60 ISLENZKAR LANDBÚNAÐARRANNSÓKNIR (1950) and Spetzman (1959) noted a direct loss of reproductive primordia because of preferential grazing by deer, sheep and caribou in northern latitudes. Indirect supression of sexual reproduction may also occur as a result of grazing which lowers plant vigor and causes a depletion of stored energy and nutrient reserves (Archer and Tieszen 1982). Inthis regardTiKHOMiROV (1959) and Smirnov and Tokamakova (1971, 1972) observed that lemming graz- ing suppressed flowering in several arctic graminoids. In northern environments where sexual reproduction is already severely limited by abiotic factors, such grazing induced losses either direct or indirect, may be of some significance. From a plant community standpoint, excessive early spring grazing may also confer a competitive advantage upon less desirable species. Species escaping early spring grazing will gain an advantage over species subjected to grazing since the former can maintain shoot and root growth (Mueggler 1972, 1975; Archer and Detling 1982). This early spring competi- tive advantage may then carry over throughout the growing season resulting in a decrease in the relative productivity of desirable forage species. If the desirable species are kept at a competitive disadvan- tage long enough, plant community com- position will eventually be altered in favor of the less desirable species. The recovery of plants from setbacks induced by grazing may be quite slow, especially in northern latitudes where growing seasons are short and cool, soils are young and poorlý developed, and nutrient availability is limited. Menke and Trlica (1983) observed that abusively defoliated shrubs required more than one year of rest and Cook and Child (1971) found that desert plants required more than seven years of nonuse for recovery of vigor when defoli- ated to the extent that vigor was mod- erately reduced. Archer and Tieszen (1982) working in the Alaskan arctic and Trlica et al. (1977) working in the shortgrass steppe observed that heavily grazed graminoid tillers required two or more years of rest to attain carbohydrate and biomass levels in storage organs comparable to those of undefoliated plants. Finally, it should be pointed out, that changes in the carbohydrate status of various storage organs are not necessarily a direct function of time of season in arctic or Alpine plants. Haloway and Ward (1965) noted that in Colorado’s alpine areas the date of initiation of various phenological stages varied considerably from site to site, and from year to year at a given site. Thus, phenological stage is likely a better indi- cator ofrange readiness than is date ( West and Gasto 1978). Few specific details are available regar- ding the seasonal trends in shoot and root growth and carbohydrate levels in impor- tant Icelandic range plants. Even less is known about how grazing at various times of the growing season affects these trends and how long it takes a plant to recover from grazing at various frequencies and intensities at various times in the growing season. At this point, we can only speculate using the results of studies conducted in other parts of the world. F uture research on Icelandic rangelands would do well to address these questions directly if retrog- ression of Icelandic rangelands (Thor- steinsson et. al. 1971; Mitchell 1979) isto be arrested.

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