Variables and a Validation Data Analysis to Improve the Prehistoric Cultivated Land Predictive Precision of Yulin, Northern Shaanxi, China

The distribution of cultivated land in prehistoric times was primarily influenced by natural conditions and population density. This article presents a case study on modern cultivated land simulation to analyze the potential impact of variable selection and validation data accuracy on model precisio...

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Bibliographic Details
Published inLand (Basel) Vol. 13; no. 2; p. 153
Main Authors Kong, Xinyuan, Cui, Jianxin, Li, Yikai
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2024
Subjects
Accuracy
Agricultural land
Agriculture
Annual precipitation
Binary Logistic Regression
Case studies
China
Climate change
Comparative analysis
Cultivated lands
Data analysis
Errors
Farming
farming–pastoral transitional zone
Geospatial data
human activity
Human influences
Impact analysis
Land use
land use simulation
Loess
Model accuracy
Population density
Precipitation
Prediction models
Prehistoric era
Regression analysis
Regression models
Remote sensing
Residential areas
Rivers
Satellites
Scale effect
Simulation
Soils
Topography
China
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Summary:The distribution of cultivated land in prehistoric times was primarily influenced by natural conditions and population density. This article presents a case study on modern cultivated land simulation to analyze the potential impact of variable selection and validation data accuracy on model precision. Additionally, methods were explored to enhance the accuracy of prehistoric cultivated land simulation. Seven natural variables and one settlement density variable were selected to simulate the distribution of cultivated land based on a Binary Logistic Regression model. The simulated results were then compared with real land use data from 1985, which are commonly used as validation data for prehistoric farmland reconstruction. The findings revealed that all eight selected parameters could explain the distribution of cultivated land in the research area, with annual precipitation being the most influential factor. The initial prediction accuracy was relatively low at 65.8%, with a Kappa coefficient of 0.316. Several factors were identified as affecting the prediction accuracy. Firstly, the scale effect diminished the impact of the slope and elevation on cultivated land distribution, and errors were introduced in the method used to calculate the distance from residential areas. Secondly, the loess hilly area in the southeastern part of the research area overpredicted cultivated land due to insufficient data on actual residential land demand. Lastly, strong human activity since the 1950s has altered the natural distribution of cultivated land, resulting in poor consistency ratings. To address these issues, a batch modification method was employed to correct the 1985 data. The validation of the prediction model using the corrected data demonstrated a significant improvement in accuracy. Therefore, it is recommended to use the revised 1985 land use data for verifying prehistoric cultivated land simulation in the region. However, further research is required to mitigate the impact of the first two errors.
ISSN:2073-445X
2073-445X
DOI:10.3390/land13020153