Agricultural land-use history and restoration impact soil microbial biodiversity

Nash E. Turley; Lukas Bell-Dereske; Sarah E. EvansLars A. Brudvig

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Agricultural land-use history and restoration impact soil microbial biodiversity

机译：农业土地利用历史和恢复影响土壤微生物生物多样性

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1. Human land uses, such as agriculture, can leave long-lasting legacies as ecosystems recover. As a consequence, active restoration may be necessary to overcome landuse legacies; however, few studies have evaluated the joint effects of agricultural history and restoration on ecological communities. Those that have studied this joint effect have largely focused on plants and ignored other communities, such as soil microbes. 2. We conducted a large-scale experiment to understand how agricultural history and restoration tree thinning affect soil bacterial and fungal communities within longleaf pine savannas of the southern United States. This experiment contained 64 pairs of remnant (no history of tillage agriculture) and post-agricultural (reforested following abandonment from tillage agriculture >60 years prior) longleaf pine savanna plots. Plots were each 1 ha and arranged into 27 blocks to minimize land-use decision-making biases. We experimentally restored half of the remnant and post-agricultural plots by thinning trees to reinstate open-canopy savanna conditions and collected soils from all plots five growing seasons after tree thinning. We then evaluated soil bacterial and fungal communities using metabarcoding. 3. Agricultural history increased bacterial diversity but decreased fungal diversity, while restoration increased both bacterial and fungal diversity. Both bacterial and fungal richness were correlated with a range of environmental variables including above-ground variables like leaf litter and plant diversity, and below-ground variables such as soil nutrients, pH and organic matter, many of which were also impacted by agricultural history and restoration. 4. Fungal and bacterial community compositions were shaped by restoration and agricultural history resulting in four distinct communities across the four treatment combinations. 5. Synthesis and applications. Past agricultural land use has left persistent legacies on soil microbial biodiversity, even

机译：1. 持久的遗产作为生态系统恢复。因此,积极恢复可能是必要的为了克服土地利用遗产;研究评估的共同影响农业历史和恢复生态社区。这也主要集中在植物共同作用和忽视其他社区,如土壤微生物。实验,了解农业的历史和恢复树稀疏影响土壤细菌和真菌群落内棵长叶。稀疏美国南部的松热带稀树草原。实验包含64对遗迹(没有农业耕作)和历史post-agricultural(重新植树造林放弃从耕作农业> 60年之前)草原长叶松情节。每个1公顷和安排到27块降到最低土地使用决策偏差。实验一半的遗迹和恢复post-agricultural块稀疏的树木和恢复的开阔草原条件收集了所有的土壤块五增长赛季后树变薄。土壤细菌和真菌社区使用metabarcoding。细菌多样性,但降低了真菌多样性,恢复增长细菌和真菌的多样性。和真菌丰富与范围环境变量包括地上变量如落叶和植物多样性,土壤和地下变量等营养,pH值和有机物,其中许多也影响农业历史和恢复。作品被修复和形状农业历史导致四个不同社区在四个治疗组合。农业土地利用持久在土壤微生物生物多样性遗产,甚至

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来源
《The Journal of Applied Ecology》 |2020年第5期|852-863|共12页
作者
Nash E. Turley; Lukas Bell-Dereske; Sarah E. EvansLars A. Brudvig;
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作者单位

Kellogg Biological Station, Michigan State University, East Lansing, MI, USA;

Department of Plant Biology, Michigan State University, East Lansing, MI, USA;

Program in Ecology, Evolutionary Biology, and Behavior, Michigan State University, East Lansing, MI, USA;

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正文语种英语
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关键词
Land use; agricultural history; restorationFungibacteriaLand use historyCommunity ecology;

机译：农业土地利用;historyCommunity生态;

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Agricultural land-use history and restoration impact soil microbial biodiversity

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