Temperature and elevated CO alter soybean seed yield and quality, exhibiting transgenerational effects on seedling emergence and vigor
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
INTRODUCTION: Environmental conditions play a prime role in the growth and development of plant species, exerting a significant influence on their reproductive capacity. Soybean is sensitive to high temperatures during flowering and seed developmental stages. Little is known about the combined environmental effect of temperature and CO on seed yield and quality and its future generation. METHODS: A study was conducted to examine the effect of temperature (22/14°C (low), 30/22°C (optimum), and 38/30°C (high)), and CO (420 ppm (ambient; aCO) and 720 ppm (elevated; eCO)) on seed yield, quality, and transgenerational seedling vigor traits of soybean cultivars (DS25-1 and DS31-243) using Soil-Plant-Atmospheric-Research facility. RESULTS: A significant temperature effect was recorded among yield and quality attributes. At high-temperature, the 100-seed weights of DS25-1 and DS31-243 declined by 40% and 24%, respectively, over the optimum temperature at aCO. The harvest index of varieties reduced by 70% when exposed to high temperature under both aCO2 and eCO, compared to the optimum temperature at aCO. The seed oil (- 2%) and protein (8%) content altered when developed under high temperature under aCO. Maximum sucrose (7.5%) and stachyose (3.8%) accumulation in seeds were observed when developed under low temperatures and eCO. When the growing temperature increased from optimum to high, the seed oleic acids increased (63%), while linoleic and linolenic acids decreased (- 28% and - 43%, respectively). Significant temperature and CO effects were observed in progenies with the highest maximum seedling emergence (80%), lesser time to 50% emergence (5.5 days), and higher seedling vigor from parents grown at low-temperature treatment under eCO. DISCUSSION: Exposure of plants to 38/30°C was detrimental to soybean seed yield, and eCO levels did not compensate for this yield loss. The high temperature during seed developmental stages altered the chemical composition of the seed, leading to an increased content of monounsaturated fatty acids. The findings suggest that parental stress can significantly impact the development of offspring, indicating that epigenetic regulation or memory repose may be at play.
Publication Date
1-1-2024
Publication Title
Frontiers in Plant Science
Publisher
Frontiers Media
First Page
1427086
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Thenveettil N, Bheemanahalli R, Reddy KN, Gao W and Reddy KR (2024) Temperature and elevated CO2 alter soybean seed yield and quality, exhibiting transgenerational effects on seedling emergence and vigor. Front. Plant Sci. 15:1427086. doi: 10.3389/fpls.2024.1427086
