Citation:

PANGAEA.980672

Name: Spatiotemporal evolution of curve number (CN) and its variations in the Ichu River Basin (2017-2023)
Creator: Ivan Arturo Ayala Bizarro
Published: 2025-06-19
License: https://creativecommons.org/licenses/by/4.0/

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Published: 2025-06-19 • DOI registered: 2025-07-18

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Abstract:

This dataset presents the spatiotemporal evolution of the Curve Number (CN) in the experimental Ichu River basin, located in the central Peruvian Andes, from 2017 to 2023. CN maps were generated by integrating satellite data (Sentinel-2) and soil models (SoilGrid), applying the GPCN10 methodology for automated CN value assignment. Additionally, annual comparative analyses highlight variations in the basin's hydrological response, linked to both land-use changes and climate variability. The dataset includes graphical comparisons of CN differences between consecutive years (e.g., 2017 vs. 2018), revealing areas with significant changes in soil infiltration capacity. Furthermore, change class maps identify regions undergoing land degradation (due to urbanization or deforestation) and areas showing improvements in water retention, associated with conservation practices such as reforestation. These data provide a foundation for assessing the impact of land-use changes on surface runoff and contribute to sustainable water resource management strategies in the region.

This dataset contains the spatiotemporal evolution of Curve Number (CN) in the Ichu River Basin (2017–2023), including:

- Annual CN distribution maps at 10-meter resolution.

- Direct pixel-by-pixel CN differences between consecutive years.

- Change class maps identifying areas with significant land-use variations.

All data were derived using Sentinel-2 imagery, SoilGrid datasets, and the GPCN10 methodology. These datasets are intended to support hydrological modeling, land-use change assessments, and climate impact analysis in Andean watersheds.

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References cited in this dataset are related to the sources and methodologies applied during data processing. Specifically:

- Sentinel-2 10m Land Use/Land Cover Time Series (2022) provided land cover information used for CN classification.

- SoilGrids250m (Hengl et al., 2017) supplied soil property data essential for determining CN values.

- GCN250 dataset (Jaafar et al., 2019) served as a reference for hydrological curve number modeling.

These references supported the estimation of spatiotemporal CN variations but do not represent direct input datasets within the processed files.

References:

Sentinel-2 10m Land Use/Land Cover Time Series (2022). https://www.arcgis.com/home/item.html?id=cfcb7609de5f478eb7666240902d4d3d (Karra, Kontgis, et al. "Global land use/land cover with Sentinel-2 and deep learning." IGARSS 2021-2021 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2021.)

Hengl, Tomislav; Mendes de Jesus, Jorge; Heuvelink, Gerard B M; Gonzalez, Maria Ruiperez; Kilibarda, Milan; Blagotić, Aleksandar; Shangguan, Wei; Wright, Marvin N; Geng, Xiaoyuan; Bauer-Marschallinger, Bernhard; Guevara, Mario Antonio; Vargas, Rodrigo; MacMillan, Robert A; Batjes, Niels H; Leenaars, Johan G B; Ribeiro, Eloi; Wheeler, Ichsani; Mantel, Stephan; Kempen, Bas; Bond-Lamberty, Ben (2017): SoilGrids250m: Global gridded soil information based on machine learning. PLoS ONE, 12(2), e0169748, https://doi.org/10.1371/journal.pone.0169748

Jaafar, Hadi H; Ahmad, Farah A; El Beyrouthy, Naji (2019): GCN250, new global gridded curve numbers for hydrologic modeling and design. Scientific Data, 6(1), 145, https://doi.org/10.1038/s41597-019-0155-x

Karra, Kontgis; Kontgis, C; Statman-Weil, Z; Mazzariello, J C; Mathis, M; Brumby, Steven P (2021): Global land use / land cover with Sentinel 2 and deep learning. IEEE International Geoscience and Remote Sensing Symposium IGARSS, Brussels, Belgium, 2021, 4704-4707, https://doi.org/10.1109/IGARSS47720.2021.9553499

Coverage:

Median Latitude: -12.902200 * Median Longitude: -75.102750 * South-bound Latitude: -13.089400 * West-bound Longitude: -75.238400 * North-bound Latitude: -12.715000 * East-bound Longitude: -74.967100

Date/Time Start: 2017-01-01T00:00:00 * Date/Time End: 2023-12-31T00:00:00

Event(s):

Ichu_River_basin * Latitude Start: -13.089400 * Longitude Start: -75.238400 * Latitude End: -12.715000 * Longitude End: -74.967100 * Method/Device: Satellite remote sensing (SAT)

Comment:

Curve Number Distribution Maps (Map_CN_date.pdf):

These maps illustrate the spatial distribution of the Curve Number parameter in the experimental basin at a 10-meter resolution for the specified years (2017-2023). The Curve Number is a crucial parameter in hydrological modeling, influencing runoff estimation and soil infiltration capacity.

