Influence of mouldboard plough and rotary harrow tillage on microbial biomass and nutrient stocks in two long-term experiments on loess derived Luvisols |
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| Institution: | 1. São Paulo State University (UNESP), 15385-000 Ilha Solteira, SP, Brazil;2. Federal University of Mato Grosso (UFMT), 78557-267 Sinop, MT, Brazil;3. São Paulo State University (UNESP), 14884-900 Jaboticabal, SP, Brazil;4. Embrapa Agrossilvipastoril, 78550-970 Sinop, MT, Brazil;5. Louisiana State University, Postal Code 307 M.B. Sturgis Hall, Baton Rouge, LA 70803, United States;1. Department of Agrifood and Environmental Science, University of Florence, Piazzale delle Cascine 18, 50144 Florence, Italy;2. Institute of Microbiology, University of Innsbruck, Technikerstraβe 25d, 6020 Innsbruck, Austria;3. Council for Research and Experimentation in Agriculture, Via Trieste 23, 34170 Gorizia, Italy;4. Department of Bioscence and Territory, University of Molise, Contrada Fonte Lappone snc, 86090 Pesche (IS), Italy;5. Universidade Federal Rural do Rio de Janeiro, Brazil;6. Department of Geography, University of Zürich, Winterthurerstrasse 190, 8057 Zürich, Switzerland;7. Departamento de Ecología y Biología Animal, Universidad de Vigo, Vigo 36310, Spain |
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| Abstract: | The nutrient-specific effects of tillage on microbial activity (basal respiration), microbial biomass (C, N, P, S) indices and the fungal cell-membrane component ergosterol were examined in two long-term experiments on loess derived Luvisols. A mouldboard plough (30 cm tillage depth) treatment was compared with a rotary harrow (8 cm tillage depth) treatment over a period of approximately 40 years. The rotary harrow treatment led to a significant 8% increase in the mean stocks of soil organic C, 6% of total N and 4% of total P at 0–30 cm depth compared with the plough treatment, but had no main effect on the stocks of total S. The tillage effects were identical at both sites, but the differences between the sites of the two experiments were usually stronger than those between the two tillage treatments. The rotary harrow treatment led to a significant increase in the mean stocks of microbial biomass C (+18%), N (+25%), and P (+32%) and to a significant decrease in the stocks of ergosterol (?26%) at 0–30 cm depth, but had no main effect on the stocks of microbial biomass S or on the mean basal respiration rate. The mean microbial biomass C/N (6.4) and C/P (25) ratios were not affected by the tillage treatments. In contrast, the microbial biomass C/S ratio was significantly increased from 34 to 43 and the ergosterol-to-microbial biomass C ratio significantly decreased from 0.20% to 0.13% in the rotary harrow in comparison with the plough treatment. The microbial biomass C-to-soil organic C ratio varied around 2.1% in the plough treatment and declined from 2.6% at 0–10 cm depth to 2.0 at 20–30 cm depth in the rotary harrow treatment. The metabolic quotient qCO2 revealed exactly the inverse relationships with depth and treatment to the microbial biomass C-to-soil organic C ratio. Rotary harrow management caused a reduction in the microbial turnover in combination with an improved microbial substrate use efficiency and a lower contribution of saprotrophic fungi to the soil microbial community. This contrasts the view reported elsewhere and points to the need for more information on tillage-induced shifts within the fungal community in arable soils. |
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