Your search keyword '"Song, Zhiwen"' showing total 5 results

1. The effect of nitrogen and water management on the yield and endogenous hormone levels of drip‐irrigated rice

Author

Zhao, Lei, Wang, Guodong, Luo, Honghai, Tang, Qingyun, Song, Zhiwen, and Li, Yuxiang

Abstract

Improving the management of water and fertilizers is an effective method for enhancing the seed‐setting performance of rice. This study aimed to explore the regulation of optimized water and nitrogen management on the root–leaf hormone balance and seed‐setting performance of drip‐irrigated rice. In a 2‐year field experiment, T‐43 (a drought‐resistant cultivar) and LX‐3 (a drought‐sensitive cultivar) were cultivated under two drip irrigation treatments (W1, limited, and W2, deficit) and three nitrogen fertilization treatments (N1, seedling:tillering:panicle:grain‐filling, 30%:50%:13%:7%; N2, 20%:40%:30%:10%; and N3, 10%:30%:40%:20%). Compared with other treatments, the W1N2treatment increased the seed‐setting rate and grain biomass accumulation (2.7%–9.2% and 4.5%–69.8%) of the two cultivars on the basis of producing a higher effective panicle number, and T‐43 had a much higher seed‐setting rate and yield than LX‐3 (6.8%–14.6%). Increased fertilizer applications at the panicle and grain‐filling stages (N2) enhanced the root oxidation activity (ROA) and the zeatin+zeatin riboside (Z + ZR) and gibberellic acid (GA3) contents in the roots in the 0–10 cm layer and in the leaves from the heading stage to 20 days after heading. The grain biomass accumulation of T‐43 was significantly positively correlated with abscisic acid (ABA) and Z + ZR in the roots and leaves, while the grain biomass accumulation of LX‐3 was significantly positively correlated with auxin, ABA, Z + ZR/ABA, and GA3/ABA in the roots in the 10–20 cm layer. Overall, W1N2promoted grain biomass accumulation by modulating the Z + ZR and ABA balance in roots and leaves, improved the root–shoot ratio, and enhanced ROA, thereby improving the seed‐setting performance of drip‐irrigated T‐43 rice. Optimized water and nitrogen management improved seed‐setting rate on the basis of higher effective panicles.Increasing panicle and grain fertilizer enhanced the hormone content and root activity in 0–10 cm.The balance of the hormone content in roots and leaves promoted the transport of assimilates to grain.

Published

2023

2. Xiong'an Railway Station: A Supersized Railway Station in a High Seismic Intensity Zone

Author

Fan, Zhong, Song, Zhiwen, Zhang, Yu, Liu, Ming, and Zhu, Dan

Abstract

AbstractXiong'an Railway Station is the first super-large elevated railway station located in a high seismic intensity zone. A reinforced concrete frame structural system is adopted for the rail-bearing floor and the lower floors, while a steel structural system is adopted for the large-span roof. H-shaped steel frame beams are adopted for the elevated waiting hall, while double flange H-shaped steel beams are adopted in areas subject to great forces. Plane trusses are arranged bidirectionally between the frame beams to facilitate the laying and maintenance of equipment pipelines. The main span of the elevated waiting hall is 78 m, and variable-height box beams are adopted. The platform canopies are supported by specially shaped steel pipe columns, and the roof frame beams are connected to the tops of columns through spherical bearings. Structural innovations have been carried out in terms of semi-embedded column bases, stepped wall thickness steel pipe columns with special section shapes, large-span stiffened thin-walled box beams, and bidirectional large displacement bearings.

Published

2022

3. Improved Effect of Fe on the Stable NiFe/Al2O3Catalyst in Low-Temperature Dry Reforming of Methane

Author

Song, Zhiwen, Wang, Qianqian, Guo, Chao, Li, Sha, Yan, Wenjun, Jiao, Weiyong, Qiu, Li, Yan, Xiaoliang, and Li, Ruifeng

Abstract

Bimetallic catalysts with alloy structure have been extensively explored to tailor and boost the catalytic performance of the dry reforming of methane. Herein, NiFe/Al2O3catalyst was designed from an aluminum gel with metal nitrate in a triblock copolymer solution by an evaporation-induced self-assembly process and calcination for the low-temperature dry reforming of methane (LT-DRM). The resultant NiFe/Al2O3exhibited a large surface area of 203 m2g–1and porosity of 0.8 cm3g–1. Bimetallic NiFe/Al2O3promoted CH4and CO2conversion as well as the H2/CO ratio relative to monometallic Ni/Al2O3. CH4and CO2conversion on the NiFe/Al2O3was 26.6 and 37.8% with a H2/CO ratio of 0.67 at 550 °C. Furthermore, NiFe/Al2O3possessed good stability at 450 °C during LT-DRM reaction for 20 h. The Ni3Fe alloy structure is favorable for the resistance of oxidation and coke deposition. This work sheds light on the sophisticated design of the alloy structure of the bimetallic catalyst for efficient and stable catalytic performances.

