安徽农业科学2017,Vol.45Issue(36) :98-101,118.

沼液微生物菌肥对设施番茄植株生长及土壤环境的影响

Effects of Biogas Slurry Compound Biofertilizer on Tomato Growth and Soil Fertility in Greenhouse

罗健航 刘晓彤 刘超 司海丽 王明 吴涛 张学军
安徽农业科学2017,Vol.45Issue(36) :98-101,118.
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沼液微生物菌肥对设施番茄植株生长及土壤环境的影响

Effects of Biogas Slurry Compound Biofertilizer on Tomato Growth and Soil Fertility in Greenhouse

罗健航 1刘晓彤 1刘超 2司海丽 3王明 3吴涛 4张学军1
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作者信息

  • 1. 宁夏农林科学院农业资源与环境研究所,宁夏银川750002
  • 2. 宁夏农业技术推广总站,宁夏银川750001
  • 3. 宁夏五丰农业科技有限公司,宁夏银川750004
  • 4. 宁夏青铜峡农技推广中心,宁夏吴忠751600
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摘要

[目的]为改善设施农业条件下土壤肥力状况,提高设施农业产量.[方法]在银川市贺兰地区开展田间试验,分析沼液复合微生物菌肥、灭菌沼液肥、常规施肥对设施番茄株高、茎粗、叶片数等生长指标及土壤养分含量的影响.[结果]相对于对照处理,在番茄初花期沼液复合微生物菌肥,使得株高、茎粗、叶片数的增幅为32.2%~50.7%,在初果期增幅则为23.3%~46.1%;土壤有机质含量比对照提高了56.9%,全氮和全磷含量也稳步增加;而常规施肥相对于沼液复合微生物菌肥,土壤速效磷和速效钾含量大量增加(增幅分别为203.0%和50.0%),容易造成土壤养分的淋失.沼液复合微生物菌肥条件下,番茄生长指标与土壤碱解氮、有机质含量极显著正相关;而常规施肥条件下番茄生长指标与土壤养分间相关性不显著.[结论]设施种植条件下,沼液复合微生物菌肥相对于其他肥料类型更有助于番茄植株生长和土壤肥力的提高.

Abstract

[Objective] In order to improve soil fertility and agriculture yield in greenhouse.[Method] A field experiment was conducted to investigate the plant height, stem diameter, leaf number of tomato and soil fertility by applying different type of fertilizers ( BF-biogas slurry compound biofertilizer, NF-full nutrition fertilizers and CF-conventional fertilization) in Helan area of Yinchuan City.[Result] Biogas slurry compound biofertilizer significantly enhanced plant height, stem diameter and leaf number by 32.2% ~50.7% in tomato blooming stage, while increased by 23.3% ~46.1% in tomato early fruit stage compared with the control treatment.Soil organic matter was increased by 56.9% compared with the control.Total N and total P increased stably.Compared with BF treatment,since soil available phosphorus and available potassium contents excess increased by 203.0% and 50.0% in conventional fertilization treatment, CF might increase nutrient leaching of the soil.Using biogas slurry compound biofertilizer, tomato growth indexes were significantly correlated with soil alkali-hydrolyzale nitrogen and organic matter contents (P<0.01), while no significant correlation was found between tomato growth indexes and soil nutrient contents in the conventional fertilization treatment.[Conclusion] Biogas slurry compound biofertilizer was more efficient in tomato growth and soil fertility improvement than other fertilizers in greenhouse.

关键词

沼液复合微生物菌肥/常规施肥/土壤肥力/设施番茄/碱解氮

Key words

Biogas slurry compound biofertilizer/Conventional fertilization/Soil fertility/Greenhouse tomato/Alkali-hydrolyzale nitrogen

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基金项目

国家自然科学基金(41361062)

出版年

2017
安徽农业科学
安徽省农业科学院

安徽农业科学

影响因子:0.413
ISSN:0517-6611
被引量5
参考文献量14
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