Linking drought indicators and crop yields through causality and information transfer: a phenology-based analysis

Serhan Yeşilköy; Özlem Baydaroğlu; Ibrahim Demir

doi:10.1038/s41598-025-32185-6

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Linking drought indicators and crop yields through causality and information transfer: a phenology-based analysis

Journal article

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Linking drought indicators and crop yields through causality and information transfer: a phenology-based analysis

Serhan Yeşilköy, Özlem Baydaroğlu and Ibrahim Demir

Scientific reports, Vol.16(1), 2373

2026

DOI: 10.1038/s41598-025-32185-6

PMCID: PMC12815905

PMID: 41484415

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https://doi.org/10.1038/s41598-025-32185-6View

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Abstract

Drought indicators are essential for agricultural sustainability. This research employs causal inference and information theory to identify the most representative drought indicator (index or variable) for agricultural productivity. The causal connection between precipitation, maximum air temperature, drought indices and corn and soybean yield are ascertained by cross convergent mapping (CCM), while the information transfer between them is determined through transfer entropy (TE). This research is conducted on rainfed agricultural lands in Iowa, considering the phenological stages of crops. The results uncover both the causal connection between corn yield and precipitation and maximum temperature indices. Based on the analysis, the drought indices with the strongest causal relationship to crop production are SPEI-9 m and SPI-6 m during the silking period, and SPI-9 m and SPI-6 m during the doughing period. Therefore, these indices may be considered as the most effective predictors in crop yield prediction models. The study highlights the need to consider phenological periods when estimating crop production, as the causal relationship between corn yield and drought indices differs for the two phenological periods.

Cross convergent mapping

Iowa

Phenology

Causality

Drought

Transfer entropy

Crop yield

Details

Title: Subtitle: Linking drought indicators and crop yields through causality and information transfer: a phenology-based analysis
Creators: Serhan Yeşilköy - University of Colorado Boulder
Özlem Baydaroğlu - National Academies of Sciences, Engineering, and Medicine
Ibrahim Demir - Tulane University
Resource Type: Journal article
Publication Details: Scientific reports, Vol.16(1), 2373
DOI: 10.1038/s41598-025-32185-6
PMID: 41484415
PMCID: PMC12815905
NLM abbreviation: Sci Rep
ISSN: 2045-2322
eISSN: 2045-2322
Publisher: Springer Nature; BERLIN
Grant note: University of Iowa Interdisciplinary Scalable Solutions for a Sustainable Future Project under the grant title "Watershed-Level Multicriteria Quantification of Agricultural Sustainability for Iowa
The funding for this study was provided by the University of Iowa Interdisciplinary Scalable Solutions for a Sustainable Future Project under the grant title "Watershed-Level Multicriteria Quantification of Agricultural Sustainability for Iowa".
Language: English
Electronic publication date: 01/03/2026
Date published: 2026
Academic Unit: Electrical and Computer Engineering; Civil and Environmental Engineering; Injury Prevention Research Center
Record Identifier: 9985121483402771

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