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DOI: | 10.1016/j.soilbio.2013.03.034 |
Web URL(s): | http://www.sciencedirect.com/science/article/pii/S0038071713001314 Last checked: 07/03/2013 Access conditions: Item is within a limited-access website |
Publication Type:
| Refereed |
Author(s): | Alster, Charlotte J.;
German, Donovan P.;
Lu, Ying;
Allison, Steven D. |
Author Affiliation: | Alster: Graduate Degree Program, Ecology and Department of Biology, Colorado State University, Fort Collins, CO; German, Lu and Allison: Department of Ecology and Evolutionary Biology; Allison: Department of Earth System Science, University of California-Irvine, Irvine, CA |
Title: | Microbial enzymatic responses to drought and to nitrogen addition in a southern California grassland |
Source: | Soil Biology & Biochemistry. Vol. 64, September 2013, p. 68-79. |
Publishing Information: | Amsterdam, The Netherlands: Elsevier |
# of Pages: | 12 |
Keywords: | TIC Keywords: Drought injury; Fungi; Enzymes; Nitrogen fertilization; Stress response
|
Abstract/Contents: | "Microbial enzymes play a fundamental role in ecosystem processes and nutrient mineralization. Therefore understanding enzyme responses to anthropogenic environmental change is important for predicting ecosystem function in the future. In a previous study, we used a reciprocal transplant design to examine the direct and indirect effects of drought and nitrogen (N) fertilization on litter decomposition in a southern California grassland. This work showed direct and indirect negative effects of drought on decomposition, and faster decomposition by N-adapted microbial communities in N-fertilized plots than in non-fertilized plots. Here we measured microbial biomass and the activities of nine extracellular enzymes to examine the microbial and enzymatic mechanisms underlying litter decomposition responses to drought and N. We hypothesized that changes in fungal biomass and potential extracellular enzyme activity (EEA) would relate directly to litter decomposition responses. We also predicted that fungal biomass would dominate the microbial community in our semi-arid study site. However, we found that the microbial community was dominated by bacterial biomass, and that bacteria responded negatively to drought treatment. In contrast to patterns in decomposition, fungal biomass and most potential EEA increased in direct response to drought treatment. Potential EEA was also decoupled from the decomposition response to N treatment. These results suggest that drought and N alter the efficiencies of EEA, defined as the mass of target substrate lost per unit potential EEA. Enzyme efficiencies declined with drought treatment, possibly because reduced water availability increased enzyme immobilization and reduced diffusion rates. In the N experiment, the efficiencies of β-glucosidase, β-xylosidase, and polyphenol oxidase were greater when microbes were transplanted into environments from which they originated. This increase in enzymatic efficiency suggests that microbial enzymes may adapt to their local environment. Overall, our results indicate that drought and N addition may have predictable impacts on the efficiencies of extracellular enzymes, providing a means of linking enzyme potentials with in-situ activities." |
Language: | English |
References: | 53 |
Note: | Equation Figures Tables Graphs |
| ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete): Alster, C. J., D. P. German, Y. Lu, and S. D. Allison. 2013. Microbial enzymatic responses to drought and to nitrogen addition in a southern California grassland. Soil Biol. Biochem. 64:p. 68-79. |
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| DOI: 10.1016/j.soilbio.2013.03.034 |
| Web URL(s): http://www.sciencedirect.com/science/article/pii/S0038071713001314 Last checked: 07/03/2013 Access conditions: Item is within a limited-access website |
| MSU catalog number: b2217194 |
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