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Simulation of soil nitrogen mineralization and nitrification in two northern Hardwood forest ecosystems

Journal of Northeast Forestry University volume 6pages 1–13 (1995)Cite this article

Abstract

A process-based, biological model is presented that simulates soil nitrogen (N) mineralization and nitrification in two northern hardwood forest ecosystems in the Upper Peninsula of Michigan. The soil system is divided into two compartments (forest floor and mineral soil) since quantity and quality of the organic substrate, and the important driving variables (temperature and moisture) for the model vary between these two compartments. The model focuses on the central position of microorganisms in the N mineralization and nitrification processes, and the use of multiplicative factors to account for the effect of temperature, moisture and carbon(C):N ratio on these processes. The model has been validated with data from two northern hardwood stands in the Upper Peninsula of Michigan. A close agreement between calculated and observed monthly means was obtained in both stands, especially for net N mineralization, which plays a very important role in determining available N. The nitrification rates had relatively larger variation than the N mineralization rates, but the model adequately described the seasonal trends of the observed values. A simple sensitivity analysis was performed to assess the response of the model to changes in important variables (temperature, moisture, organic N, and C:N ratio) between the two study sites. This analysis showed that increased temperature and higher organic N levels consistently increased N mineralization and nitrification in the both stands. The model’s results were most sensitive to moisture changes in forest floor, but were not sensitive to moisture changes in the mineral soil. In contrast, C:N ratio was influential in the mineral soil, but did not have any effect in the forest floor.

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Abbreviations

MB :

Heterotrophic biomass

Mr :

Nitrifier biomass

Nfon :

Fresh organic N (litterfall in forest floor, fine root litter in mineral soil)

Noon :

Old organic N (Humus)

Nr :

NH4+

Ni :

Inorganic N (NH4+ and NO3-)

τ:

Temperature °C

ψ:

Water potential (-MPa)

Rc:n :

C:N ratio

μa :

Specific growth rate of microbial biomass

μo :

Net growth rate of microbial biomass

μn :

Actual growth rate of microbial biomass

μr :

Specific growth rate of nitrifier biomass

ξa :

Specific death rate of microbial biomass

ξr :

Specific death rate of nitrifier biomass

γf :

Effect of C:N ratio on ammonification

γi :

Effect of C:N on immobilization

τo :

Optimum temperature

Q10 :

Temperature coefficient

kf :

Specific rate of fresh organic N decomposition

ko :

Specific rate of old organic N decomposition

kr :

Specific rate of nitrification

ki :

Specific rate of immobilization

km :

Michealis-Menten constant for nitrification

kx :

Michealis-Menten constant for immobilization

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Authors and Affiliations

  1. Commission for Integrated Survey of Natural Resource, Chinese Academy of Sciences, 100101, Beijing, China

    Hua Ouyang

  2. Michigan Technological University, 49931, Houghton, MI, USA

    Marting F. Jurgensen, David Reed, Hal O. Liechty & Glenn D. Mroz

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  1. Hua Ouyang
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  2. Marting F. Jurgensen
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Ouyang, H., Jurgensen, M.F., Reed, D. et al. Simulation of soil nitrogen mineralization and nitrification in two northern Hardwood forest ecosystems. J. Northeast For. Univ. 6, 1–13 (1995). https://doi.org/10.1007/BF02875268

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Key words

  • Soil nitrogen
  • Hardwood forests
  • Mineralization
  • Nitrification
  • Biologica model

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