丛枝菌根与覆草对矿区玉米生长及土壤水分的影响

Effect of arbuscular mycorrhiza and grass mulching on corn growth and soil water content in coal mining areas

  • 摘要: 煤矿开采加剧了干旱胁迫与土壤贫瘠。如何提高水分利用率,促进植物生长与土壤改良成为矿区农田修复的关键所在。试验区土壤类型为风沙土,土质疏松,蓄水保肥能力较差。试验设定对照(CK)、覆草(F)、接菌(M)、覆草联合接菌(FM)共计4个处理,每个处理3个重复,共12个小区。试验结果表明:接菌可有效地提高玉米的生物量和产量,接菌玉米产量比对照组高出13 %;改进覆草方式后联合接菌处理,可以有效提高玉米产量;5月完成覆草后,当月的土壤水含量比未覆草的处理高出30 %;9月降水少、蒸发量增加,覆草有效减少了水分的蒸发,保水量比未覆草提高37.5 %。

     

    Abstract: Coal mining exacerbates drought stress and poor soil. How to improve the water use efficiency, promote plant growth and soil improvement has become the key to the field restoration. The soil type of the experimental area is aeolian sand soil, which is loose and has poor ability of water and fertilizer conservation. The experiment set up 4 treatments: control(CK), cover grass(F), inoculate arbuscular mycorrhizal fungi(M), cover grass combined with arbuscular mycorrhizal fungi(FM), with 3 repetitions for each treatment, thus there were 12 communities in total. The results showed that the biomass and yield of maize could be effectively increased by inoculation, and the yield of inoculated maize was 13 % higher than that of the control group. The yield of maize can be increased effectively by combining with the treatment of bacteria. After grass mulching in May, the soil water content in that month was 30 % higher than that of the treatment without grass mulching. In September, the precipitation was less, the evaporation increased, the evaporation of water was effectively reduced by grass mulching, and the water retention was 37.5 % higher than that of the treatment without grass mulching.

     

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