In recent years, China’s soybean planting area has been expanding continuously. However, soybean farming faces various challenges, one of which is how to improve nitrogen fixation efficiency. It is important to study the effect of different mechanical treatments on
nitrogen fixation efficiency of soybean root nodules. The nitrogen fixation efficiency of soybean seed after milling and ultrasonic treatment
was observed. The experimental results showed that the nitrogen fixation efficiency of soybean root nodules was significantly improved after
mechanical treatment. Further analysis showed that mechanical treatment changed the shape and internal structure of soybean root nodules,
increased the contact area between root nodules and air, and promoted the growth of nitrogen-fixing bacteria. It is concluded that mechanical
treatment has an important effect on nitrogen fixation efficiency of soybean root nodules. The research results have important theoretical and
practical significance for improving the nitrogen fixation efficiency of soybean, and provide scientific basis for the sustainable development
of soybean industry.

Soybean; Nodulation; Nitrogen Fixation; Mechanical Processing; Efficiency

[1] Luan Jian, Zhang Bin, Hu Yu. The development trend, policy evolution and trend outlook of soybean industry in China [J]. Agricultural Outlook. 2022,18 (08) : 35-41.

[2] Zhu Wenbo, Han Xinru, Wen Jinshang. Potential, path and Challenge of self-sufficiency in soybean production in China [J]. Journal

of South China Normal University (Social Science Edition). 2022(03) : 122-135+207.

[3] SI W, Han T F. Potential and realization path of soybean increase in China during the 14th Five-Year Plan period [J]. Agricultural

economic Issues. 2021(07) : 17-24.

[4] Zou Shi, Yan Jun, Han Xiaozeng, Zou Wenxiu, Chen Xu, Lu Xinchun. Effects of nitrogen fertilizer on nodule fixation, grain yield

and protein content of soybean [J]. Plant Nutrition and Fertilizer Journal, 2022,28(08) : 1457-1465.

[5] Xu Chu, Liu Xingyu, Wang Enhe, Yu Yue, Xue Fuying. Mechanism of nitrogen fixation in soybean root nodules [J]. Agricultural

Development and Equipment. 2022(04): 127-128.

[6] Wang Xiaoli, Wang Min, Yue Aiqin, Guo Sujin, Wang Peng, Wang Lixiang, Yang Tingting, Zhang Haisheng, Zhang Yongpo, Gao

Chunyan, Zhang Wuxia, Niu Jingping, Du Weijun, Zhao Jinzhong. Effects of nitrogen nutrition and rhizobium inoculation on nodule fixation

and growth of soybean [J]. Journal of North China Agronomy, 202, 37(01) : 95-102.

[7] Li Yanping, Zhang Min, Yuan Mei, Chen Jinyi, Deng Zuke, Yang Shenghui, Chen Wenhao, Chen Wenfeng. Effects of rhizobium

and complex growth promoting bacteria on nodulation and growth of soybean [J]. Soybean Science, 2017,36(04) : 583-591.

[8] Zhang Bowen, Gao Shan, Wang Lingyu, Wang Yishang. Systemic effects of nitrogen supply level on nodule fixation of soybean [J].

Rural Science and Technology. 201,12(34) : 53-55.

[9] Nodulation and biological nitrogen fixation in soybean (Glycine max L.) as influenced by phosphorus fertilization and arbuscular

mycorrhizal inoculation.Acta Universitatis Sapientiae: Agriculture and Environment,2020,12:22 - 44.

[10] T. Sugimoto, Naoki Yamamoto, T. Masumura.Nitrogen Fixation in Soybean Nodules Affects Seed Protein and Oil Contents: The

Suggested Mechanism from the Coordinated Changes of Seed Chemical Compositions and Phosphoenolpyruvate Carboxylase Activity

Caused by Different Types of Nitrogen Fertilizer.2021.

[11] Foliar Application with Iron Oxide Nanomaterials Stimulate Nitrogen Fixation, Yield, and Nutritional Quality of Soybean..ACS

Nano, 2022.