Science
New Algorithm Enhances Soil Freeze-Thaw Monitoring from Space

Researchers from Fudan University, the University of Twente, and the Chengdu University of Information Technology have developed an innovative algorithm that significantly improves the detection of soil freeze-thaw transitions from space. This breakthrough, published on September 10, 2025, in the Journal of Remote Sensing, addresses the complexities of capturing these dynamic processes, which are critical for understanding weather patterns and hydrological cycles.
Dynamic Parameter Optimization in Soil Monitoring
Soil freeze-thaw (FT) transitions have a profound impact on surface albedo, moisture levels, and heat fluxes. Traditional large-scale models often overlook diurnal soil temperature variations and the heterogeneity of surfaces, leading to inaccuracies. Existing algorithms based on SMAP satellite data rely on fixed parameters, which can be ineffective across diverse land cover and climate conditions.
To overcome these limitations, the research team has introduced a dynamic parameter optimization algorithm that enhances soil freeze-thaw detection using L-band microwave remote sensing. This method adapts to regional variations in land cover, terrain, and climate, making it a robust framework for continuous monitoring. The algorithm improves the existing Diurnal Amplitude Variation-based Freeze-Thaw (DAV-FT) approach by incorporating three dynamically optimized parameters: α, β, and γ. These parameters represent the detection period, variance window, and threshold sensitivity, respectively.
Enhanced Accuracy and Validation Results
The optimization process uses a technique similar to maximum likelihood estimation to enhance overall classification accuracy across various regions. The results indicate a significant increase in areas with an overall accuracy (OA) greater than 0.7, rising from 54.43% to 89.36%. Notably, the algorithm performed exceptionally well in regions such as the Qinghai–Tibet Plateau, southwestern Eurasia, and southern North America.
Moreover, the new model demonstrated high consistency with existing datasets, achieving an 81.28% accuracy with the ERA5-Land dataset and 79.54% with the SMAP-FT dataset. Validation conducted using data from 828 in situ soil temperature stations affirmed the algorithm’s enhanced accuracy and stability, yielding a median accuracy of 0.92, surpassing both fixed-parameter and traditional SMAP products.
“The dynamic parameter optimization significantly enhances our ability to capture subtle soil freeze-thaw transitions that vary across regions and seasons,” stated Dr. Shaoning Lv, the study’s corresponding author.
Dr. Lv emphasized that the new method reflects diurnal surface changes in real-time, refining the retrieval accuracy of L-band data and offering a more coherent understanding of land-atmosphere interactions. This advancement is a crucial step toward global-scale climate monitoring with improved temporal and spatial precision.
The improved DAV-FT algorithm holds promise for various applications, including climate modeling, agricultural management, and hydrological forecasting. Its ability to account for diurnal temperature cycles and regional differences makes it particularly valuable for high-latitude and mountainous regions, where existing algorithms often struggle.
By enhancing the accuracy of soil state detection from space, this algorithm strengthens the foundation for assessing permafrost dynamics, water availability, and land-atmosphere energy fluxes—key elements in predicting the impacts of climate change and refining global land-surface models.
This research was supported by multiple funding sources, including the National Key R&D Program of China and the National Natural Science Foundation of China.
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