Climate Change and an Agronomic Journey from the Past to the Present for the Future: A Past Reference Investigation and Current Experiment (PRICE) Study
Author:
Min Hyunkyeong1, Lee Hyeon-Seok2, Lee Chun-Kuen2, Choi Woo-Jung34, Ha Bo-Keun45ORCID, Lee Hyeongju1, Shin Seo-Ho1, An Kyu-Nam1, Kim Dong-Kwan1, Kwon Oh-Do1, Ko Jonghan45ORCID, Cho Jaeil45ORCID, Kim Han-Yong45ORCID
Affiliation:
1. Crop Research Division, Jeonnam Agricultural Research and Extension Services, Naju 58213, Republic of Korea 2. National Institute of Crop Science, Rural Development Administration, Wanju 55365, Republic of Korea 3. Department of Rural and Bio-system Engineering, Chonnam National University, Gwangju 61186, Republic of Korea 4. AgriBio Institute of Climate Change Management, Chonnam National University, Gwangju 61186, Republic of Korea 5. Department of Applied Plant Sciences, Chonnam National University, Gwangju 61186, Republic of Korea
Abstract
According to numerous chamber and free-air CO2 enrichment (FACE) studies with artificially raised CO2 concentration and/or temperature, it appears that increasing atmospheric CO2 concentrations ([CO2]) stimulates crop yield. However, there is still controversy about the extent of the yield stimulation by elevating [CO2] and concern regarding the potential adverse effects when temperature rises concomitantly. Here, we tested the effects of natural elevated [CO2] (ca. 120 ppm above the ambient level in 100 years ago) and warming (ca. 1.7–3.2 °C above the ambient level 100 years ago) on rice growth and yield over three crop seasons via a past reference investigation and current experiment (PRICE) study. In 2020–2022, the rice cultivar Tamanishiki (Oryza sativa, ssp. japonica) was grown in Wagner’s pots (1/2000 a) at the experiment fields of Chonnam National University (35°10′ N, 126°53′ E), Gwangju, Korea, according to the pot trial methodology of the reference experiment conducted in 1920–1922. Elevated [CO2] and temperature over the last 100 years significantly stimulated plant height (13.4% on average), tiller number (11.5%), and shoot biomass (10.8%). In addition, elevated [CO2] and warming resulted in a marked acceleration of flowering phenology (6.8% or 5.1 days), potentially leading to adverse effects on tiller number and grain yield. While the harvest index exhibited a dramatic reduction (12.2%), grain yield remained unchanged with elevated [CO2] and warming over the last century. The response of these crop parameters to elevated [CO2] and warming was highly sensitive to sunshine duration during the period from transplanting to heading. Despite the pot-based observations, considering a piecewise response pattern of C3 crop productivity to [CO2] of <500 ppm, our observations demonstrate realistic responses of rice crops to elevated [CO2] (+120 ppm) and moderate warming (+1.7–3.2 °C) in the absence of adaptation measures (e.g., cultivars and agronomic management practices). Hence, our results suggest that the PRICE platform may provide a promising way to better understand and forecast the net impact of climate change on major crops that have historical and experimental archived data, like rice, wheat, and soybean.
Funder
Rural Development Administration, Korea
Subject
Agronomy and Crop Science
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