Volume 7, Number 7 fie “ i 2% The Student Voice of University of Prince Edward Island Thursday, September __, 1989 cA NCIENT FORESTS A VANIS HING By Brian Egan The Essence, March 23, 1989 The temperate rainforests of the Pacific coast of North America, stretching from northern Cal- ifornia to the southeast of Alaska, are unique among temperate rainforests of the world. The climate, topography, geology and other environ- mental factors specific to this region have shaped a tremendously diverse and complex forest ecosys- tem. These forests, in their pristene state, are un- rivaled for their size, longevity and accumulated biomass. Overwhelmingly dominated by conifers they were ready established in the area some 1.5 million years ago. Since the last major period of glaciation, some ten thousand years ago, temper- ate rainforests have dominated the Pacific coast of North America. Today however, these great temperate rainforests are undergoing rapid and profound changes. Less than 150 years of industrial log- ging has left this once unbroken primeval forest splintered and fragmented. In Washing- ton and Oregon perhaps as little as 10 percent of the ancient forest remains. In B.C., at present rates of cutting, all of the accessible coastal old-growth, not presently protected in parks will be gone in less than 20 years. As logging continues unabated and _ the remaining tracts of pristine forest shrink, we are seeing increasing conflict among various ‘user groups’, government agencies and an awakening public over the future of these forests. At the root of these conflicts is a con- cern about the conversion of old-growth forests to intensively managed tree plantations. To industrial foresters the conversion of ‘decadent’ old-growth forests to managed plantations of fast growing trees. to be harvested and replanted every 75 years, is logical and neces- Sary. Others view this conversion with dismay, mistrust and sorrow. Old-growth forests are made up of trees of a-variety of species and age classes. The uneven aged nature of these stands allows for a greater diversity of plant and animal species. Understory herbs and shrubs, of great impor- lance to many wildlife species, can grow throughout these uneven aged forests. Uneven aged stands are only possible in forests which have been undisturbed for hundreds of years. As old trees die and fall over they are replaced by younger individuals growing beneath the canopy. Photo - Dead and dying trees are very important in old-growth systems, increasing systems produc- tivity and diversity. Standing dead trees (snags) create openings in the canopy, allowing sunlight to penetrate into the forest and stimulate understory growth. -Snags are also an important source of habitat for insect and bird species. Some species, such as the northern spotted owl appear to be so dependant on snags that their very survival as a species is threatened by the absence of such stand- ing dead trees. Fallen trees also play an important role in old—growth systems. Besides the spotted owl a wide range of other animals have been Garth Lenz, HERITAGE identified as requiring or preferring old-growth habitat for at least some part of their life cycle. These include, the California red-backed vole, the marten, the pileated woodpecker, Roosevelt elk and black tailed deer. For Roosevelt elk and black tailed deer, old-growth forests pro- vide cover and fodder under extreme winter conditions. The red tree vole of western Ore- gon and northern California is the most arbo- real mammal in North America, spending its entire life in the canopy of mature Douglas fir forests. Just as animals ure dependent on forest * vegetation, so vegetation is also dependent on forest animals. In The Redesigned Forest * forestry consultant Chris Maser describes how mammalian mycophagists (literally ‘fungus eaters’) play a role in maintaining the health and productivity of forests by providing a vital link between forest trees and mycorrhizal fungi. Mycorrhizae are symbiotic, root inhabiting fungi which play an important role in plant ® growth. They grow in and around plant roots and transfer essential minerals and moisture from the soil to the plant. The plants in turn, supply the fungi with carbohydrate-rich pho- f tosynthate. This symbiotic relationship is important in most higher plants - in many cases neither the fungi nor the plant can suc- cessfully complete their life cycle without the » Other. Recent research in coastal old-growth forests has shown that as many as several hun- dred different mycorrhizal species may be asso- ciated with one individual tree. Many of these mycorrhizae produce fruiting bodies below ground (truffles}. ‘hese species are dependent on animals for the dispersal of their reproduc, live spores. There are a number of smal].mam- imals who depend to some extent on these truffles as a food source. The California red- backed vole, for example, spends most of its lime in burrows under the forest floor and obtains about 90 percent of its diet from truffles. As these animals consume truffles the mycorrhizae reproductive spores pass intact through their digestive system and _— are excreted. As the mycophagists move about over or under the forest floor and defecate. the mycorrhizae spores are spread throughout the soil and innoculate tree roots with different mycorrhizae species. é page 8.