Simulation Modeling of Forest Soil Respiration on the Example of Entic Carbic Podzol of Coniferous-Broad-Leaved Forest in the South of Moscow Region-Reference-Cited by-同舟云学术

Simulation Modeling of Forest Soil Respiration on the Example of Entic Carbic Podzol of Coniferous-Broad-Leaved Forest in the South of Moscow Region

Published:2023-09-01 Issue:9 Volume: Page:1128-1142
ISSN:0032-180X
Container-title:Почвоведение
language:
Short-container-title:Počvovedenie

Author:

Priputina I. V.¹,Frolov P. V.¹,Shanin V. N.¹²,Bykhovets S. S.¹,Kurganova I. N.¹,Lopes de Gerenyu V. O.¹,Sapronov D. V.¹,Zubkova E. V.¹,Mjakshina T. N.¹,Khoroshaev D. A.¹

Affiliation:

1. Institute of Physicochemical and Biological Problems of Soil Science, Russian Academy of Sciences

2. Center for Forest Ecology and Productivity, Russian Academy of Sciences

Abstract

The paper considers the results of calculations of the heterotrophic (HR) and total soil respiration for Entic Carbic Podzol under a coniferous-broad-leaved forest in the South of the Moscow region (54.89° N, 37.56° E), performed using the soil model Romul_Hum and a new version of the system of models EFIMOD3. The results of soil respiration modeling had a good correlation with the field measurement data. The Romul_Hum model simulates better the intensity of HR of the studied soil in wet than in dry years when it lightly overestimates the HR values. In the spatially detailed modeling of heterotrophic and root respiration using the EFIMOD3, the variability of carbon pools and fluxes associated with the distribution of the litterfall and hydrothermal conditions under the forest canopy was taken into account. The data obtained show that the intensity of HR at the beginning and middle of the growing season differs by about a factor of two, and HR values between different parts of the simulation site at the same time differ by more than 3.5 times. Spatial and temporal variability of the soil respiration affects the accuracy of estimates of C stocks in forest ecosystems. The used models are effective tools to analyze changes in soil carbon stocks, soil respiration, and carbon sink estimation in forest ecosystems, including tasks of forest management.

Publisher

The Russian Academy of Sciences

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