Raised atmospheric CO2 levels and increased N deposition cause shifts inplant species composition and production in Sphagnum bogs

Berendse F; Van Breemen N; Rydin H; Buttler A; Heijmans M; Hoosbeek

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Raised atmospheric CO2 levels and increased N deposition cause shifts inplant species composition and production in Sphagnum bogs

机译：大气中二氧化碳水平的升高和氮的沉积增加导致泥炭藓沼泽地植物种类组成和产量的变化

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Part of the missing sink in the global CO2 budget has been attributed to the positive effects Of CO2 fertilization and N deposition on carbon sequestration in Northern Hemisphere terrestrial ecosystems. The genus Sphagnum is one of the most important groups of plant species sequestrating carbon in temperate and northern bog ecosystems, because of the low decomposability of the dead material it produces. The effects of raised CO2 and increased atmospheric N deposition on growth of Sphagnum and other plants were studied in bogs at four sites across Western Europe. Contrary to expectations, elevated CO2 did not significantly affect Sphagnum biomass growth. Increased N deposition reduced Sphagnum mass growth, because it increased the cover of vascular plants and the tall moss Polytrichum strictum. Such changes in plant species composition may decrease carbon sequestration in Sphagnum-dominated bog ecosystems.

机译：全球CO2预算中漏失的部分原因归因于CO2施肥和N沉积对北半球陆地生态系统中碳固存的积极影响。泥炭藓属是在温带和北部沼泽生态系统中固碳的最重要的植物物种之一，因为它产生的死物质具有低分解性。在整个西欧四个地点的沼泽中研究了升高的CO2和增加的大气N沉积对泥炭藓和其他植物生长的影响。与预期相反，二氧化碳含量升高并未显着影响泥炭生物量的增长。氮沉积的增加减少了泥炭藓的质量增长，因为它增加了维管植物的覆盖率和高苔藓的Polytrichumstrictum。植物物种组成的这种变化可能会减少以泥炭藓为主的沼泽生态系统中的碳固存。

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《Global change biology》 |2001年第5期|共8页
作者
Berendse F; Van Breemen N; Rydin H; Buttler A; Heijmans M; Hoosbeek;
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正文语种 eng
中图分类生物科学;
关键词
Bogs; Carbon dioxide; Nitrogen; Peatlands; Sphagnum; Nitrogen deposition; Decomposition; Northern; Growth; Competition; Ecosystems; Responses; Tundra;

机译：沼泽;二氧化碳;氮;泥炭地;泥炭藓;氮沉降;分解;北部;生长;竞争;生态系统;响应;Tundra;

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1. Raised atmospheric CO2 levels and increased N deposition cause shifts inplant species composition and production in Sphagnum bogs [J] . Berendse F, Van Breemen N, Rydin H, Global change biology . 2001,第5期

机译：大气中二氧化碳水平的升高和氮的沉积增加导致泥炭藓沼泽地植物种类组成和产量的变化
2. Competition between Sphagnum magellanicum and Eriophorum angustifolium as affected by raised CO2 and increased N deposition [J] . Heijmans MMPD, Klees H, Berendse F Oikos: A Journal of Ecology . 2002,第3期

机译：受增加的CO2和增加的N沉积的影响，麦哲伦（Sphagnum magellanicum）和古草（Eriophorum angustifolium）之间的竞争
3. Elevated atmospheric CO2 and increased nitrogen deposition: effects on C and N metabolism and growth of the peat moss Sphagnum recurvum P. Beauv. var. mucronatum (Russ.) Warnst [J] . Van Der Heijden E., Kuiper PJC., Verbeek SK. Global change biology . 2000,第2期

机译：大气CO2升高和氮沉降增加：对泥炭苔藓（Sphagnum recurvum P. Beauv）碳氮代谢和生长的影响。变种mucronatum（俄罗斯）沃恩斯特
4. CORING A 12KYR OMBROTROPHIC SPHAGNUM PEAT BOG: A HISTORY OF ATMOSPHERIC MERCURY [C] . ERIN CAMP Keck Research Symposium in Geology . 2011

机译：脸上的12kyr Obbrotrophic sphagnum Peat Bog：大气汞的历史
5. Impacts of increased atmospheric nitrogen deposition, fire disturbance, and pore-water warming on nitrogen cycling in Sphagnum-dominated peatlands. [D] . Hartsock, Jeremy. 2013

机译：在以泥炭藓为主的泥炭地中，大气氮沉降增加，火势干扰和孔隙水变暖对氮循环的影响。
6. Genome Sequences of Novel Azospirillum sp. Strains B21 and Sh1 Isolated from Raised Sphagnum Bogs and Type Strains Azospirillum lipoferum 59b and Azospirillum oryzae COC8 [O] . Denis S. Grouzdev, Ekaterina N. Tikhonova, Irina K. Kravchenko 2019

机译：新型拟螺螺旋菌的基因组序列B21和Sh1株从升高的泥炭藓沼泽中分离和菌株Azospirillum lipoferum 59b和Azospirillum oryzae COC8
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Raised atmospheric CO2 levels and increased N deposition cause shifts inplant species composition and production in Sphagnum bogs

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