Impact of snow cover on photoinhibition and winter dessication in evergreen Rhododendron ferrugineum leaves during subalpine winter

Effects of winter snow cover on photoinhibition and possible interactions with winter desiccation were investigated in situ in an evergreen subalpine woody species, Rhododendron ferrugineum L., at the alpine timberline (1950 m a.s.l.). Timing and duration of complete snow cover markedly influenced potential efficiency of photosystem II (PSII; F(v) /F(m)). Lack of snow cover led to severe but mostly reversible photoinhibition with F(v)/F(m) values as low as 0.05. Complete snow cover immediately stopped further reductions in PSII efficiency. Snow cover promoted recovery from photoinhibition, but only if, in addition to shading by snow, plants were exposed to nonfreezing temperatures close to 0 degrees C. The F(v)/F(m) ratio was closely related to minimum leaf temperatures because both photoinhibition and recovery from photoinhibition were strongly influenced by temperature. The period without major reductions in PSII efficiency lasted for only two months, reflecting the extremely short growing period in the subalpine environment. Compared with complete snow cover, incomplete snow cover led to significantly higher water losses as well as lower dehydration tolerance, because both osmotic adjustment and changes in turgor maintenance capacity were significantly reduced. Interactions between photoinhibition and winter desiccation were masked by the direct effects of freezing temperatures. However, both photoinhibition and winter desiccation are closely linked and occur together under field conditions in this evergreen subalpine woody species.     

Impact of land-use change on nitrogen mineralization in subalpine grasslands in the Southern Alps

 A field study was conducted to investigate the effect of abandonment of management on net N mineralization (NNM) in subalpine meadows. NNM, soil microbial biomass N (SMBN), fungal biomass and physicochemical characteristics (total C, total N, dissolved organic carbon (DOC) and pH) were determined in surface (0–10 cm) soil from May to October 1997 in an intensively managed and an abandoned meadow at 1770 m a.s.l.. The cumulative NNM was lower in the abandoned area and ranged from 150 to 373 and from 25 to 85 μg N g^–1 soil in the intensively managed and the abandoned areas, respectively. The total organic C increased in the abandoned area, while total N showed no difference between abandoned and managed meadow. SMBN showed no difference between the investigated sites, whereas ergosterol, a measure of fungal biomass, increased significantly at the abandoned site. The cumulative NNM was negatively correlated with total organic C, C : N ratio, DOC and ergosterol content, and positively correlated with the NH₄ ⁺-N content of soil. The decrease in NNM at the abandoned site may be explained by the lower availability of N in substrates characterized by a high C : N ratio which, together with a decrease in pH in the litter layer, may have increased fungal biomass. Received: 8 January 1999