Research on Green High-yield Cultivation Techniques of Rice and Their Application
Download PDF

Keywords

Rice
Green high yield
Cultivation techniques
Application research

DOI

10.26689/ssr.v8i6.15413

Submitted : 2026-06-15
Accepted : 2026-06-30
Published : 2026-07-15

Abstract

Rice is one of the major food crops in China, undertaking the important mission of safeguarding national food security and meeting people’s dietary needs. Its yield and quality directly affect the sustainable development of agriculture. With the continuous improvement of people’s living standards, the demand for green, safe, and high-quality rice is growing day by day. The traditional rice cultivation mode is plagued by low resource utilization efficiency, environmental pollution, and unstable yield, which can no longer adapt to the requirements of agricultural development in the new era. As a new cultivation mode that balances yield, quality, and ecological benefits, green high-yield rice cultivation techniques can realize the greening, high yield, and high quality of rice production through scientific planting management, ecological prevention and control, and efficient resource utilization. It is also an important way to promote the high-quality development of the rice industry. Based on the reality of rice planting and combined with the current agricultural development trend, this paper analyzes the application status of green high-yield rice cultivation techniques, expounds their application significance, and explores feasible application paths, aiming to provide a theoretical reference and practical basis for the popularization of green high-yield rice cultivation techniques, and help China’s rice industry achieve quality improvement, efficiency increase and green development.

References

Huang SL, 2025, Research Progress and Integration Path of Green High-yield Rice Cultivation Technology in Southern China. Jiangxi Agriculture, 2025(22): 100–102.

Fu ML, 2025, Analysis on the Application of Green High-yield Rice Cultivation and Pest Prevention and Control Technology—Taking Taoyuan County of Hunan Province as an Example. Hebei Agriculture, 2025(9): 79–80.

Wei ZL, Guo MK, 2025, High-quality Green Rice Cultivation Technology and Its Application in Fengshan County. Rural Scientific Experiment, 2025(12): 91–93.

Zhu YW, 2025, Key Points Analysis of Green Pollution-free High-yield Rice Cultivation Technology. Seed Science and Technology, 43(11): 81–83.

Wu RT, 2025, Analysis of High-yield Rice Cultivation Technology and Green Pest Prevention and Control Measures. Grain and Oil Feed Science and Technology, 2025(8): 79–81.

Yao Y, 2025, High-yield Rice Cultivation and Pest Control Technology. Seed Science and Technology, 43(7): 170–172.

Zha XX, 2024, Overview on Scientific Application and Refined Green Management Methods of High-yield Rice Cultivation Technology. Seed World, 2024(11): 78–80.

Li ZR, Li Y, 2024, Key Points of Green High-yield and Efficient Integrated Rice Cultivation Technology. Seed Science and Technology, 42(20): 67–69.

Yang GJ, Tan DM, Liu TM, 2024, High-yield and Efficient Rice Cultivation Technology and Its Popularization. Tillage and Cultivation, 44(4): 149–151.

Li P, Liu WP, Guo F, et al., 2024, High-quality Green High-yield Rice Cultivation Technology and Its Popularization. Seed Science and Technology, 42(6): 115–118.

Qin YL, 2024, Key Points of High-yield Rice Cultivation Technology. Agricultural Technology & Equipment, 2024(2):171–173.

Yang YJ, Gao BY, 2024, Application of Green High-yield and Efficient Rice Cultivation Technology in Grassroots Agricultural Technology Popularization. Seed Science and Technology, 42(2): 137–139.

Wen S, 2023, Discussion on Green High-yield Rice Cultivation Technology. Agricultural Technology & Equipment, 2023(12): 166–168.

Cai WN, Yu HY, Bi CS, et al., 2023, Research on Key Green High-yield Rice Cultivation Technologies. Seed Science and Technology, 41(19): 45–47.

Xiang JQ, 2023, Green High-yield Rice Cultivation Technology and Its Popularization. Seed Science and Technology, 41(12): 91–93.