Characteristics of the soil microbial biomass in soils from a long-term field experiment with different levels of C input

The content of aliphatic compounds, hydrophobicity index, organic C and N content and the microbial biomass and respiration activity were analysed in soil samples originating from different plots of a long-term field experiment (variants: nil, NPK – mineral fertilization: 64.6–100 kg/ha/year, FYM – farmyard manure and FYM + NPK) from three blocks (III, IV and B) with different crop rotation. Samples were taken from 0–200 mm layer in 2002 and 2003 (spring and autumn). The plots without any fertilization had the significantly lowest aliphatic compound content compared to variants fertilized by FYM or FYM + NPK in all the evaluated blocks in both years. The variants fertilized only by mineral NPK without any organic fertilization had the slightly increased aliphatic compound content but they did not exceed significantly the control variants in most cases. The aliphatic compound contents correlated significantly with the organic C contents in 2002 and 2003, as well. The values of the hydrophobicity index showed a similar trend like the data mentioned above. Organic manure increased the soil organic nitrogen content, similarly to the carbon content. In variants fertilized by FYM and FYM + NPK the higher microbial biomass content was found comparing to unfertilized variants. Correlations between aliphatic compound content and biomass differed in spring (2002: r = 0.065, 2003: r = 0.068) and autumn (2002: r = 0.407, 2003: r = 0.529). Organically fertilized variants had increased basal respiration, in autumn 2002 the basal respiration was higher in variants fertilized by mineral NPK, too. The highest specific respiration was recorded in the unfertilised plot in block B (autumn 2002 and 2003), where low microbial biomass exhibited high activity. Increased specific respiration was found also in plots fertilized by FYM and FYM + NPK (block III and IV, autumn samplings). Positive significant correlations between microbial biomass content and basal respiration were found in 2002 (spring: r = 0.716) and 2003 (spring: r = 0.765, autumn: r = 0.671).

Download Full-text

Effects of liming on the microbial biomass and its activities in soils long-term contaminated by toxic elements

Plant Soil and Environment ◽

10.17221/3451-pse ◽

2011 ◽

Vol 52 (No. 8) ◽

pp. 345-352 ◽

Cited By ~ 9

Author(s):

G. Mühlbachová ◽

P. Tlustoš

Keyword(s):

Microbial Biomass ◽

Soil Microbial Biomass ◽

Respiratory Activity ◽

Soil Microbial Communities ◽

Microbial Biomass C ◽

Negative Effects ◽

Lead Smelter ◽

Soil Microbial ◽

Hydrogen Carbonates

The effects of liming by CaO and CaCO3 on soil microbial characteristics were studied during laboratory incubation of long-term contaminated arable and grassland soils from the vicinity of lead smelter near Příbram (Czech Republic). The CaO treatment showed significant negative effects on soil microbial biomass C and its respiratory activity in both studied soils, despite the fact that microbial biomass C in the grassland soil increased sharply during the first day of incubation. The metabolic quotient (qCO2) in soils amended by CaO showed greater values than the control from the second day of incubation, indicating a possible stress of soil microbial pool. The vulnerability of organic matter to CaO could be indicated by the availability of K2SO4-extractable carbon that increased sharply, particularly at the beginning of the experiment. The amendment of soils by CaCO3 moderately increased the soil microbial biomass. The respiratory activity and qCO2 increased sharply during the first day of incubation, however it is not possible to ascribe them only to microbial activities, but also to CaCO3 decomposition in hydrogen carbonates, water and CO2. The pH values increased more sharply under CaO treatment in comparison to CaCO3 treatment. The improvement of soil pH by CaCO3 could be therefore more convenient for soil microbial communities.

Download Full-text