps of young trees, but trees up to 60 years old also send up healthy sprouts if the trees are cut during the fall or winter. However, survival of these sprouts is often poor, and those that live are usually poorly shaped and do not make quality sawtimber trees. Stumps of trees up to 200 years old may also sprout, but the sprouts are not as vigorous and are more subject to wind damage as the stump decays. In the only report on the rooting of bald cypress cuttings found in the literature, cuttings from trees five years old rooted better than those from older trees.[ citation needed]
The seeds remain viable for less than one year, and are dispersed in two ways. One is by water: the seeds float and move on water until flooding recedes or the cone is deposited on shore. The second is by wildlife: squirrels eat seeds, but often drop some scales from the cones they harvest. Seeds do not germinate under water and rarely germinate on well-drained soils; seedlings normally become established on continuously saturated, but not flooded, soils for one to three months. After germination, seedlings must grow quickly to escape floodwaters; they often reach a height of 20–75 cm (up to 100 cm in fertilized nursery conditions) in their first year. Seedlings die if inundated for more than about two to four weeks. Natural regeneration is therefore prevented on sites that are always flooded during the growing season. Although vigorous saplings and stump sprouts can produce viable seed, most specimens do not produce seed until they are about 30 years old. In good conditions, bald cypress grows fairly fast when young, then more slowly with age. Trees have been measured to reach 3 m in five years, 21 m in 41 years, and 36 m in height in 96 years; height growth has largely ceased by the time the trees are 200 years old. Some individuals can live over 1,000 years. Determination of the age of an old tree may be difficult because of frequent missing or false rings of stemwood caused by variable and stressful growing environments.
Bald cypress trees growing in swamps have a peculiarity of growth called cypress knees. These are woody projections from the root system project above the ground or water. Their function was once thought to be to provide oxygen to the roots, which grow in the low dissolved oxygen waters typical of a swamp (as in mangroves). However, evidence for this is scant; in fact, roots of swamp-dwelling specimens whose knees are removed do not decrease in oxygen content and the trees continue to thrive. Another more likely function is structural support and stabilization. Bald cypress trees growing on flood-prone sites tend to form buttressed bases, but trees grown on drier sites may lack this feature. Buttressed bases and a strong, intertwined root system allow them to resist very strong winds; even hurricanes rarely overturn them. 
Many agents damage T. distichum trees. The main damaging (in some cases lethal) agent is the fungus Lauriliella taxodii , which causes a brown pocket rot known as "pecky cypress." It attacks the heartwood of living trees, usually from the crown down to the roots. A few other fungi attack the sapwood and the heartwood of the tree, but they do not usually cause serious damage. Insects such as the cypress flea beetle ( Systena marginalis) and the bald cypress leafroller ( Archips goyerana) can seriously damage trees by destroying leaves, cones or bark. Nutrias also clip and unroot young bald cypress seedlings, sometimes killing a whole plantation in a short amount of time. 
The bald cypress is hardy and can be planted in hardiness zones 4 through 10 in the US.  The species is a popular ornamental tree that is cultivated for its light, feathery foliage and orangey brown to dull red autumnal color. In cultivation it thrives on a wide range of soils, including well-drained sites where it would not grow naturally because juvenile seedlings cannot compete with other vegetation. Cultivation is successful far north of its native range, even to southern Canada. It is also commonly planted in Europe, Asia, and other temperate and subtropical locales. It does, however, require hot summers for good growth. When planted in locales with the cool summers of oceanic climates, growth is healthy but very slow; some specimens in northeastern England have only grown to 4–5 m tall in 50 years  and do not produce cones. One of the oldest specimens in Europe was planted in the 1900s in the Arboretum de Pézanin in Burgundy, France.
