Plant-soil interactions in the communities dominated by alien and native plants

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-06-01 DOI:10.1016/j.ppees.2023.125721
Jan Pergl , Michaela Vítková , Martin Hejda , Josef Kutlvašr , Petr Petřík , Jiří Sádlo , Martin Vojík , Šárka Dvořáčková , Richard Fleischhans , Anna Lučanová , Petr Pyšek
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引用次数: 1

Abstract

It has been established by research on plant invasions that soil biota and availability of nutrients affect the processes of alien species establishment and spread. So far, attention was mainly on alien invaders, although some native species (expansive), vigorously spread in human-influenced landscapes and also transform the habitats they colonize. Based on indirect gradient ordination analysis of vegetation relevés dominated by five native (Calamagrostis epigejos, Filipendula ulmaria, Phalaris arundinacea, Rubus idaeus, Urtica dioica) and five alien taxa (Impatiens glandulifera, Lupinus polyphyllus, Telekia speciosa, Reynoutria sp., Solidago canadensis agg.) in the Czech Republic, Central Europe, we identified pairs of species differing by origin (native vs alien) and growing in similar habitats. In the resulting 10 pairs, we tested the net effect of species origin on the following soil characteristics: (i) physical properties, (ii) nutrient availability, and (iii) biological activity. We found that the impact of alien invasive and native expansive species on soil cannot be explained simply by species’ origin as a factor. Regardless of the origin, a statistically significant effect was recorded only for factors expressing nitrogen supply at the peak of the vegetation season and soil biological activity. Differences in impacts attributable to origin were only verified for individual pairs, being most pronounced between the alien Lupinus and its native counterparts Calamagrostis and Filipendula, and least between Solidago vs Calamagrostis, and Telekia vs Rubus. Both invasive alien and expansive native dominant plants can alter the rate of decomposition by changing the litter quality and availability of nutrients, mainly inorganic nitrogen. Therefore, management actions to preserve or restore diversity and mitigate the negative impacts of dominant species should be focused both on native and alien species.

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外来植物和本地植物主导的群落中的植物-土壤相互作用
对植物入侵的研究表明,土壤生物区系和养分的可利用性影响外来物种的建立和传播过程。到目前为止,人们的注意力主要集中在外来入侵者身上,尽管一些本土物种(数量庞大)在受人类影响的景观中蓬勃传播,也改变了他们定居的栖息地。基于对捷克共和国、中欧的五种本地植物(Calamagrostis epiejos、Filippendula ulmaria、Phalaris arundinacea、Rubus idaeus、Urtica dioica)和五种外来类群(凤仙花、羽扇豆、物种Telekia speciosa、Reynoutria sp,我们鉴定了不同产地(本地和外来)和生长在相似栖息地的成对物种。在由此产生的10对土壤中,我们测试了物种起源对以下土壤特征的净影响:(i)物理特性,(ii)养分有效性,和(iii)生物活性。我们发现,外来入侵物种和本地膨胀物种对土壤的影响不能简单地用物种起源作为一个因素来解释。无论来源如何,只有在植被季节高峰期表达氮供应和土壤生物活性的因素才会产生统计上显著的影响。归因于起源的影响差异仅在单个配对中得到验证,在外来羽扇豆与本土羽扇豆Calamagrostis和Filippendula之间最为明显,在Solidago与Calamagrotis以及Telekia与Rubus之间最小。外来入侵植物和膨胀性本地优势植物都可以通过改变枯枝落叶的质量和养分(主要是无机氮)的可用性来改变分解速率。因此,保护或恢复多样性和减轻优势物种负面影响的管理行动应同时侧重于本地物种和外来物种。
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7.20
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4.30%
发文量
567
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