孟加拉酸性土壤中废弃生物炭培养的微生物丰度

G. Rabbani, M. Hossain, Z. Parveen
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摘要

由于气候变化,生物炭最近被推荐为一种提高作物生产力和减少全球变暖的控制方法。由于生物炭的施用改变了土壤的pH值,使其趋于碱性,这对酸性土壤的养分循环产生了与微生物丰度相同的影响。本研究旨在调查孟加拉酸性土壤中两种不同施用量的废弃物生物炭对微生物丰度的影响。在酸性土壤上分别以10吨ha-1和15吨ha-1的浓度,对污泥、甘蔗渣、马铃薯皮、水葫芦和有机废弃物进行慢热解(500±50℃)。为了了解养分有效性和碳动态对酸性土壤微生物丰度的影响,在施用所有生物炭的实验土壤上进行了体外培养研究。孵育研究分为两个阶段:浸没条件(长达60天),然后是干燥条件(61至120天),并以两种不同的速率(如10和15吨/公顷)施用生物炭。细菌活菌数随培养时间和土壤含水量的变化而显著增加(P<0.05),但速率无显著差异。有益根瘤菌数量为4.21 ~ 6.47 log CFU/g;固氮细菌的数量范围为2.33 ~ 5.60 log CFU/g,磷酸盐溶解细菌的数量范围为2.30 ~ 3.74 log CFU/g。然而,在任何样品中都没有发现大肠菌群或大肠杆菌的迹象,而且在生物炭改性的土壤样品中也没有发现假单胞菌和木霉的迹象。因此,在生物炭掺入后的前2个月内,废物来源的生物炭处理对微生物参数的影响不显著,随着时间的推移和氧气的存在,微生物参数逐渐增加。
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Microbial Abundance of Waste Derived Biochar Incubated Acid Soil in Bangladesh
Due to climate change biochar is recently recommended as a control approach to increase crop productivity and global warming reduction. As biochar application changes the soil pH towards alkalinity, this effects acid soils nutrient cycles the same as microbial abundance. This research was conducted to investigate the microbial abundance as affected by waste-derived biochar application in two different rates on acidic soil of Bangladesh. Slow pyrolyzed (500±50ºC) different waste-derived biochars viz. sewage sludge, sugarcane bagasse, potato peels, water hyacinth, and organic waste were applied at 10 tons ha-1 and 15 tons ha-1 on the acidic soil. An in-vitro incubation study was conducted on experimental soil applying all the biochar to understand how nutrient availability and carbon dynamics affect the microbial abundance of the acid soil. The incubation study was divided into two stages: submerged condition (up to 60 days) followed by a dry condition (61 to 120 days) and biochars were applied in two different rates such as 10 and 15 tons ha-1. The viable count of bacteria significantly (P<0.05) increased with the variation of incubation periods and soil moisture content, although the rates did not make any difference. The beneficial Rhizobium spp. bacteria count ranged from 4.21 to 6.47 log CFU/g; Azotobacter spp. count ranged from 2.33 to 5.60 log CFU/g and Phosphate Solubilizing Bacterial count ranged from 2.30 to 3.74 log CFU/g. However, no sign of coliform bacteria or Escherichia coli was found in any sample, but also none of the biochar amended soil samples possessed Pseudomonas spp. and Trichoderma spp. In outcome, the waste-derived biochars treatments showed an insignificant impact on microbial parameters over the first 2 months after biochar incorporation which progressively increased with the course of time and the presence of oxygen.
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