Effects of elevated CO2</sub> and O3</sub> on leaf litter phenolics and subsequent performance of litter-feeding soil macrofauna

Anne Kasurinen; Petri A. Peltonen; Riitta Julkunen-Tiitto; Elina Vapaavuori; Visa Nuutinen; Toini Holopainen; Jarmo K. Holopainen

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Effects of elevated CO2 and O3 on leaf litter phenolics and subsequent performance of litter-feeding soil macrofauna

机译：CO2 和O3 升高对凋落物中酚类物质和凋落物饲喂土壤大型动物的影响

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Two field-growing silver birch (Betula pendula Roth) clones (clone 4 and 80) were exposed to elevated CO2 and O3 for three growing seasons (1999–2001). The phenolic compounds of naturally abscised leaf litter were analyzed in order to determine the possible CO2- and O3-induced changes in the litter quality. The potential litter-mediated CO2 and O3 effects on litter-feeding soil macrofauna (detritivore) performance were assessed in microcosm experiments, i.e., the relative growth rates (RGR) of Lumbricus terrestris and Porcellio scaber, the relative consumption rates (RCR) of P. scaber, and mortality of the test animals were measured. The leaf litter grown under elevated CO2 had increased concentrations (weight per mass unit) and contents (weight per leaf) of phenolic acids, flavonol glycosides, condensed tannins and total measured phenolics. Elevated O3 increased the concentrations of 3,4’-dihydroxypropiophenone 3-β-d-glucoside (DHPPG) and flavonoid aglycones but only under ambient CO2. However, elevated O3 effects on the content of some low-molecular-weight phenolic (LMWP) compounds (i.e. phenolic acids, DHPPG, flavonoid aglycones) and total LMWP changed over time emphasizing the importance of conducting long-term (>3 years) exposure studies. In general, RGR of young L. terrestris was affected by the litter quality changes induced by elevated CO2 and O3, as the animal growth rates were reduced when they were fed with CO2- and O3-exposed leaf litter of clone 80 in Experiment 1. P. scaber RCR or RGR responses to CO2- and O3-induced changes in litter quality were more variable and inconsistent, and neither were there any litter-mediated CO2 and O3 effects on animal mortality in these microcosm experiments. In conclusion, elevated CO2 has the potential to alter silver birch leaf litter quality, but the possible O3 effects on phenolic compounds and litter-mediated CO2 and O3 effects on detritivores are more difficult to validate.

机译：两个田间生长的白桦（Betula pendula Roth）克隆（克隆4和80）在三个生长季节（1999-2001）暴露于升高的CO 2和O 3。分析了自然脱落的凋落物中的酚类化合物，以确定可能由CO2 -和O3 引起的凋落物质量变化。在微观实验中评估了潜在的凋落物介导的CO2 和O3 对凋落物饲喂土壤大型动物（破坏动物）性能的潜在影响，即Lu藜和Por肉的相对生长率（RGR），测量了运动副球的相对消耗率（RCR）和测试动物的死亡率。在二氧化碳浓度升高的条件下生长的凋落物具有更高的浓度（每质量单位的重量）和酚酸，黄酮醇苷，缩合单宁和总酚含量的含量（每片重量）。升高的O3 会增加3,4'-二羟基苯乙酮3-β-d-葡萄糖苷（DHPPG）和类黄酮苷元的浓度，但只能在环境CO2下进行。但是，升高的O3 对某些低分子量酚（LMWP）化合物（即酚酸，DHPPG，类黄酮苷元）和总LMWP含量的影响随时间变化，强调了进行长期（ 3年）暴露研究。通常，年轻的陆地藜的RGR受CO2 和O3 升高引起的垫料质量变化的影响，因为饲喂CO2 -时动物的生长速度降低了。实验1中克隆80暴露于O3 的叶子凋落物。P. scaber RCR或RGR对CO2 -和O3 引起的凋落物质量变化的响应更易变且不一致，且均无变化在这些微观实验中，是否有垫料介导的CO2和O3对动物死亡率的影响。总之，升高的CO2 有可能改变白桦叶凋落物的质量，但是O3 对酚类化合物的影响可能以及凋落物介导的CO2 和O3 对有害菌的影响更难以验证。

