作 者 :张立荣,牛海山*,汪诗平,李英年,赵新全
期 刊 :生态学报 2010年 30卷 24期 页码:6961~6969
关键词:气孔密度;气孔长度;潜在气孔导度指数;全球变暖;放牧;高寒草甸;
Keywords:stomatal density, stomatal length, potential conductance index, global warming, grazing, alpine meadow,
摘 要 :设计增温和放牧耦合试验研究增温和放牧对高寒植物气孔密度和气孔长度的影响,选择矮嵩草(Kobresia humilis)、高山唐松草(Thalictrum aplinum)、垂穗披碱草(Elymus nutans Griseb.)和麻花艽(Gentiana straminea)作为试验材料。结果表明增温与放牧分别影响这4个物种气孔形态参数的不同方面:温度使4个物种气孔长度一致性地变小(P<005),放牧使气孔密度和潜在气孔导度指数(PCI)一致性地上升(P<0.05)。气孔密度对增温的响应趋势和气孔长度对放牧的响应趋势在不同物种间存在差异。气孔长度减小可能是对增温引起的水分胁迫的响应,气孔密度和潜在气孔导度指数上升反映出四种植物在本研究相应的放牧强度下存在补偿性生长的可能。
Abstract:Low temperature is widely recognized as the primary limiting factor in plant growth in alpine meadows of the Qinghai-Tibetan plateau. Warming is thus supposed to alleviate temperature limitation in the area. Livestock grazing is the predominant land use in the area and is the main anthropogenic factor affecting plant growth. Grazing, while diminishing total leaf area, may raise the level of nutrient elements in the soil, and thus have the opposite effect on plant growth. Stomata apparatus play important roles in controlling the passage of CO2 into and out from plants. Since it is difficult to directly measure photosynthesis rates for most species in the area, changes in stomatal characteristics could be used as proxies to understand how the assimilation rates of plants change under warming or grazing treatments. A two-way factorial design (warming×grazing) experiment was carried out at the Haibei Research Station in Qinghai province, China. A temperature free-air controlled enhancement (T-FACE) system with arrays of infrared radiation heaters deployed by Kimball et al. was used to elevate vegetation canopy temperatures. The setpoint differences in summer were 1.2℃ in daytime and 1.7℃ at night-time, while in winter daytime and night time differences were 1.5℃ and 2.0℃ respectively. Two sheep per plot (3 m2) grazed once a month from July to September, representing a moderate level of above ground biomass utilization. Four alpine meadow species were selected in August 2008 after two years of treatment: Thalictrum aplinum, Kobresia humilis, Gentiana straminea, Elymus nutans Griseb. Fully mature leaves were selected to measure stomatal density (SD) and stomatal length (SL) and the length between the junctions of the guard cells at each end of the stoma using a Motic microscope system (Motic BA200, China). Warming decreased the SL of all four species (P=0.037), by 3.3%, 19%, 3.9%, 2.7% in T. aplinum, K. humilis, G. straminea. E. nutans, respectively. Warming affected SD in a species-specific way, as indicated by a marginally significant (P=0.086) interaction between warming and species in ANOVA. Grazing increased the SD of all four species, by 12.5%, 15.7% and 15.9%, 2.4% in T. aplinum, K. humilis, G. straminea. E. nutans respectively. Grazing had no statistically significant effects on SL (P=0.907). Potential conductance index (PCI) was also calculated for all four species using the formula (stomatal length)2 stomatal density. Grazing increased the PCI for all four species (P=0.000), while warming decreased the PCI, but with a lower level of significance (P=0.068). There were no significant interaction effects between warming and grazing on SD, SL and PCI. The decline in SL subjected to warming might be the result of warming-generated soil drought. The rise in SD and PCI induced by grazing may imply an increase in assimilation rate per leaf area at a given grazing intensity. Since both SD and SL contributed to maximum stomatal conductance, their responses to grazing and warming counteracted each other in the case of maximum stomatal conductance. It may be the tendency that SD increase and SL decrease in grazing alpine meadow under future warming.
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