Effects of kinship and integration between adjacent/non-adjacent ramets on the growth and feedback with soil biota in a clonal invader.

IF 2.3 2区 环境科学与生态学 Q2 ECOLOGY Oecologia Pub Date : 2024-10-01 Epub Date: 2024-08-12 DOI:10.1007/s00442-024-05606-y
Aiyan Han, Qiaoqiao Huang
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Abstract

Many invasive plants can reproduce through both seeds and clonal growth. In habitats, interacting seedlings may originate from the same mother, and interacting ramets originating from the same plant may not be adjacent to each other in the stolon, particularly for vines that can show curved growth. However, in a homogeneous environment, how kinship and integration between adjacent/non-adjacent ramets affect plant growth and feedback with soil biota has been less studied. We address these questions using an invasive stoloniferous vine Mikania micrantha. We found that sibling groups and stranger groups did not differ in biomass production, root allocation and feedback with soil biota, indicating that kin recognition is unlikely in M. micrantha. For two-ramet stolon fragments in which interacting ramets were adjacent to each other, older ramets allocated more biomass to roots than younger ramets when integrated, particularly in comparison with disconnected ramets from different genotypes, indicating that a division of labor was induced. For four-ramet stolon fragments in which there were two unrooted ramets between the two rooted, interacting ramets, integration increased biomass allocation to roots, possibly because only two of the four ramets could absorb belowground resources and a lower shoot allocation decreased aboveground light competition. When inoculated with soil biota conditioned by the four-ramet integrated fragments, plants of M. micrantha also increased biomass allocation to roots. These results indicate that the distance between interacting ramets in the stolon may affect the integration effect and feedback with soil biota in clonal plants.

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相邻/不相邻公羊之间的亲缘关系和整合对克隆入侵者的生长以及与土壤生物群的反馈的影响。
许多入侵植物可以通过种子和克隆生长进行繁殖。在生境中,相互影响的幼苗可能源自同一母体,而源自同一植株的相互影响的柱头在匍匐茎中可能互不相邻,特别是对于可以弯曲生长的藤本植物。然而,在同质环境中,相邻/不相邻的匍匐茎之间的亲缘关系和整合如何影响植物生长以及与土壤生物群的反馈,这方面的研究较少。我们利用入侵的有匍匐茎藤本植物薇甘菊来解决这些问题。我们发现,同胞组和陌生人组在生物量生产、根系分配和与土壤生物群的反馈方面没有差异,这表明薇甘菊不可能有亲属识别。在两个匍匐茎片段中,相互影响的匍匐茎彼此相邻,在整合时,较老的匍匐茎比较年轻的匍匐茎分配了更多的生物量给根部,特别是与来自不同基因型的不相连的匍匐茎相比,这表明分工被诱导了。对于四个匍匐茎片段,其中两个生根的、相互影响的匍匐茎之间有两个未生根的匍匐茎,整合后根部的生物量分配增加,这可能是因为四个匍匐茎中只有两个可以吸收地下资源,较低的芽分配减少了地上部的光竞争。当接种了由四个ramet整合片段调节的土壤生物区系时,薇甘菊植株也增加了根部的生物量分配。这些结果表明,匍匐茎中相互作用的柱头之间的距离可能会影响克隆植物的整合效应以及与土壤生物群的反馈。
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来源期刊
Oecologia
Oecologia 环境科学-生态学
CiteScore
5.10
自引率
0.00%
发文量
192
审稿时长
5.3 months
期刊介绍: Oecologia publishes innovative ecological research of international interest. We seek reviews, advances in methodology, and original contributions, emphasizing the following areas: Population ecology, Plant-microbe-animal interactions, Ecosystem ecology, Community ecology, Global change ecology, Conservation ecology, Behavioral ecology and Physiological Ecology. In general, studies that are purely descriptive, mathematical, documentary, and/or natural history will not be considered.
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