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Vegetation patterns influence on soil microbial biomass and functional diversity in a hilly area of the Loess Plateau, China

机译:黄土高原丘陵区植被类型对土壤微生物量和功能多样性的影响

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Purpose Shifts of microbial biomass and functional diversity under different vegetation patterns can impact the soil processes, and the specific knowledge about this can be used to develop sound vegetation restoration strategies. This study was devoted to examine the effects of different vegetation patterns on microbial biomass and functional diversity and explore the relationship between soil erosion and soil microbial properties under typical erosion conditions of the semiarid hilly area of the Loess Plateau, China. Materials and methods Soil samples were collected from the Yangjuangou catchment near Yan'an City, northern Shaanxi province, China. Four types of slopes, each with different vegetation pattern, were sampled, including F (forest planted by human), G (grass), G-F-G (grass on the upper and lower slopes and forest on the middle slope), and F-G-F (forest on the upper and lower slopes and grass on the middle slope). Top soil samples (0-10 cm) from each of the four slopes were analyzed for their physicochemical properties, microbial biomass, and functional diversity. The microbial biomass was analyzed using the fumigation-extraction method and microbial functional diversity using the community-level physiological profile method. Results and discussion The analysis of variance revealed a trend of increasing nutrient concentrations and soil microbial biomass nitrogen in the G-F-G soil samples. However, the F-G-F slope had the highest microbial biomass carbon, with an average of 289 mg kg(-1) and had the highest average well color development values (up to 120 h of incubation), which is used as an indicator of microbial activity. Mean values of Shannon diversity (H'), which are indicative of soil microbial functional diversity, ranged from only 2.75 for F to 2.82 for F-G-F. Principal component analysis showed that the four vegetation patterns had differences that are consistent with different carbon substrate utilization patterns. The greatest differences in single-carbon substrate utilization were between F-G-F and F and between F-G-F and G-F-G. Conclusions The F-G-F vegetation pattern was the best pattern for restoring soils on sloping land in terms of improving soil microbial biomass carbon, soil microbial functional diversity, and activity. Soil erosion processes might have an indirect effect on soil microbial biomass through its influence on soil physicochemical properties in the typical erosion-prone region of the Loess Plateau, China.
机译:目的在不同植被模式下,微生物生物量和功能多样性的变化会影响土壤过程,有关这一方面的专门知识可用于制定合理的植被恢复策略。本研究致力于探讨不同植被格局对黄土高原半干旱丘陵区典型侵蚀条件下土壤侵蚀与微生物特性之间的关系。材料和方法从陕西省延安市附近的杨家沟流域采集土壤样品。取样了四种类型的斜坡,每种斜坡都有不同的植被模式,包括F(人为种植的森林),G(草),GFG(上,下斜坡的草和中坡的森林)和FGF(上坡的森林)。上部和下部斜坡,中间斜坡上有草)。分析了四个坡度中每个坡度的顶部土壤样品(0-10厘米)的理化特性,微生物生物量和功能多样性。使用熏蒸-提取方法分析微生物生物量,并使用社区级生理概况方法分析微生物功能多样性。结果与讨论方差分析显示了G-F-G土壤样品中养分浓度和土壤微生物生物量氮增加的趋势。但是,FGF斜率具有最高的微生物生物量碳,平均为289 mg kg(-1),并且具有最高的平均孔显色值(长达120 h的孵育时间),可作为微生物活性的指标。表示土壤微生物功能多样性的香农多样性(H')平均值范围从F的仅2.75到F-G-F的2.82。主成分分析表明,四种植被格局的差异与不同的碳基质利用格局一致。 F-G-F和F之间以及F-G-F和G-F-G之间在单碳基材利用率方面的最大差异。结论就改善土壤微生物生物量碳,土壤微生物功能多样性和活性而言,F-G-F植被格局是恢复坡地土壤的最佳模式。土壤侵蚀过程可能通过影响黄土高原典型易侵蚀地区土壤理化特性而间接影响土壤微生物量。

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