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来源
《Plant and Soil》 |2007年第2期|25-43|共19页
作者
Anne Kasurinen; Petri A. Peltonen; Riitta Julkunen-Tiitto; Elina Vapaavuori; Visa Nuutinen; Toini Holopainen; Jarmo K. Holopainen;
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作者单位

Department of Environmental Science University of Kuopio P.O. Box 1627 70211 Kuopio Finland;

Finnish Forest Research Institute Suonenjoki Research Station Juntintie 154 77600 Suonenjoki Finland;

Department of Biology University of Joensuu P.O. Box 111 80101 Joensuu Finland;

Finnish Forest Research Institute Suonenjoki Research Station Juntintie 154 77600 Suonenjoki Finland;

Plant Production Research Soil and Plant Nutrition Agrifood Research Finland 31600 Jokioinen Finland;

Department of Environmental Science University of Kuopio P.O. Box 1627 70211 Kuopio Finland;

Department of Environmental Science University of Kuopio P.O. Box 1627 70211 Kuopio Finland;

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原文格式 PDF
正文语种 eng
中图分类
关键词
CO2; Detritivores; Leaf litter; O3; Phenolic compounds; Silver birch;

机译：二氧化碳;杀虫剂;叶屑;O3;酚类化合物;白桦树;

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专利

1. Effects of elevated CO2 and O3 on leaf litter phenolics and subsequent performance of litter-feeding soil macrofauna. [J] . Kasurinen A, Peltonen P A, Julkunen Tiitto R, Plant and Soil . 2007,第1a2期

机译：CO2和O3浓度升高对凋落物酚类物质和饲喂凋落物的大型动物的影响
2. Effects of elevated CO sub(2) and O sub(3) on leaf litter phenolics and subsequent performance of litter-feeding soil macrofauna [J] . Kasurinen Anne, Peltonen Petri A, Julkunen-Tiitto Riitta Plant and Soil . 2007,第1a2期

机译：CO sub（2）和Osub（3）升高对凋落物中的酚类物质和饲喂土壤的大型动物的影响
3. Effects of elevated temperature, elevated CO2 and fertilization on quality and subsequent decomposition of silver birch leaf litter [J] . Huttunen Liisa, Aphalo Pedro J., Lehto Tarja, Soil Biology & Biochemistry . 2009,第12期

机译：高温，高CO2和施肥对白桦叶凋落物品质及随后分解的影响
4. Effects of elevated CO2 and O3 and N fertilization on amount of soil microbial biomass carbon in spring wheat growing season [C] . Rui Fang, Yi Shi, Caiyan Lu International Conference on Environment Science and Biotechnology . 2013

机译：CO2和O3和N施肥升高对春小麦生长季节土壤微生物碳量的影响
5. The effects of ecological restoration on soil microbial enzyme activities and leaf litter decomposition [D] . Rietl, Anthony 2010

机译：生态恢复对土壤微生物酶活性和凋落物分解的影响
6. Effects of Elevated CO2 on Litter Chemistry and Subsequent Invertebrate Detritivore Feeding Responses [O] . Matthew W. Dray, Thomas W. Crowther, Stephen M. Thomas, -1

机译：二氧化碳浓度升高对凋落物化学及随后的无脊椎动物有害生物摄食反应的影响
7. Effects of elevated CO2 on litter chemistry and subsequent invertebrate detritivore feeding responses. [O] . Matthew W Dray, Thomas W Crowther, Stephen M Thomas, 2014

机译：二氧化碳浓度升高对凋落物化学和随后的无脊椎动物饲养反应的影响。
8. Research Plan: Interactive Effects of O3 and CO2 on the Ponderosa PinePlant/Litter/Soil System [R] . Olszyk, D. M., Tingey, D. T., Johnson, M., 1997

机译：研究计划：O3和CO2对黄松松树/土壤系统的交互作用

Effects of elevated CO2 and O3 on leaf litter phenolics and subsequent performance of litter-feeding soil macrofauna

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