添加葡萄糖- c对中国黑土土壤微生物生物量碳和二氧化碳的响应

IF 0.4 Q4 SOIL SCIENCE
Memon Muhammad Suleman, Xuan Hu, Zhang Wenju, D. Nizamuddin, Xu Minggang
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引用次数: 1

摘要

葡萄糖碳的添加速率和方式影响土壤微生物生物量、大气二氧化碳和分解体丰度。本研究旨在评价单次和多次添加葡萄糖- c对中国黑土土壤微生物生物量碳(SMBC)和CO 2响应的影响。在不同肥力水平的吉林省黑土上进行了为期116天的培养试验,研究了单次添加(一次2%葡萄糖- c)和5次重复添加(2%葡萄糖- c)两种葡萄糖添加方式对土壤微生物生物量碳和co2积累的影响。将40 g风干土壤装入250 ml肖特瓶中,按5次重复的crd析因设计排列。因子(A),包括葡萄糖添加模式(单次和重复添加)。因子(B),根据土壤有机碳组成土壤肥力水平:低、中、高。然后将葡萄糖- c(2%)溶液滴入土壤中。添加方式对SMBC、CO 2进化和CO 2积累均有正向响应。总体而言,重复添加的平均(低、中、高肥力土壤)SMBC值分别比对照和单次添加高32%和0.92%。低肥力土壤重复添加的co2排放量增加21.3%。在低肥力土壤中,单次添加的平均co2积累量高于重复添加和对照。单葡萄糖- c添加与不同土壤肥力水平的组合增加了微生物生物量,并在较短的时间内(最多3周)引发了碳矿化。反复添加葡萄糖与不同土壤肥力水平相结合,在较长的孵育期内也增加了土壤微生物生物量碳和CO 2。因此,本研究认为微生物对有机碳的饥饿程度非常高;建议重复添加以满足微生物对C的需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Soil microbial biomass carbon and carbon dioxide response by glucose-C addition in black soil of China
The soil microbial biomass, atmospheric carbon dioxide and abundance of decomposer are influenced by rate and addition pattern of glucose carbon. The present study was conducted to evaluate the effect of single and repeated additions of glucose-C on soil microbial biomass carbon (SMBC) and CO 2 response in black soil of China. The incubator study comprising of 116-days was conducted in different fertility levels of black soil of Jilin province of China, to determine the effects of glucose addition patterns viz single addition (2% glucose-C once application) and repeated addition (2% glucose-C in five splits) on soil microbial biomass carbon and CO 2 accumulation. Forty-gram air dried soil was filled into 250 ml Schott bottle and bottles were arranged in CRD-factorial design with 5 repeats. Factor (A), included glucose addition patterns (single & repeated additions). Factor (B), consisted of soil fertility levels: low, medium and high on the basis of soil organic carbon. Thereafter glucose-C (2%) solution was added drop wise to soil. The addition patterns showed positive response on SMBC, CO 2 evolved and CO 2 accumulation. Over all mean (low, medium and high fertility soils) of repeated addition depicted 32% and 0.92% higher values of SMBC than control and single additions, respectively. The CO 2 emission of repeated addition was 21.3% higher in low fertility soil. The mean CO 2 accumulation showed higher values in low fertility soil by single addition than repeated and control in all soils. Single glucose-C addition in combination with different soil fertility levels augmented the microbial biomass and triggered carbon mineralization for shorter period (up to 3 weeks). The repeated addition of glucose in combination with different soil fertility levels also enhanced soil microbial biomass carbon and CO 2 in longer incubation period. It is concluded from this study that microbial starvation for organic carbon was very high hence; repeated addition may be suggested to meet C demand of microbes.
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来源期刊
Soil & Environment
Soil & Environment SOIL SCIENCE-
CiteScore
1.10
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