Clonal colony
A clonal colony or genet is a group of genetically identical individuals, such as plants, fungi, or bacteria, that have grown in a given location, all originating vegetatively, not sexually, from a single ancestor. In plants, an individual in such a population is referred to as a ramet. In fungi, "individuals" typically refers to the visible fruiting bodies or mushrooms that develop from a common mycelium which, although spread over a large area, is otherwise hidden in the soil. Clonal colonies are common in many plant species. Although many plants reproduce sexually through the production of seed, reproduction occurs by underground stolons or rhizomes in some plants. Above ground, these plants appear to be distinct individuals, but underground they remain interconnected and are all clones of the same plant. However, it is not always easy to recognize a clonal colony especially if it spreads underground and is also sexually reproducing.
Methods of establishment
- With most woody plants, clonal colonies arise by wide-ranging roots that at intervals send up new shoots, termed suckers.
- Trees and shrubs with branches that touch the ground can form colonies via layering, e. g. willow and blackberry.
- Some vines naturally form adventitious roots on their stems that take root in the soil when the stems contact the ground, e.g. ivy and trumpet vine.
- With other vines, rooting of the stem where nodes come into contact with soil may establish a clonal colony, e.g. Wisteria.
- Ferns and many herbaceous flowering plants often form clonal colonies via horizontal underground stems termed rhizomes, e.g. ostrich fern Matteuccia struthiopteris and goldenrod.
- A number of herbaceous flowering plants form clonal colonies via horizontal surface stems termed stolons, or runners; e.g. strawberry and many grasses.
- Non-woody plants with underground storage organs such as bulbs and corms can also form colonies, e.g. Narcissus and Crocus.
- A few plant species can form colonies via adventitious plantlets that form on leaves, e.g. Kalanchoe daigremontiana and Tolmiea menziesii.
- A few plant species can form colonies via asexual seeds, termed apomixis, e.g. dandelion.
Record colonies
A group of 47,000 Quaking Aspen (Populus tremuloides) trees (nicknamed "Pando") in the Wasatch Mountains, Utah, USA, has been shown to be a single clone connected by the root system. It is sometimes considered the world's largest organism by mass, covering 106 acres (43 ha). It is possible that other unknown clonal colonies of trees rival or exceed its size.
The only known plant of King's Lomatia (Lomatia tasmanica) in Tasmania is a clonal colony estimated to be 43,600 years old.[1] Another possible candidate for oldest organism on earth is a stand of the marine plant Posidonia oceanica in the Mediterranean Sea, which could be up to 100,000 years of age.[2]
Examples
When woody plants form clonal colonies, they often remain connected through the root system, sharing roots, water and mineral nutrients. A few non-vining, woody plants that form clonal colonies are:
- Bayberry, Myrica pensylvanica
- Black locust, Robinia pseudoacacia
- Bladdernut, Staphylea species
- Blueberry, Vaccinium species
- Devil's Club Oplopanax horridus
- Forsythia, Forsythia species
- Hazelnut, Corylus species
- Honey locust, Gleditsia triacanthos
- Kentucky coffeetree, Gymnocladus dioicus
- Kerria, Kerria japonica
- Pawpaw, Asimina triloba
- Pando tree, a clonal colony of a single male Populus tremuloides, all determined to be part of a single living organism
- Poplars, Populus species
- Sassafras, Sassafras albidum
- Sumac, Rhus species
- Sweetgum, Liquidambar styraciflua
- Sweetshrub, Calycanthus floridus
References
- ↑ "Tasmanian bush could be oldest living organism". Discovery Channel. Retrieved 2008-05-07.
- ↑ "Ibiza's Monster Marine Plant". Ibiza Spotlight. Retrieved 2008-05-07.
Further reading
- Cook, R. E. (1983). "Clonal plant populations". American Scientist 71: 244–253.
- Kricher, J. C., & Morrison, G. (1988). A Field Guide to Eastern Forests, pp. 19-20. Peterson Field Guide Series. ISBN 0-395-35346-7.