Aspen
Aspen is a common name for certain tree species in the Populus sect. Populus, of the Populus genus.
Aspens were referred to as "asps" in earlier forms of English.
Species
These species are called aspens:- Populus adenopoda – Chinese aspen
- Populus davidiana – Korean aspen
- Populus grandidentata – Bigtooth aspen
- Populus sieboldii – Japanese aspen
- Populus tremula – Eurasian aspen
- Populus tremuloides – Quaking aspen or trembling aspen
Habitat and longevity
Aspens typically grow in environments that are otherwise dominated by coniferous tree species, and which are often lacking other large deciduous tree species. Aspens have evolved several adaptations that aid their survival in such environments. One is the flattened leaf petiole, which reduces aerodynamic drag during high winds and decreases the likelihood of trunk or branch damage. Dropping leaves in the winter also helps to prevent damage from heavy winter snow. Additionally, the bark is photosynthetic, meaning that growth is still possible after the leaves have been dropped. The bark also contains lenticels that serve as pores for gas exchange, in which their respiratory function resembles that of the stomata on leaves.
Aspens are also aided by the rhizomatic nature of their root systems. Most aspens grow in large clonal colonies, derived from a single seedling, and spread by means of root suckers; new stems in the colony may appear at up to from the parent tree. Each individual tree can live for 40–150 years above ground, but the root system of the colony is long-lived. In some cases, this is for thousands of years, sending up new trunks as the older trunks die off above ground. For this reason, it is considered to be an indicator of ancient woodlands. One such colony in Utah, given the nickname of "Pando", has been estimated as being 80,000 years of age; if validated, this would likely make it the oldest living colony of aspens. Some aspen colonies become very large with time, spreading about per year, eventually covering many hectares. They are able to survive forest fires, because the roots are below the heat of the fire, and new sprouts appear after the fire burns out. The high stem turnover rate combined with the clonal growth leads to proliferation in aspen colonies. The high stem turnover regime supports a diverse herbaceous understory.
Aspen seedlings do not thrive in the shade, and it is difficult for seedlings to establish in an already mature aspen stand. Fire indirectly benefits aspen trees, since it allows the saplings to flourish in open sunlight in the burned landscape, devoid of other competing tree species. Aspens have increased in popularity as a forestry cultivation species, mostly because of their fast growth rate and ability to regenerate from sprouts. This lowers the cost of reforestation after harvesting since no planting or sowing is required.
Aspen populations have been declining in some areas; this "sudden aspen death" has been attributed to factors as diverse as climate change exacerbating drought and modifying precipitation patterns; recruitment failure from herbivory or grazing preventing new trees from coming up after old trees die; and to successional replacement by conifers due to fire suppression altering forest diversity and creating conditions where aspen may be at less of an advantage.
In contrast with many trees, aspen bark is base-rich, meaning aspens are important hosts for bryophytes and act as food plants for the larvae of butterfly species.
Young aspen bark is an important seasonal forage for the European hare and other animals in early spring. Aspen is also a preferred food of the European beaver. Elk, deer, and moose not only eat the leaves but also strip the bark with their front teeth.