Elevated CO2 and temperature under future climate change increase severity of rice sheath blight

Min Shen; Chuang Cai; Lian Song; Jiangbo Qiu; Chuanqi Ma; Dongming Wang; Xinyue Gu; Xiong Yang; Wei Wei; Ye Tao; Jishuang Zhang; Gang Liu; Chunwu Zhu

doi:10.3389/fpls.2023.1115614

Elevated CO₂ and temperature under future climate change increase severity of rice sheath blight

Front Plant Sci. 2023 Jan 26:14:1115614. doi: 10.3389/fpls.2023.1115614. eCollection 2023.

Authors

Min Shen^{1

2}, Chuang Cai¹, Lian Song¹, Jiangbo Qiu³, Chuanqi Ma^{1

2}, Dongming Wang^{1

2}, Xinyue Gu^{1

2}, Xiong Yang^{1

2}, Wei Wei^{1

2}, Ye Tao^{1

2}, Jishuang Zhang^{1

2}, Gang Liu¹, Chunwu Zhu¹

Affiliations

¹ State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China.
² University of Chinese Academy of Sciences, Beijing, China.
³ School of Environmental and Civil Engineering, Jiangnan University, Wuxi, China.

Abstract

Sheath blight (ShB), caused by Rhizoctonia solani, is one of the major threats to rice (Oryza sativa L.) production. However, it is not clear how the risk of rice ShB will respond to elevated CO₂ and temperature under future climate change. Here, we conducted, field experiments of inoculated R. solani under combinations of two CO₂ levels (ambient and enriched up to 590 μmol mol^-1) and two temperature levels (ambient and increased by 2.0°C) in temperature by free-air CO₂ enrichment (T-FACE) system for two cultivars (a susceptible cultivar, Lemont and a resistant cultivar, YSBR1). Results indicate that for the inoculation of plants with R. solani, the vertical length of ShB lesions for cv. Lemont was significantly longer than that for cv. YSBR1 under four CO₂ and temperature treatments. The vertical length of ShB lesions was significantly increased by elevated temperature, but not by elevated CO₂, for both cultivars. The vertical length of ShB lesions under the combination of elevated CO₂ and elevated temperature was increased by 21-38% for cv. Lemont and by -1-6% for cv. YSBR1. A significant increase in MDA level was related to a significant increase in the vertical length of ShB lesions under the combination of elevated CO₂ and elevated temperature. Elevated CO₂ could not compensate for the negative effect of elevated temperature on yield of both cultivars under future climate change. Rice yield and biomass were further decreased by 2.0-2.5% and 2.9-4.2% by an increase in the severity of ShB under the combination of elevated CO₂ and elevated temperature. Thus, reasonable agronomic management practices are required to improve both resistance to ShB disease and grain yield for rice under future climate change.

Keywords: Oryza sativa L.; Rhizoctonia solani; T-FACE; elevated temperature; free-air CO2 enrichment; sheath blight; yield.

Grants and funding

This research was supported by Key-Area Research and Development Program of Guangdong Province, China (No. 2020B0202010006), “0-1” original innovation project of the Chinese Academy of Sciences (ZDBS-LY-DQC020), Carbon Neutral special fund for Scientific and Technological Innovation of Jiangsu Province (BM2022002), Carbon Peaking and Carbon Neutrality Special Fund for Science and Technology from Nanjing Science and Technology Bureau (20221103), Key Research and Development Program of Jiangsu Province (BE2022308), National Natural Science Foundation of China (32001191), National Natural Science Foundation of China (32171591).