[1] Chen T(陈拓),QinD-H(秦大河),LiJ-F(李江风),et al.2000. Response of stomatal conductance of a natural tree for the past 240 years to changes of atmospheric CO2 concentration. J Lanzhou Univ(Nat Sci) (兰州大学学报(自然科学版)), 20(4):112~116 (in Chinese) [2] Denning AS, Randall PA. 1996. Simulation of terrestrial carbon metabolism and atmospheric CO2 and a general circulation models 2. Simulated CO2 concentrations. Tellus, 48B: 543~567 [3] Enting IG, Trudinger CM, Francey RJ. 1995. A synthesis inversion of the concentration and δ 13C of atmosperic CO2. Tellus, 47:35~52 [4] Farmer JG. 1979. Problems in interpreting tree-ring δ13C records. Nature, 279:229~231 [5] Farquhar GD, O' Leary MH, Baxter JA. 1982. On the relation ship between carbon isotope discrimination and intercellular carbon dioxide concentration in leaves. Aust J Plant Physiol, 9 : 121~137 [6] Francey RJ, Allison CE, Etheridge DM, etal. 1999. A 1000-year high precision record of δ 13C in atmospheric CO2. Tellus, 51B:170~193 [7] Freyer HD, Belacy N. 1983. 13C/12C records in northern hemispheric trees during the past 500 years- Anthropogenic impact and climatic superpositions. J Geophys Res, 88: 6844~6852 [8] Friedli H, Lotscher H, Oeschger H, et al. 1986. Ice core record of the 13C/12C ratio of atmospheric CO2 in the past two centuries.Nature, 324: 237~238 [9] Jiang G-M(蒋高明), Huang Y-X(黄银晓), Wan G-J(万国江),et al. 1997. A study on the δ 13C values of tree rings and their indicative functions in revealing atmospheric CO2 changes in north China. Acta Phytoecol Sin(植物生态学报), 21(2): 155~160 (in Chinese) [10] Jiang G-M(蒋高明). 2001. Review on some hot topics towards the researches in the field of plant physioecology. Acta Phytoecol Sin (植物生态学报), 25(5): 514~519 (in Chinese) [11] Jiang Y-L(蒋延玲), Zhou G-S(周广胜). 2001. Carbon equilibrium in Larix gmelini forest and impact of global change on it. Chin J Appl Ecol(应用生态学报), 12(4): 481~484(in Chinese) [12] Keeling CD, Bacastow RB, Carter AF, et al. 1989. A three-dimensional model of atmospheric CO2 transport based on observed winds 1. Analysis of observational data. In: Peterson DH ed. Aspects of Climate Variability in the Pacific and the Western America. Geophys Monogr, 55: 165~236 [13] Krishnamurthy RV. 1996. Implications of a 400 year tree ring based 13C/12C chronology. Geophys Res Letter, 23:371~374 [14] Leavitt SW. 1994. South American tree rings show declining trend.Tellus, 46B: 152~157 [15] Leuenberger M, Siegenthaler U, Langway CC. 1992. Carbon isotope composition of atmospheric CO2 during the last ice age from an Antarctic ice core. Nature, 357: 488~490 [16] Marshall JD, Monserud RA. 1996. Homeostatic gas-exchange parameters inferred from 13C/12C in tree rings of conifers. Oecologia,105:13~21 [17] Marshall JD, Zhang J. 1994.Carbon isotope discrimination and water-use efficiency in native plants of the north-central Rockies. Ecology, 75: 1887~1895 [18] Mazany T, Lerman JC, Long A. 1980.Carbon-13 in tree-ring cellulose as an indicator of past climates. Nature, 287:432~435 [19] Mook WG, Koopmans M. 1983. Seasonal, latitudinal, and secular variations in the abundance and isotopic vatios of atmospheric carbon dioxide I. Results from land stations. J Geophys Res, 88: 10915~10933 [20] O' Leary MH. 1981. Carbon isotope fractionation in plants. Phytochemistry, 20:553~567 [21] Saurer M, Siegenthaler U. 1995. The climate-carbon isotope relationship in tree rings and the significance of site conditions. Tellus,47B1: 320~330 [22] Sun G-C(孙谷畴), Lin Z-F(林植芳). 1992.13C/12C ratio in tree ring of subtropical monsoon evergreen broad-leaved forest and CO2 concentration in atmosphere. Chin J Appl Ecol (应用生态学报),3(4): 291~295 (in Chinese) [23] Valentini R, Matteucci G, Dolman A J, et al. 2000. Respiration as the main determinant of carbon balance in European forest. Nature, 404:861~867 [24] Wong SC, Cowan IR, Fraquhar GD. 1979. Stomatal conductance correlates with photosynthetic capacity. Nature, 282:424~426 [25] Zhang Z-K(张振克), Wu R-J(吴瑞金). 1999. Climatic changes of little ice age and its social effects in China. Explor Nat (大自然探索), 18(1) :66~70 (in Chinese) |