二氧化碳浓度升高和变暖对草原植物死亡率的影响取决于降雨时间。
Elevated CO2 and warming effects on grassland plant mortality are determined by the timing of rainfall.
作者信息
Hovenden Mark J, Newton Paul C D, Porter Meagan
机构信息
School of Biological Sciences, University of Tasmania, Hobart, 7001, Tasmania, Australia.
Land & Environmental Management, AgResearch, Palmerston North, New Zealand.
出版信息
Ann Bot. 2017 May 1;119(7):1225-1233. doi: 10.1093/aob/mcx006.
BACKGROUND AND AIMS
Global warming is expected to increase the mortality rate of established plants in water-limited systems because of its effect on evapotranspiration. The rising CO 2 concentration ([CO 2 ]), however, should have the opposite effect because it reduces plant transpiration, delaying the onset of drought. This potential for elevated [CO 2 ] (eCO 2 ) to modify the warming effect on mortality should be related to prevailing moisture conditions. This study aimed to determine the impacts of warming by 2 °C and eCO 2 (550 μmol mol -1 ) on plant mortality in an Australian temperate grassland over a 6-year period and to test how interannual variation in rainfall influenced treatment effects.
METHODS
Analyses were based on results from a field experiment, TasFACE, in which grassland plots were exposed to a combination of eCO 2 by free air CO 2 enrichment (FACE) and warming by infrared heaters. Using an annual census of established plants and detailed estimates of recruitment, annual mortality of all established plants was calculated. The influence of rainfall amount and timing on the relative impact of treatments on mortality in each year was analysed using multiple regression techniques.
KEY RESULTS
Warming and eCO 2 effects had an interactive influence on mortality which varied strongly from year to year and this variation was determined by temporal rainfall patterns. Warming tended to increase density-adjusted mortality and eCO 2 moderated that effect, but to a greater extent in years with fewer dry periods.
CONCLUSIONS
These results show that eCO 2 reduced the negative effect of warming but this influence varied strongly with rainfall timing. Importantly, indices involving the amount of rainfall were not required to explain interannual variation in mortality or treatment effects on mortality. Therefore, predictions of global warming effects on plant mortality will be reliant not only on other climate change factors, but also on the temporal distribution of rainfall.
背景与目的
由于全球变暖对蒸散作用的影响,预计其将提高水分受限系统中成年植株的死亡率。然而,二氧化碳浓度([CO₂])升高应会产生相反的效果,因为它会降低植物蒸腾作用,延缓干旱的发生。[CO₂]升高(eCO₂)改变变暖对死亡率影响的这种可能性应与当前的水分条件有关。本研究旨在确定在6年时间里,气温升高2°C和eCO₂(550 μmol mol⁻¹)对澳大利亚温带草原植物死亡率的影响,并测试降雨的年际变化如何影响处理效果。
方法
分析基于一项田间试验——塔斯马尼亚自由空气CO₂富集试验(TasFACE)的结果,在该试验中,通过自由空气CO₂富集(FACE)使草地样地暴露于eCO₂环境中,并使用红外加热器进行增温处理。通过对成年植株进行年度普查以及对新植株进行详细估算,计算出所有成年植株的年度死亡率。使用多元回归技术分析降雨量和降雨时间对每年处理对死亡率相对影响的作用。
主要结果
增温和eCO₂效应在死亡率方面具有交互影响,且年际变化很大,这种变化由降雨的时间模式决定。增温往往会增加密度调整后的死亡率,而eCO₂则会缓和这种影响,但在干旱期较少的年份里缓和程度更大。
结论
这些结果表明,eCO₂降低了增温的负面影响,但这种影响随降雨时间的变化很大。重要的是,不需要降雨量指标来解释死亡率的年际变化或处理对死亡率的影响。因此,预测全球变暖对植物死亡率的影响不仅将依赖于其他气候变化因素,还将依赖于降雨的时间分布。
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