Jordon C. Tourville, Thomas R. Horton, Martin Dovciak
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引用次数: 0
Abstract
Global warming has been shifting climatic envelopes of many tree species to higher latitudes and elevations across the globe; however, unsuitable soil biota may inhibit tree migrations into these areas of suitable climate. Specifically, the role of mycorrhizal fungi in facilitating tree seedling establishment beyond natural species range limits has not been fully explored within forest ecosystems. We used three experiments to isolate and quantify the effects of mycorrhizal colonization and common mycorrhizal networks (CMN) on tree seedling survival and growth across (within and beyond) the elevational ranges of two dominant tree species in northeastern North America, which were associated with either arbuscular mycorrhiza (AMF, Acer saccharum) or ectomycorrhiza (EMF, Fagus grandifolia). In order to quantify the influence of mycorrhiza on seedling establishment independent of soil chemistry and climate, we grew seedlings in soils from within and beyond our study species ranges in a greenhouse experiment (GE) as well as in the field using a soil translocation experiment (STE) and another field experiment manipulating seedling connections to potential CMNs (CMNE). Root length colonized, seedling survival and growth, foliar nutrients, and the presence of potential root pathogens were examined as metrics influencing plant performance across species' ranges. Mycorrhizal inoculum from within species ranges, but not from outside, increased seedling survival and growth in a greenhouse setting; however, only seedling survival, and not growth, was significantly improved in field studies. Sustained potential connectivity to AMF networks increased seedling survival across the entire elevational range of A. saccharum. Although seedlings disconnected from a potential CMN did not suffer decreased foliar nutrient levels compared with connected seedlings, disconnected AM seedlings, but not EM seedlings, had significantly higher aluminum concentrations and more potential pathogens present. Our results indicate that mycorrhizal fungi may facilitate tree seedling establishment beyond species range boundaries in this forested ecosystem and that the magnitude of this effect is modulated by the dominant mycorrhizal type present (i.e., AM vs. EM). Thus, despite changing climate conditions beyond species ranges, a lack of suitable mutualists can still limit successful seedling establishment and stall adaptive climate-induced shifts in tree species distributions.
全球变暖已使全球许多树种的气候范围向高纬度和高海拔地区迁移;然而,不适宜的土壤生物区系可能会阻碍树木向这些气候适宜地区迁移。具体来说,在森林生态系统中,菌根真菌在促进树苗超出自然物种范围限制方面的作用尚未得到充分探索。我们使用了三个实验来分离和量化菌根定殖和常见菌根网络(CMN)对北美东北部两个优势树种海拔范围内(内部和外部)树苗存活和生长的影响,这两个树种都与丛枝菌根(AMF,Acer saccharum)或外生菌根(EMF,Fagus grandifolia)有关。为了量化菌根对幼苗生长的影响,使其不受土壤化学和气候的影响,我们在温室实验(GE)以及田间土壤转移实验(STE)中,在研究物种范围内外的土壤中培育幼苗,并在另一项田间实验中操纵幼苗与潜在 CMN 的连接(CMNE)。实验研究了定殖根长、幼苗存活和生长、叶面养分以及潜在根病原体的存在等影响植物在不同物种分布区表现的指标。在温室环境中,来自物种范围内而非范围外的菌根接种体提高了幼苗的存活率和生长率;但在野外研究中,只有幼苗的存活率而非生长率得到了显著提高。与AMF网络的持续潜在连通性提高了糖蜜草在整个海拔范围内的幼苗存活率。虽然与连接的幼苗相比,与潜在的 CMN 断开连接的幼苗叶片养分水平并没有下降,但断开连接的 AM 幼苗(而非 EM 幼苗)的铝浓度明显更高,潜在的病原体也更多。我们的研究结果表明,在这个森林生态系统中,菌根真菌可能会促进树苗的建立,使其超越物种范围的界限,而且这种影响的大小受存在的主要菌根类型(即 AM 与 EM)的调节。因此,尽管气候条件的变化超出了物种的分布范围,但缺乏合适的互生菌仍会限制树苗的成功建立,并阻碍气候引起的树种分布的适应性变化。
期刊介绍:
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