The dataset includes both the visual representations in PDF format and the corresponding GIS-compatible shapefile database (.shp, .dbf, .shx, .prj) for each year. These files allow users to:

Identify hydrologically sensitive areas.

Analyze the evolution of land cover changes (e.g., deforestation, reforestation, urbanization).

Compare CN trends across different hydrological periods.

These datasets are valuable for watershed management, climate change impact studies, and hydrological modeling applications.

Direct Pixel Differences (Map_dif_date.pdf):

These figures display the pixel-by-pixel differences in Curve Number values between two consecutive years, enabling the identification of areas that have undergone significant changes in their hydrological properties. The changes in CN values can be attributed to:

Deforestation and soil degradation (leading to an increase in runoff potential).

Urban expansion (modifying permeability and increasing impervious surfaces).

Reforestation or conservation practices (reducing runoff and increasing infiltration).

Alongside these visualizations, the dataset includes GIS-compatible shapefiles (.shp, .dbf, .shx, .prj) for each year, allowing users to conduct further spatial analyses, overlay additional environmental data, or integrate with other hydrological models.

These datasets provide a quantitative basis for evaluating the impact of land-use dynamics on the hydrological response of the basin, supporting decision-making processes in watershed conservation, flood risk assessment, and sustainable land management.

Change Class Maps (Map_change_class_date.pdf)

These figures represent the classification of changes in Curve Number (CN) values for the indicated periods (2017-2023). The classification includes categories such as High Decrease, Low Decrease, No Change, Low Increase, and High Increase, which highlight areas with significant variations due to land-use changes, soil degradation, conservation efforts, or urban expansion.

Additionally, the shapefile database (.shp, .dbf, .shx, .prj) for each year is provided, containing the geospatial representation of these classifications. This allows researchers to perform custom analyses, integrate the data into GIS platforms, and cross-reference with other hydrological or land-use datasets.

By analyzing these maps and shapefiles, researchers can assess the spatiotemporal trends in hydrological response and evaluate the impact of land management strategies on runoff generation.

Parameter(s):

#	Name	Short Name	Principal Investigator	Comment
1	DATE/TIME	Date/Time	Ayala Bizarro, Ivan Arturo	Geocode – Year
2	GIS file	GIS	Ayala Bizarro, Ivan Arturo
3	Documentation file	DOCS	Ayala Bizarro, Ivan Arturo	Curve Number Distribution Maps
4	Documentation file	DOCS	Ayala Bizarro, Ivan Arturo	Direct Pixel Differences
5	Documentation file	DOCS	Ayala Bizarro, Ivan Arturo	Change Class Maps

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Status:

Curation Level: Basic curation (CurationLevelB)

Size:

28 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

All files referred to in data matrix can be downloaded in one go as ZIP or TAR. Be careful: This download can be very large! To protect our systems from misuse, we require to sign up for an user account before downloading.

1 Date/Time (Year)	2 GIS	3 DOCS (Curve Number Distribution Maps)	4 DOCS (Direct Pixel Differences)	5 DOCS (Change Class Maps)
2017	CN_2017_Ichu.zip	Map_CN_2017.pdf
2018	CN_2018_Ichu.zip	Map_CN_2018.pdf	Map_dif_2018-2017.pdf	Map_change_class_2018-2017.pdf
2019	CN_2019_Ichu.zip	Map_CN_2019.pdf	Map_dif_2019-2018.pdf	Map_change_class_2019-2018.pdf
2020	CN_2020_Ichu.zip	Map_CN_2020.pdf	Map_dif_2020-2019.pdf	Map_change_class_2020-2019.pdf
2021	CN_2021_Ichu.zip	Map_CN_2021.pdf	Map_dif_2021-2020.pdf	Map_change_class_2021-2020.pdf
2022	CN_2022_Ichu.zip	Map_CN_2022.pdf	Map_dif_2022-2021.pdf	Map_change_class_2022-2021.pdf
2023	CN_2023_Ichu.zip	Map_CN_2023.pdf	Map_dif_2023-2022.pdf	Map_change_class_2023-2022.pdf
			Map_dif_2023-2017.pdf	Map_change_class_2023-2017.pdf