Rhizobial variation, more than plant variation, mediates plant symbiotic and fitness responses to herbicide stress.

IF 4.4 2区 环境科学与生态学 Q1 ECOLOGY Ecology Pub Date : 2024-10-23 DOI:10.1002/ecy.4426
Veronica Iriart,Elizabeth M Rarick,Tia-Lynn Ashman
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Abstract

Symbiotic mutualisms provide critical ecosystem services throughout the world. Anthropogenic stressors, however, may disrupt mutualistic interactions and impact ecosystem health. The plant-rhizobia symbiosis promotes plant growth and contributes to the nitrogen (N) cycle. While off-target herbicide exposure is recognized as a significant stressor impacting wild plants, we lack knowledge about how it affects the symbiotic relationship between plants and rhizobia. Moreover, we do not know whether the impact of herbicide exposure on symbiotic traits or plant fitness might be ameliorated by plant or rhizobial genetic variation. To address these gaps, we conducted a greenhouse study where we grew 17 full-sibling genetic families of red clover (Trifolium pratense) either alone (uninoculated) or in symbiosis with one of two genetic strains of rhizobia (Rhizobium leguminosarum) and exposed them to a concentration of the herbicide dicamba that simulated "drift" (i.e., off-target atmospheric movement) or a control solution. We recorded responses in immediate vegetative injury, key features of the plant-rhizobia mutualism (nodule number, nodule size, and N fixation), mutualism outcomes, and plant fitness (biomass). In general, we found that rhizobial variation more than plant variation determined outcomes of mutualism and plant fitness in response to herbicide exposure. Herbicide damage response depended on plant family, but also whether plants were inoculated with rhizobia and if so, with which strain. Rhizobial strain variation determined nodule number and size, but this was herbicide treatment-dependent. In contrast, strain and herbicide treatment independently impacted symbiotic N fixation. And while herbicide exposure significantly reduced plant fitness, this effect depended on inoculation state. Furthermore, the differential fitness benefits that the two rhizobial strains provided plants seemed to diminish under herbicidal conditions. Altogether, these findings suggest that exposure to low levels of herbicide impact key components of the plant-rhizobia mutualism as well as plant fitness, but genetic variation in the partners determines the magnitude and/or direction of these effects. In particular, our results highlight a strong role of rhizobial strain identity in driving both symbiotic and plant growth responses to herbicide stress.
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根瘤菌的变异比植物的变异更能介导植物对除草剂胁迫的共生和适应反应。
共生互惠关系在世界各地提供重要的生态系统服务。然而,人为的压力因素可能会破坏共生生物之间的相互作用,影响生态系统的健康。植物与根瘤菌的共生关系能促进植物生长,并有助于氮(N)循环。虽然暴露于非目标除草剂被认为是影响野生植物的一个重要压力源,但我们对它如何影响植物与根瘤菌之间的共生关系还缺乏了解。此外,我们也不知道除草剂暴露对共生性状或植物适应性的影响是否会因植物或根瘤菌的遗传变异而得到改善。为了填补这些空白,我们进行了一项温室研究,将 17 个红三叶草(Trifolium pratense)的全同胞遗传家族单独(未接种)或与两种根瘤菌(Rhizobium leguminosarum)遗传株系之一共生,并将它们暴露于模拟 "漂移"(即目标外大气移动)的除草剂麦草畏浓度或对照溶液中。我们记录了植物直接伤害的反应、植物-根瘤菌互作的关键特征(结核数量、结核大小和氮固定)、互作结果和植物适应性(生物量)。总的来说,我们发现根瘤菌的变异比植物的变异更能决定植物与根瘤菌互作的结果和植物对除草剂暴露的适应性。除草剂损害反应取决于植物的科属,也取决于植物是否接种了根瘤菌,如果接种了,则取决于接种的菌株。根瘤菌株的变化决定了结核的数量和大小,但这与除草剂处理有关。相反,菌株和除草剂处理对共生固定氮的影响是独立的。虽然除草剂暴露会显著降低植物的适应性,但这种影响取决于接种状态。此外,在除草剂条件下,两种根瘤菌菌株给植物带来的不同适应性益处似乎会减少。总之,这些研究结果表明,暴露于低浓度除草剂会影响植物-根瘤菌互作关系的关键成分以及植物的适应性,但互作伙伴的遗传变异决定了这些影响的程度和/或方向。我们的研究结果特别强调了根瘤菌菌株特性在驱动共生和植物生长对除草剂胁迫的反应中的重要作用。
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来源期刊
Ecology
Ecology 环境科学-生态学
CiteScore
8.30
自引率
2.10%
发文量
332
审稿时长
3 months
期刊介绍: Ecology publishes articles that report on the basic elements of ecological research. Emphasis is placed on concise, clear articles documenting important ecological phenomena. The journal publishes a broad array of research that includes a rapidly expanding envelope of subject matter, techniques, approaches, and concepts: paleoecology through present-day phenomena; evolutionary, population, physiological, community, and ecosystem ecology, as well as biogeochemistry; inclusive of descriptive, comparative, experimental, mathematical, statistical, and interdisciplinary approaches.
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