利用菌根和生物腐植酸对水泥采矿废弃物作为辣椒生长和生产培养基的生物修复

Iradhatullah Rahim
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摘要

利用南苏拉威西岛马洛斯喀斯特的水泥开采产生石膏形式的废物,石膏仍有潜力用于生物修复,作为植物商品的种植介质。这项研究的目的是确定辣椒植物在用菌根和生物腐殖质(从可可豆荚壳中提取的生物腐殖质)处理过的前水泥采矿介质上的生长情况。本研究采用5个处理,即以土壤+粪肥为对照,石膏30 g/塑料袋,石膏60 g/塑料袋,石膏30 g/塑料袋+菌根,石膏60 g/塑料袋+菌根。然后将处理分为2组,有生物腐殖质和没有生物腐殖质。研究表明,生物腐殖质处理后各观测参数值均高于未施用生物腐殖质处理。30 g石膏/塑料袋+菌根处理可以通过改变土壤组分的百分比组成来改善土壤的物理性质。它还能提高P2O2和K2O水平,为辣椒植株提供最佳生长条件。利用水泥矿山废弃物利用菌根和生物腐植酸进行生物修复生产园艺商品是可能的。
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BIOREMEDIATION OF CEMENT MINING WASTE AS A MEDIUM FOR GROWTH AND PRODUCTION OF CHILIES WITH MYCORRHIZA AND BIOHUMATE APPLICATION
Cement mining by exploiting Maros karst, South Sulawesi, produces waste in the form of gypsum, which still has the potential to be used in bioremediation as a planting medium for plant commodities. The research aims to determine the growth of chili plants on former cement mining media treated with mycorrhiza and biohumic—the biohumate used from an extract of cocoa pod husk. The research was structured using an experimental method with 5 treatments, namely primary media in the form of soil + manure as a control, gypsum 30 g/polybag, gypsum 60 g/polybag, gypsum 30 g/polybag+mycorrhiza, gypsum 60 g/polybag+mycorrhiza. The treatment was then divided into 2, with biohumic and without biohumic. The research showed that all observed parameters had higher values in the biohumic treatment than without biohumic. Treatment with 30 g gypsum/polybag + mycorrhiza can improve the physical properties of the soil by changing the percentage composition of soil fractions. It can also increase P2O2 and K2O levels and provide the best growth for chili plants. It is possible to utilize waste from cement mines to produce horticultural commodities by bioremediation with mycorrhiza and biohumate.
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