Black Willow
Salix nigra
Salix nigra does the best in areas of high moisture content such as swamps, river banks and drainage ditches…. Basically anywhere there is adequate lighting, water, and the area is low or just below water level. It is a fast growing and short living tree that has a vast range throughout North America.
It is the most used and only real commercially used species of willow because of its strength, and shock resistance and also the fact that it doesn’t splinter with ease. It’s mostly used for boxes and crates as well as wood turning and table tops, wooden carvings etc. it’s very good at soil stabilization so many projects that need erosion control seem to favor this species of tree. It was also the very useful for treating minor aches and pains because of it having salicin which is the basic ingredient of aspirin but now the salicyclic acid is synthesized instead of being taken from the trees themselves.
Black willow is a dioecious. Male and female are indistinguishable with the only exceptions being during flowering times and during the seed developmental process. The beginning of the flowering season begins in February in the south range and goes through the end of June in the north. The flowers do contain nectar meaning that the majority of the pollination process is done by insects.
Pollen can also be carried by the wind. Sees are small light brown and capsule looking in nature, and begin to break open and release seedlings that have little hairs covering them. Another way of reproduction is through cutting post size stocks and placed in adequate moisture with very little effort, plant survival will be near 100 %.
In addition to all of the uses for this species, we are now studying the ways in which willow has the ability to take heavy metals out of the soil. It is starting to be used in remediation and the endophytes that are living within the trees tissues are showing to have the capacity to enhance the trees groth and resistance to biotic and abiotic stress by things such as nitrogen fixation and the production of phytohormones. . Mercury and selenium can also be converted by plants into a volatile form to release and dilute into the atmosphere.
“Heavy metals cannot be metabolized, therefore the only possible strategy to apply is their extraction from contaminated soil and transfer to the smaller volume of harvestable plants for their disposal biomass can also be used in producing energy and, if economically profitable, metals can be eventually recovered”
References
1. Eyre, F. H., ed. 1980. Forest cover types of the United States and Canada. Society of American Foresters, Washington, DC. 148 p.
2. Johnson, R. L., and J. S. McKnight. 1969. Benefits from thinning black willow. USDA Forest Service, Research Note SO-89. Southern Forest Experiment Station, New Orleans, LA. 6 p.
3. Little, Elbert L., Jr. 1979. Checklist of United States trees (native and naturalized). U.S. Department of Agriculture, Agriculture Handbook 541. Washington, DC. 375 p.
4. McKnight, J. S. 1965. Black willow (Salix nigra Marsh.). In Silvics of forest trees of the United States. p. 650-652. H. A. Fowells, comp. U.S. Department of Agriculture, Agriculture Handbook 271. Washington, DC.
5. McLeod, K. W., and J. K. McPherson. 1972. Factors limiting the distribution of Salix nigra. Bulletin of the Torrey Botanical Club 100(2):102-110.
6. Randall, W. K. 1971. Willow clones differ in susceptibility to cottonwood leaf beetle. In Proceedings, Eleventh Southern Forest Tree Improvement Conference. Southern Forest Tree Improvement Committee Sponsored Publication 33. p. 108-111. Eastern Tree Seed Laboratory, Macon, GA. 7. Sakai, A., and C. J. Wiser. 1973. Freezing resistance of trees in North America with reference to tree regions. Ecology 54(l):118-126. 8. Taylor, F. W. 1975. Wood property differences between two stands of sycamore and black willow. Wood and Fiber 7(3):187-191. 9. Vines, Robert A. 1960. Trees, shrubs and woody vines of the Southwest. University of Texas Press Austin 1104 p.
10. Article homeguides.sfgate.com/willow-tree-fungus 11. http://www.sisef.it/iforest/contents/?id=ifor0555-004