Drought and high nighttime temperature impact on soybean seed yield and quality under ambient and elevated CO environments

Authors

Naflath Thenveettil, Mississippi State University
Raju Bheemanahalli, Mississippi State University
Tulsi P. Kharel, USDA Agricultural Research Service
Krishna N. Reddy, USDA Agricultural Research Service
Wei Gao, Colorado State University
K Raja Reddy, Mississippi State University

ORCID

Bheemanahalli: https://orcid.org/0000-0002-9325-4901

MSU Affiliation

College of Agriculture and Life Sciences; Department of Plant and Soil Sciences

Creation Date

2025-11-19

Abstract

The increasing prevalence of abiotic stresses, including high nighttime temperatures (HNT) and drought during the reproductive stage, poses a risk to global soybean production. Additionally, the influence of rising atmospheric CO2 levels must be considered when addressing changes in temperature and drought conditions. In this study, two soybean genotypes, DS25-1 and DS31-243, were grown under control (0.15 m³ m^–3 volumetric soil moisture content (VWC) and 30/22 °C day/night temperature), HNT (30/26 °C day/night temperature), and drought (0.08 m³ m^–3 VWC) conditions at ambient (425 ppm, aCO2) and elevated (725 ppm, eCO2) CO2 concentrations in sunlit plant growth chambers during flowering and pod development stages. The plants exposed to eCO2 under control and drought conditions showed increased photosynthesis (DS25-1: 55 and 142%, and DS31-243: 77 and 61%) and non-photochemical quenching (DS25-1: 98 and 57%, and DS31-243: 67 and 126%) compared to aCO2. On average, the pods and seed numbers increased by 60% and 59%, respectively, under HNT and eCO2 compared to HNT and aCO2. In contrast, the drought decreased pods and seeds by 43% across genotypes and CO2 environments. This has resulted in a reduction in seed yield by 62% and 56% in DS25-1 and DS31-243, respectively, under drought conditions compared to the control. Under aCO2, the seed yield of DS31-243 was reduced by 42% under HNT compared to the control. The seed protein content was reduced under eCO2, while other treatments did not influence its content. The seed carbohydrate content decreased under the HNT condition, while the drought and eCO2 did not influence its production. The stress conditions during seed development resulted in reduced polyunsaturation, while the oleic acid content increased. The study highlighted the positive impacts of eCO2 on physiology and yield.

Publication Date

12-1-2025

Publication Title

Scientific Reports

Publisher

Nature Research

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

Thenveettil, N., Bheemanahalli, R., Kharel, T.P. et al. Drought and high nighttime temperature impact on soybean seed yield and quality under ambient and elevated CO2 environments. Sci Rep 15, 36679 (2025). https://doi.org/10.1038/s41598-025-20392-0