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serotiny : ウィキペディア英語版
serotiny

Serotiny is an ecological adaptation exhibited by some seed plants, in which seed release occurs in response to an environmental trigger, rather than spontaneously at seed maturation. The most common and best studied trigger is fire, and although ''serotiny'' is often used to refer to this specific case, this is an overgeneralization. Generally, ''serotiny'' refers to plants that release their seed over a long period of time, irrespective of whether release is spontaneous. In this sense, the term is synonymous with bradyspory.
Possible triggers include
* Death of the parent plant or branch (this form of serotiny has been technically termed necriscence)
* Wetting (hygriscence)
* Warming by the sun (soliscence)
* Drying atmospheric conditions (xeriscence)
* Fire (pyriscence)
* Fire followed by wetting (pyrohydriscence)
Fire is the most common and best studied case, and the term ''serotiny'' is often used where ''pyriscence'' is intended. Some plants may respond to more than one of these triggers. For example ''Pinus halepensis'' exhibits primarily fire-mediated serotiny, but responds weakly to drying atmospheric conditions. Similarly, some ''Banksia'' species are strongly serotinous with respect to fire, but also release some seed in response to plant or branch death.
Serotiny can occur in various degrees. Plants that retain all of their seed indefinitely in the absence of a trigger event are termed strongly serotinous. Plants that eventually release some of their seed spontaneously in the absence of a trigger are termed weakly serotinous. Finally, some plants release all of their seed spontaneously after a period of seed storage, but the occurrence of a trigger event curtails the seed storage period, causing all seed to be released immediately; such plants are essentially non-serotinous, but may be termed facultatively serotinous.
==Fire-mediated serotiny==
In the southern hemisphere, fire-mediated serotiny is found in angiosperms in fire-prone parts of Australia and South Africa. It is extremely common in the Proteaceae of these areas, and also occurs in other taxa, such as ''Eucalyptus'' (Myrtaceae) and even ''Erica'' (Ericaceae). In the northern hemisphere, it is found in a range of conifer taxa, including species of ''Pinus'', ''Cupressus'', ''Picea'' and ''Sequoiadendron''.
Since even non-serotinous cones and woody fruits can provide protection from the heat of fire, the key adaptation of fire-induced serotiny is seed storage in a canopy seed bank, which can be released by fire. The fire-release mechanism is commonly a resin that seals the fruit or cone scales shut, but which melts when heated. This mechanism is refined in some ''Banksia'' by the presence inside the follicle of a winged seed separator which blocks the opening, preventing the seed from falling out. Thus the follicles open after fire, but seed release does not occur. As the cone dries, wetting by rain or humidity causes the cone scales to expand and reflex, promoting seed release. The seed separator thus acts as a lever against the seeds, gradually prying them out of the follicle over the course of one or more wet-dry cycles. The effect of this adaptation is to ensure that seed release occurs not in response to fire, but in response to the onset of rains following fire. Flammability is also related to serotinous species such as Gamba Grass.
The relative importance of serotiny can vary among populations of the same plant species. For example, North American populations of lodgepole pine (Pinus contorta) can vary from being highly serotinous to having no serotiny at all, opening annually to release seed.〔Muir, P. S. and J. E. Lotan. 1985. Disturbance history and serotiny of Pinus contorta in western Montana. Ecology 66:1658-1668.〕 Different levels of cone serotiny have been linked to variations in the local fire regime: areas that experience more frequent crown-fire tend to have high rates of serotiny, while areas with infrequent crown-fire have low levels of serotiny.〔〔Schoennagel, T., M. G. Turner, and W. H. Romme. 2003. The influence of fire interval and serotiny on postfire lodgepole pine density in Yellowstone National Park. Ecology 84:2967-2978.〕
Pyriscence can be understood as an adaptation to an environment in which fires are regular, and in which post-fire environments offer the best germination and seedling survival rates. In Australia, for example, fire-mediated serotiny occurs in areas that are not only prone to regular fires, but also possess oligotrophic soils and a seasonally dry climate. This results in intense competition for nutrients and moisture, leading to very low seedling survival rates. The passage of fire, however, reduces competition by clearing out undergrowth, and results in an ash bed that temporarily increases soil nutrition; thus the survival rates of post-fire seedlings is greatly increased. Furthermore, releasing a large number of seeds at once, rather than gradually, increases the possibility that some of those seeds will escape predation. Similar pressures apply in Northern Hemisphere conifer forests, but in this case there is the further issue of allelopathic leaf litter, which suppresses seed germination. Fire clears out this litter, eliminating this obstacle to germination.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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