Porhemmat, Jahangir, Tajbakhsh, Sayed Mohammad, Altafi Dadgar, Majid, Abdeh Kolahchi, Abdolnabi (2025). Long-term modeling of Soil Moisture dynamics in response to land cover changes: a case study in Telo catchment of Tehran, Iran. , 13(2), 199-219. doi: 10.22034/ECOPERSIA.13.2.199
Jahangir Porhemmat; Sayed Mohammad Tajbakhsh; Majid Altafi Dadgar; Abdolnabi Abdeh Kolahchi. "Long-term modeling of Soil Moisture dynamics in response to land cover changes: a case study in Telo catchment of Tehran, Iran". , 13, 2, 2025, 199-219. doi: 10.22034/ECOPERSIA.13.2.199
Porhemmat, Jahangir, Tajbakhsh, Sayed Mohammad, Altafi Dadgar, Majid, Abdeh Kolahchi, Abdolnabi (2025). 'Long-term modeling of Soil Moisture dynamics in response to land cover changes: a case study in Telo catchment of Tehran, Iran', , 13(2), pp. 199-219. doi: 10.22034/ECOPERSIA.13.2.199
Porhemmat, Jahangir, Tajbakhsh, Sayed Mohammad, Altafi Dadgar, Majid, Abdeh Kolahchi, Abdolnabi Long-term modeling of Soil Moisture dynamics in response to land cover changes: a case study in Telo catchment of Tehran, Iran. , 2025; 13(2): 199-219. doi: 10.22034/ECOPERSIA.13.2.199

Long-term modeling of Soil Moisture dynamics in response to land cover changes: a case study in Telo catchment of Tehran, Iran

ECOPERSIA
Article 6, Volume 13, Issue 2 - Serial Number 52, 2025, Pages 199-219    PDF (4.5 M)
Document Type: Original Research
DOI: 10.22034/ECOPERSIA.13.2.199
Authors
Jahangir Porhemmat* 1; Sayed Mohammad Tajbakhsh2; Majid Altafi Dadgar3; Abdolnabi Abdeh Kolahchi1
1Soil Conservation and Watershed Management Research Institute, Tehran, Iran
2Birjand University
3Water and Environment Research Institute, Ferdowsi University of Mashhad, Iran.
Abstract
Aims: Soil moisture (SM) dynamics are a crucial factor in water resources management. This is complicated by the variability of land cover (LC) and land use (LU) at the watershed scale, which is the focus of this research.

Materials & Methods: SM was measured at five depths across seven stations within three LU/LC types to calibrate the HYDRUS-1D model. The calibrated model was then used to simulate SM dynamics and investigate the components of the soil water balance in the different LU/LC types from early 2007 to late 2021. To verify the model, R2 are above 0.80 with significance level of 5%.

FINDINGS: The amount of drainage from the lower root zone was 10, 4, and 7.3 cm for rangeland, tree, and bare soils respectively. The results show infiltration was 42, 62, and 41 cm, and evapotranspiration was 317, 574, and 345 mm. this indicate that the highest amount of infiltration and SM storage occurred in tree land, the highest drainage from the root zone in the Rangeland and the highest surface evaporation from the bare soils.

CONCLUSION: The result indicates tree-dominated LU/LC increases infiltration and soil moisture storage capacity compared to other LU/LC types. Evaporation and direct runoff losses from bare soils are greater than those from Rangeland and tree-dominated LU/LC. Furthermore, deep percolation is higher in rangeland than in tree-covered areas and bare land. In conclusion, LU/LC significantly influences water balance components and soil water dynamics, highlighting the importance of considering LU/LC in water resource and consumption management.
Keywords
land use; evapotranspiration; Infiltration; Soil moisture modeling; Unsaturated zone; HYDRUS-1D
References
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