How common is fire in different regions?

In most tropical alpine areas fire is a common natural phenomenon. In addition, large areas, especially in the Andes, experience regular burning by local farmers to stimulate forage regrowth for cattle.

At higher latitudes, fires normally start in the zone of closed forests and may sweep upslope into krummholz or heath communities. Fire in the alpine zone is a rare phenomenon and the frequency of fires decreases with altitude. This may be for different reasons including decreasing temperature, increasing precipitation and increasing period of snow cover.

When does fire normally occur?

Sufficient fuel is necessary for vegetation to burn. In the first few years after a fire, lack of fuel prevents another fire.
Fires in subalpine forests occur mostly during extreme weather conditions, i.e. drought aggravated by strong winds. The spread of a fire may also be influenced more by wind velocity and direction than by differences in the amount of fuel.

Fires create a heterogeneous mosaic of burn severity across the landscape. If the fuel is composed predominantly of grasses, there will be a light ground fire which may spread rapidly but not last for long. Woody plants may not catch fire so easily, but may produce a hotter fire when they do burn.
In less intense fires in subalpine forests as well as in tropical alpine areas with giant rosette plants, mortality is negatively correlated to plant height. Because of slow plant growth in the alpine zone, repeated fires may greatly postpone or even prevent regeneration of burned populations of dwarf shrubs or krummholz.

The effects of fire may persist for a very long time, especially at higher altitudes. Even decades after a fire, burned areas may be distinct from unburned ones in vegetation composition, percentage of bare ground and in soil conditions. Due to slow recovery in the alpine environment, fire can have a substantial impact on soil erosion.

Tolerance of fire varies significantly between species. Areas which normally do not experience any fire may be dominated by species which are not able to survive a fire or disperse into burned areas. Even a single burn may lead to the local extinction of species under these circumstances.

Repeated fires favour fire-tolerant species. Various ecological features may help plants to persist in areas which are regularly burnt. These include protective bark and buds, regrowth from belowground organs and rapid establishment from viable seeds.

There are three different plant species in the model community - a grass, a slowly regenerating shrub and a fast regenerating shrub.

You can vary the initial proportions of shrubs to grasses by using the slider and then clicking on the reset button. By pressing the forward button you let the semi-arid vegetation develop from year x to year x+1.
The occurrence and intensity of fires in the system are dependent on the ignition frequency and on the vegetation. You can adjust the ignition frequency in the range from 'never' to every other year (on a random or regular basis). You can see that there was an ignition event by flames showing up between the sliders. Yet, fires will occur only if there is sufficient fuel in the community.

How does the vegetation develop without fire events?

How does fire change the community development?

What is the influence of the vegetation (composition) on the occurrence and intensity of fires?

Solutions and Rules

29 August 2011
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