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论文题目: Effect of organic amendment amount on soil nematode community structure and metabolic footprints in soybean phase of a soybean-maize rotation on Mollisols
英文论文题目: Effect of organic amendment amount on soil nematode community structure and metabolic footprints in soybean phase of a soybean-maize rotation on Mollisols
第一作者: 潘凤娟
英文第一作者: F. J. Pan
联系作者: 韩晓增
英文联系作者: X. Z. Han
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发表年度: 2020
卷: 30
期: 4
页码: 544-554
摘要:

It has been well documented that organic amendment affects soil nematode community structure. However, little is known about the effect of organic amendment amount on soil nematodes. To assess the effect of the amount of organic amendments on soil nematode community structure and metabolic activity, the community composition, abundance, and metabolic footprints of soil nematodes were determined in a long-term field experiment with various amounts of organic amendment in Northeast China. Fertilization treatments included an unfertilized control (CK), chemical fertilizer without manure amendment (OM0), manure applied at 7.5 Mg ha(-1) plus chemical fertilizer (OM1), and manure applied at 22.5 Mg ha(-1) plus chemical fertilizer (OM2). A total of 46 nematode genera were found. Treatments with the largest amount of organic amendment had the smallest number of plant parasite genera (5), but a largest number of dominant genera (7). Soil nematodes, bacterivores, and fungivores were the most abundant in OM2, followed by OM1, and the lowest in OM0 and CK. Organic amendment increased the enrichment index (EI), and the large amount of organic amendment increased the metabolic footprints of bacterivore (Baf) and fungivore (Fuf) and enrichment footprint (Ef). The relationships between Baf (or Fuf) and the increases in soil organic carbon (Delta SOC) and total nitrogen (Delta TN) were stronger than those of bacterivore (or fungivore) abundance with Delta SOC and Delta TN, except for the relationship between bacterivore abundance and Delta SOC. The EI and Ef were positively correlated with Delta SOC and Delta TN. These findings suggest that the amount of organic amendment affects soil nematode activity and function at entry levels in soil food web, and that metabolic footprints of soil nematodes may be better indicators than their abundances in assessing their relationships with soil nutrients.

英文摘要:

It has been well documented that organic amendment affects soil nematode community structure. However, little is known about the effect of organic amendment amount on soil nematodes. To assess the effect of the amount of organic amendments on soil nematode community structure and metabolic activity, the community composition, abundance, and metabolic footprints of soil nematodes were determined in a long-term field experiment with various amounts of organic amendment in Northeast China. Fertilization treatments included an unfertilized control (CK), chemical fertilizer without manure amendment (OM0), manure applied at 7.5 Mg ha(-1) plus chemical fertilizer (OM1), and manure applied at 22.5 Mg ha(-1) plus chemical fertilizer (OM2). A total of 46 nematode genera were found. Treatments with the largest amount of organic amendment had the smallest number of plant parasite genera (5), but a largest number of dominant genera (7). Soil nematodes, bacterivores, and fungivores were the most abundant in OM2, followed by OM1, and the lowest in OM0 and CK. Organic amendment increased the enrichment index (EI), and the large amount of organic amendment increased the metabolic footprints of bacterivore (Baf) and fungivore (Fuf) and enrichment footprint (Ef). The relationships between Baf (or Fuf) and the increases in soil organic carbon (Delta SOC) and total nitrogen (Delta TN) were stronger than those of bacterivore (or fungivore) abundance with Delta SOC and Delta TN, except for the relationship between bacterivore abundance and Delta SOC. The EI and Ef were positively correlated with Delta SOC and Delta TN. These findings suggest that the amount of organic amendment affects soil nematode activity and function at entry levels in soil food web, and that metabolic footprints of soil nematodes may be better indicators than their abundances in assessing their relationships with soil nutrients.

刊物名称: Pedosphere
英文刊物名称: Pedosphere
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参与作者: F. J. Pan, X. Z. Han, N. Li, J. Yan and Y. L. Xu
英文参与作者: F. J. Pan, X. Z. Han, N. Li, J. Yan and Y. L. Xu
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