Bald cypress has great merchantable yields. In virgin stands, yields from 112–196 m³/ha were common, and some stands may have exceeded 1,000 m³/ha. The lumber is valuable for building construction, fence posts, planking in boats, river pilings, doors, blinds, flooring, shingles, garden boxes, caskets, interior trim and cabinetry.  The odorless wood, which closely resembles that of other Cupressus species, has long been valued for its resistance to water. Still usable prehistoric wood is often found in swamps as far north as New Jersey, and occasionally as far north as Connecticut, although it is more common in the southeastern states. This partially mineralized wood is harvested from swamps in the southeastern states, and is greatly prized for special uses such as for carvings. The fungus Lauriliella taxodii  causes a specific form of the wood called "pecky cypress", which is used for decorative wall paneling.
The bald cypress was used by Native Americans to create coffins, homes, drums and canoes. Joshua D. Brown, the first settler of Kerrville, Texas, made his living producing shingles from bald cypress trees that grew along the Guadalupe River of the Texas Hill Country.  Beginning in the early 1990s, the bald cypress was harvested heavily to make paneling, mulch and shingles. 
- Farjon, A. (2013). "Taxodium distichum". IUCN Red List of Threatened Species. IUCN. 2013: e.T42261A2967873. doi: 10.2305/IUCN.UK.2013-1.RLTS.T42261A2967873.en.
- "Taxodium distichum". Natural Resources Conservation Service PLANTS Database. USDA. Retrieved 8 December 2015.
- Farjon, A. (2005). Monograph of Cupressaceae and Sciadopitys. Royal Botanic Gardens, Kew. ISBN 1-84246-068-4
- Watson, Frank D. (1993). "Taxodium distichum". In Flora of North America Editorial Committee (ed.). Flora of North America North of Mexico (FNA). 2. New York and Oxford – via eFloras.org, Missouri Botanical Garden, St. Louis, MO & Harvard University Herbaria, Cambridge, MA.
- Earle, Christopher J., ed. (2018). "Taxodium distichum subsp. distichum". The Gymnosperm Database.
- Wilhite, L. P.; Toliver, J. R. (1990). "Taxodium distichum". In Burns, Russell M.; Honkala, Barbara H. (eds.). Conifers. Silvics of North America. Washington, D.C.: United States Forest Service (USFS), United States Department of Agriculture (USDA). 1 – via Southern Research Station (www.srs.fs.fed.us).
- "Bald-cypress | The Morton Arboretum". www.mortonarb.org. Retrieved 14 January 2019.
- "Baldcypress Tree on the Tree Guide at arborday.org". www.arborday.org. Retrieved 15 January 2019.
- Koeser, Andrew K.; Friedman, Melissa H.; Hasing, Gitta; Franck, Alan R.; Finley, Holly; Schelb, Julie (2017). Trees : South Florida and the Keys. Koeser, Andrew K.,, Friedman, Melissa H.,, Hasing, Gitta,, Franck, Alan R.,, Finley, Holly,, Schelb, Julie. Gainesville, FL. pp. 296–7. ISBN 9781683400158. OCLC 962233681.
- "Bald Cypress". National Wildlife Federation. Retrieved 21 January 2019.
- "Baldcypress Tree on the Tree Guide at arborday.org". www.arborday.org. Retrieved 15 January 2019.
- "Taxodium distichum (L". www.srs.fs.usda.gov. Retrieved 15 January 2019. This article incorporates public domain material from websites or documents of the United States Department of Agriculture.
- Stahle, D. W.; Edmondson, J. R.; Howard, I. M.; Robbins, C. R.; Griffin, R. D.; Carl, A.; Hall, C. B.; Stahle, D. K.; Torbenson, M C A. (2019). "Longevity, climate sensitivity, and conservation status of wetland trees at Black River, North Carolina". Environmental Research Communications. 1 (4): 041002. doi: 10.1088/2515-7620/ab0c4a.
- "Taxodium distichum". Natural Resources Conservation Service PLANTS Database. USDA.
- "Taxodium ascendens". Natural Resources Conservation Service PLANTS Database. USDA.
