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Effects of land use on the level, variation and spatial structure of soil enzyme activities and bacterial communities 总被引:1,自引:0,他引:1
K. Wallenius H. Rita K. Lappi H. Hartikainen R.M. Niemi 《Soil biology & biochemistry》2011,43(7):1464-351
The aim of this study was to evaluate the long-term influence of contrasting rural land use types on the level, plot-scale variation and horizontal spatial structure of decomposition activities and the bacterial community in soil. Experimental data were collected in the southern boreal zone from topsoil layers of adjacent spruce forest, unmanaged meadow (former field) and organically cultivated field that all shared the same soil origin. The forest soil was sampled separately for the organic and mineral layers. A geostatistical design comprising 50 sampling points per plot area of 10 × 10 m2 was used. The measured microbiological characteristics included eight different hydrolytic soil enzyme activities involved in C, P and S cycles, bacterial 16S rDNA length heterogeneity profiles (LH-PCR) and total DNA yield as a relative estimate of microbial biomass.Effects of land use were pronounced on both the bacterial community structure and soil enzyme activities. Soil organic matter (SOM) content predicted well the major differences in soil enzyme activities and microbial biomass. Highest enzyme activities were generally found in the forest organic soil whereas the underlying mineral soil showed significantly lower activities with a pattern similar to those of the other mineral soils, especially the cultivated field. Bacterial LH-PCR fingerprints were distinct but at the same time remarkably similar between field and meadow soils whereas the forest organic layer differed clearly from the mineral soils. Within-plot variation of soil microbiological characteristics was best explained by the variation of SOM. Relative standard deviations of soil microbiological characteristics typically decreased in the order: forest organic layer ≈ forest mineral layer > meadow > field. However, bacterial fingerprints showed lowest variation within the meadow. Most of the microbiological variables studied showed no or only weak spatial structure at the scale sampled. 相似文献
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长期施磷稻田土壤磷素累积及其潜在环境风险 总被引:7,自引:1,他引:7
应用常规化学分析法和数学统计方法,基于太湖地区13年的长期定位试验,研究长期不同施磷水平下[0(不施磷)、30 kg.hm 2.a 1(低磷)、60 kg.hm 2.a 1(适磷)、90 kg.hm 2.a 1(高磷)]稻麦轮作系统稻田土壤磷素累积规律及磷素流失引发的环境风险。在本试验区土壤环境条件下,可能发生稻田磷素淋溶及径流的土壤耕层(0~15 cm)Olsen-P临界值分别为26.0 mg.kg 1和24.8 mg.kg 1。连续13年适磷、高磷施肥,土壤耕层Olsen-P含量分别达到26.9 mg.kg 1和33.2 mg.kg 1,均高于临界值浓度,且已导致稻田田面水与30 cm渗漏水中总磷浓度显著升高,大大提高了稻田磷素淋溶及径流的风险。低磷施肥土壤Olsen-P长期稳定在(10.1±2.0)mg.kg 1水平,并且每年的稻麦产量与高磷、适磷处理相比并无显著差异,而长期低磷施肥土壤磷的流失风险也较小。因此,在太湖地区稻麦轮作体系下,磷肥不宜以常规适磷水平长期施用,建议以低磷水平(30 kg.hm 2.a 1)长期施用或以适磷水平(60 kg.hm 2.a 1)间歇式施用。 相似文献
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念青唐古拉山东南坡高寒草原生态系统表层土壤活性有机碳的影响因素研究 总被引:1,自引:0,他引:1
高寒草原是青藏高原广泛分布的植被类型。本文以念青唐古拉山东南坡高寒草原生态系统为对象,采用野外调查与室内分析相结合的方法,对影响高寒草原生态系统表层(0~20cm)土壤活性有机碳分布的因素进行了研究。结果表明:念青唐古拉山东南坡高寒草原生态系统表层(0~20cm)土壤活性有机碳平均含量为2.61±0.31g·kg?1;影响表层土壤活性有机碳分布的地形因子是海拔和坡度,植被因子是0~10cm、10~20cm土层地下生物量,物理因子是0~10cm、10~20cm土壤含水量和0~20cm土壤容重,化学因子是土壤全钾含量。其中0~10cm、10~20cm土壤含水量和0~20cm土壤容重影响达显著水平。在海拔4421~4598m范围内,随着海拔升高,表层土壤活性有机碳含量表现出增加→减少→增加→减少的分布特征。 相似文献
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