采用室内接种法,以赤子爱胜蚓(Eisenia fetida)构建生物反应器,研究猪粪、木屑混合物的蚯蚓堆制处理中,蚓体的生长状况及影响其Cu、Zn富集的主要因素.结果表明,接种密度为40 mg·g-1、湿度为75%同时有利于蚯蚓生长和基质消耗;温度为15℃对蚓体质量增加最有利,而温度为20℃最利于基质消耗;m(猪粪)∶m(木屑)为6∶4可同时利于蚓体质量增加和基质消耗.适宜的接种密度(48 mg·g-1)、湿度(70%)、温度(15℃)及较高比例的碳源辅料[m(猪粪)∶m(木屑)为6∶4]有利于蚓体对Cu的吸收和富集;低接种密度和高比例碳源辅料有利于蚓体对Zn的吸收,湿度和温度对蚓体Zn含量无显著影响,但蚓体Zn富集量分别在接种密度48 mg·g-1、m(猪粪) ∶m(木屑)为6∶4、湿度75%和温度15℃条件下达最大.%Vermireactors were set up containing pig dung and sawdust mixture inoculated with Eisenia fetida indoors to investigate factors affecting growth of and Cu or Zn accumulation in earthworms during the course of vermicomposting. Results demonstrate that earthworm growth and substrate consumption were both boosted when the inoculation density and humidity was set at 40 mg ? G-1 and 75% , respectively; the optimal temperature for earthworm growth was 15℃ , and for matrix consumption, 20℃ ; pig dung/sawdust ratio of 6:4 was conducive to both earthworm growth and substrate consumption. Cu uptake and accumulation by earthworms were facilitated in the context of appropriate inoculation density (48 mg ? G-1) , humidity (70% ) , temperature (15℃ ) and a higher proportion of carbon source materials in the mixture ( pig dung/sawdust ratio, 6:4). Lower inoculation density and a higher proportion of carbon source materials were advantageous to earthworm Zn uptake, whereas humidity and temperature exerted little effects on earthworm Zn concentration. Earthworm Zn accumulation was the highest in the treatment with 48 mg ? G in inoculation density, 6 : 4 in pig dung/ sawdust ratio, 70% in humidity and 15 t in temperature.
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