- Watson, Frank D. (1993). "Taxodium". In Flora of North America Editorial Committee (ed.). Flora of North America North of Mexico (FNA). 2. New York and Oxford – via eFloras.org, Missouri Botanical Garden, St. Louis, MO & Harvard University Herbaria, Cambridge, MA.
- Paul Ferguson (2008). "Searching for Methuselah" (PDF). Pocosin Press. pp. 1–3. Retrieved 21 April 2011.
- "Primeval Underwater Forest Discovered in Gulf of Mexico". Live Science. Retrieved 15 January 2019.
- Faulkner, Stephen P. 1982. Genetic variation of cones, seed and nursery-grown seedlings of baldcypress [Taxodium distichum (L.) Rich.] provenances. M.S. Thesis, Louisiana State University, Baton Rouge. 71 p.
- Radford, Albert E., Harry E. Ahles, and C. Ritchie Bell. 1968. Manual of the vascular flora of the Carolinas. University of North Carolina Press, Chapel Hill. 1183 p.
- U.S. Department of Agriculture, Forest Service. 1965. Silvics of forest trees of the United States. H. A. Fowells, comp. U.S. Department of Agriculture, Agriculture Handbook 271. Washington, DC. 762 p.
- U.S. Department of Agriculture, Forest Service. 1974. Seeds of woody plants in the United States. C. S. Schopmeyer, tech. coord. U.S. Department of Agriculture, Agriculture Handbook 450. Washington, DC. 883 p.
- Stubbs, Jack. 1983. Personal communication. USDA Forest Service, Southeastern Forest Experiment Station, Clemson, SC.
- Brunswig, Norman L. 1983. Personal communication. National Audubon Society, Francis Beidler Forest, Harleyville, SC.
- Conner, William H, 1988, Natural and artificial regeneration of baldcypress [Taxodium distichum (L.) Rich.] in the Barataria and Lake Verret basins of Louisiana. Ph.D. Dissertation, Louisiana State University, Baton Rouge. 148 p.
- Conner, William H., and John R. Toliver. 1987. Vexar seedling protectors did not reduce nutria damage to planted baldcypress seedlings. USDA Forest Service, Tree Planter's Notes 38(3):26-29.
- Conner, William H., John R. Toliver, and Fred H. Sklar. 1986. Natural regeneration of baldcypress [Taxodium distichum (L.) Rich.] in a Louisiana swamp. Forest Ecology and Management 14:305-317.
- Williston, H. L., F. W. Shropshire, and W. E. Balmer. 1980. Cypress management: a forgotten opportunity. USDA Forest Service, Southeastern Area State and Private Forestry, Forestry Report SA-FR-8. Atlanta, GA. 8 p.
- Bull, H. 1949. Cypress planting in southern Louisiana. Southern Lumberman 179(2249):227-230.
- "Species Fungorum - Species synonymy". www.speciesfungorum.org. Retrieved 21 January 2019.
- "Baldcypress Tree on the Tree Guide at arborday.org". www.arborday.org. Retrieved 15 January 2019.
- Tree Register of the British Isles
- "BALD CYPRESS Taxodium distichum (L.) L.C. Rich" (PDF). plants.usda.gov. Retrieved 14 January 2019. This article incorporates public domain material from websites or documents of the United States Department of Agriculture.
- Calhoun, Milburn; Frois, Jeanne (31 May 2006). Louisiana Almanac, 2006-2007 (17th ed.). Pelican Publishing. p. 431. ISBN 978-1-58980-307-7.
- Texas Historical Commission, historical marker in Kerrville, Texas, 1971.
|Wikimedia Commons has media related to
|Wikispecies has information related to Taxodium distichum|
- The Ancient Bald Cypress Consortium
- Images of bald cypress trees and swamps
- Interactive Distribution Map for Taxodium distichum
- Photos of remarkable bald cypress trees worldwide
- Taxodium distichum - information, genetic conservation units and related resources. European Forest Genetic Resources Programme (EUFORGEN)