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MERVI TUOVINEN DANNY McCARROLL HÅKAN GRUDD RISTO JALKANEN SIETSE LOS 《Boreas: An International Journal of Quaternary Research》2009,38(1):1-12
The spatial and temporal stability of the climatic signal in pine tree - ring width and maximum density is examined using data from four sites in northern Sweden and Finland. Moving-window multiple linear regression, using monthly and daily climate data, indicates that ring widths at all sites have been strongly controlled by July temperatures throughout the past century. The relationship between maximum density and temperature is stronger but much less stable across both space and time. Shifts in the hottest part of the summer do not explain large shifts in the period most strongly influencing density. It is concluded that palaeoclimate reconstructions based on northern Fennoscandian pine tree - ring width chronologies should be restricted to the temperature of midsummer (July), whereas maximum density should be used to reconstruct the temperature of a longer growth season (June to August). They thus provide different and compl e mentary palaeoclimate signals. At all four sites, the correlation between maximum density and June to August mean temperature is lowest in the latter half of the 20th century, but split sample tests with strong verification statistics (RE and CE) show that this represents a quantitative change in the strength of the correlation with climate, rather than a qualitative change in the nature of that relationship, and thus does not invalidate climate reconstructions. 相似文献
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T. AALTO J. HATAKKA I. PAATERO J.-P. TUOVINEN M. AURELA T. LAURILA K. HOLMÉN N. TRIVETT Y. VIISANEN 《Tellus. Series B, Chemical and physical meteorology》2002,54(2):110-126
Diurnal and annual variations of CO2 , O3, SO2 , black carbon and condensation nuclei and their source areas were studied by utilizing air parcel trajectories and tropospheric concentration measurements at a boreal GAW site in Pallas, Finland. The average growth trend of CO2 was about 2.5 ppm yr−1 according to a 4-yr measurement period starting in October 1996. The annual cycle of CO2 showed concentration difference of about 19 ppm between the summer minimum and winter maximum. The diurnal cycle was most pronounced during July and August. The variation between daily minimum and maximum was about 5 ppm. There was a diurnal cycle in aerosol concentrations during spring and summer. Diurnal variation in ozone concentrations was weak. According to trajectory analysis the site was equally affected by continental and marine air masses. During summer the contribution of continental air increased, although the southernmost influences decreased. During daytime in summer the source areas of CO2 were mainly located in the northern parts of the Central Europe, while during winter the sources were more evenly distributed. Ozone showed similar source areas during summer, while during winter, unlike CO2 , high concentrations were observed in air arriving from the sea. Sulfur dioxide sources were more northern (Kola peninsula and further east) and CO2 sources west-weighted in comparison to sources of black carbon. Source areas of black carbon were similar to source areas of aerosols during winter. Aerosol source area distributions showed signs of marine sources during spring and summer. 相似文献
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