Tipton Alice G, Nelsen Donald, Koziol Liz, Duell Eric B, House Geoffrey, Wilson Gail W T, Schultz Peggy A, Bever James D
Department of Biology, St. Louis University, St. Louis, MO, United States.
Kansas Biological Survey and Center for Ecological Research, University of Kansas, Lawrence, KS, United States.
Front Microbiol. 2022 Jul 22;13:827293. doi: 10.3389/fmicb.2022.827293. eCollection 2022.
Human land use disturbance is a major contributor to the loss of natural plant communities, and this is particularly true in areas used for agriculture, such as the Midwestern tallgrass prairies of the United States. Previous work has shown that arbuscular mycorrhizal fungi (AMF) additions can increase native plant survival and success in plant community restorations, but the dispersal of AMF in these systems is poorly understood. In this study, we examined the dispersal of AMF taxa inoculated into four tallgrass prairie restorations. At each site, we inoculated native plant species with greenhouse-cultured native AMF taxa or whole soil collected from a nearby unplowed prairie. We monitored AMF dispersal, AMF biomass, plant growth, and plant community composition, at different distances from inoculation. In two sites, we assessed the role of plant hosts in dispersal, by placing known AMF hosts in a "bridge" and "island" pattern on either side of the inoculation points. We found that AMF taxa differ in their dispersal ability, with some taxa spreading to 2-m in the first year and others remaining closer to the inoculation point. We also found evidence that AMF spread altered non-inoculated neighboring plant growth and community composition in certain sites. These results represent the most comprehensive attempt to date to evaluate AMF spread.
人类土地利用干扰是自然植物群落丧失的主要原因,在美国中西部高草草原等农业用地地区尤其如此。此前的研究表明,添加丛枝菌根真菌(AMF)可以提高原生植物的存活率,并有助于植物群落恢复,但人们对这些系统中AMF的传播了解甚少。在本研究中,我们研究了接种到四个高草草原恢复地中的AMF分类群的传播情况。在每个地点,我们用温室培养的本地AMF分类群或从附近未开垦草原采集的全土对原生植物物种进行接种。我们在距接种点不同距离处监测了AMF传播、AMF生物量、植物生长和植物群落组成。在两个地点,我们通过在接种点两侧以“桥梁”和“岛屿”模式放置已知的AMF宿主,评估了植物宿主在传播中的作用。我们发现,AMF分类群的传播能力不同,一些分类群在第一年扩散到了2米,而其他分类群则仍更靠近接种点。我们还发现,有证据表明,在某些地点,AMF的扩散改变了未接种的邻近植物的生长和群落组成。这些结果代表了迄今为止评估AMF传播的最全面尝试。
