Microbial biomass dynamics in recently air-dried and rewetted soils compared to others stored air-dry for up to 103 years |
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| Authors: | M De Nobili PC Brookes |
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| Institution: | a Dipartimento di Scienze Agrarie e Ambientali University of Udine, Via delle Scienze, 208, 33100 Udine, Italy
b Agriculture and the Environment Division, Rothamsted Research, Harpenden, Herts AL5 2JQ, UK |
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| Abstract: | Our aim was to compare the soil microbial biomass concentration and its activity (measured as CO2-C evolved) following the rewetting and aerobic incubation of soils which have previously been stored air-dry for different periods. Some of the soils have been stored in the Rothamsted sample archive for 103 years, others were comparable freshly sampled soils following air-drying and rewetting and other soils were stored air-dry for 2 years then rewetted for the work described here. Following air-drying, soil ATP concentrations were variable in recently air-dried soil, comprising about 10-35% of the initial ATP concentrations in fresh soil. Following rewetting, the percentage recovery of ATP increased in all soils by 7 days, then declined to between 73% and 87% of the original ATP concentration in the air-dried soils by day 12. Storage of air-dried soils decreased the ability of the microbial biomass to restore its ATP concentrations. For example, the ATP concentration in a soil sampled from stubbed (i.e. tree seedling, saplings and bushes cut frequently to ground level) grassland of the Broadbalk continuous wheat experiment at Rothamsted then air-dried for 2 years was only about 14% of that in the fresh soil at 2 days after rewetting. In other soils from the Hoosfield Barley Experiment, also at Rothamsted, previously given NPK or FYM since 1852, and sampled then stored air-dry for between 13 and 83 years, from 52% to 57% of the ATP in the comparable fresh soils was measured at two days after rewetting. The soil ATP concentration then changed little more up to 12 days. One of the most interesting findings was that while the microbial biomass ATP concentration in the above NPK soils only ranged from about 2 to 4 μmol ATP g−1 biomass C, in the FYM soil the microbial biomass ATP concentrations (range 11.5-13.6 μmol ATP g−1 biomass C) were the same as we repeatedly measure in fresh moist aerobic soil. We do not yet know the reasons for this. More than twice as much CO2-C was evolved from the long-term stored soils than from freshly sampled ones. However, the specific respiration of the microbial biomass did not change much after the first 12 years of storage, indicating that loss of viability mainly occurred in the earlier years. |
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| Keywords: | Soil microbial biomass Air-dried soil Rewetted soil Long-term soil storage |
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