Published

2020

4. Response of yield, root traits and plasticity of nitrogen-efficient cultivars of drip-irrigated rice to a nitrogen environment

Author

Tang, Qingyun, Wang, Guodong, Zhao, Lei, Song, Zhiwen, and Li, Yuxiang

Abstract

The response of drip-irrigated rice physiological traits to water and fertilisers has been widely studied. However, the responses of yield, root traits and their plasticity to the nitrogen environment in different nitrogen-efficient cultivars are not fully understood. An experiment was conducted from 2020-2022 with high nitrogen efficient (high-NUE) cultivars (T-43) and low-NUE cultivars (LX-3), and four nitrogen levels (0, 150, 300, and 450 kg ha-1) under drip irrigation in large fields were used. The aim was to study the relationship between root morphology, conformation, biomass, and endogenous hormone content and yield and nitrogen use efficiency. The results showed the following: 1) Under the same N application rate, compared with LX-3, T-43’s yield, N partial factor productivity (PFP), fine root length density (FRLD), shoot dry weight (SDW), root indole-3-acetic acid (IAA), and root zeatin and zeatin riboside (Z+ZR) were significantly increased by 11.4-18.9%, 11.3-13.5%, 11.6-15.7%, 9.9-31.1%, 6.1-48.1%, and 22.8-73.6%, respectively, while the root-shoot ratio (RSR) and root abscisic acid (ABA) were significantly decreased (P<0.05). 2) Nitrogen significantly increased rice root morphological indexes and endogenous hormone contents (P<0.05). Compared to N0, yield, root length density (RLD), surface area density (SAD), Root volume density (RVD), and root endogenous hormones (IAA, Z+ZR) were significantly increased in the 2 cultivars under N2 by 61.6-71.6%, 64.2-74.0%, 69.9-105.6%, 6.67-9.91%, 54.0-67.8%, and 51.4-58.9%, respectively. Compared with N3, the PFP and N agronomic efficiency (NAE) of nitrogen fertiliser under N2 increased by 52.3-62.4% and 39.2-63.0%, respectively. 3) The response of root trait plasticity to the N environment significantly differed (P<0.05). Compared with LX-3, T-43 showed a longer root length and larger specific surface area, which is a strategy for adapting to changes in the nutrient environment. For rice cultivars with high-NUE, the root-shoot ratio was optimised by increasing the FRLD, root distribution in upper soil layers, and root endogenous hormones (IAA, Z+ZR) under suitable nitrogen conditions (N2). An efficient nutrient acquisition strategy can occur through root plasticity, leading to increased yield and NUE.

Published

2023

5. 207 Satellite Cells Participate in the wnt/ca2+ Pathway Controlled Porcine Myofiber Determination

Author

Ye, Mao, Song, Zhiwen, Jin, Chenglong, Gao, Chunqi, Yan, Huichao, and Wang, Xiu-qi

Abstract

The type of myofiber is important for porcine meat quality. Meanwhile, the nt/Ca2+pathway has been showed multiple roles in skeletal muscle formation; however, the distinct mechanism is still unclear. In this study, the weaned piglets and satellite cells were designed into the control group, lysine deficiency group and lysine rescue group to investigate the function of Wnt/Ca2+pathway in governing skeletal muscle typing. After we confirm the growth of weaned piglets was controlled by lysine, the isobaric tag for relative and absolute quantification (iTRAQ) analysis of skeletal muscle detected that Wnt/Ca2+pathway was involved in the transition of fast and slow fiber. Then, we found the ratio of type I myofiber in Semimembranous (fast muscle) was significantly increased after lysine deficiency (P < 0.05), and decreased by lysine rescue (P < 0.05). In contrast, the ratio of type I myofiber in Semitendinous muscle (slow muscle) was significantly decreased in the lysine deficiency group, and increased in the lysine rescue group (P < 0.05). Furthermore, the Wnt/Ca2+pathway was significantly increased in Semimembranous muscle, while decreased in Semitendinous muscle with lysine deficiency, and this phenomenon was inversed after lysine rescue (P < 0.05). Meanwhile, the Wnt/Ca2+pathway was stronger in satellite cells isolated from Semitendinous muscle (StSCs) than that of Semimembranous satellite cell (SmSCs) (P < 0.05). And we also found the StSCs enter in differentiation is more easily than SmSCs (P < 0.05). Besides, the ratio of type I myofiber originated from StSCs showed greater than StSCs (P < 0.05). In summary, we conclude that satellite cells participate in the Wnt/Ca2+pathway controlled porcine myofiber determination.

Published

2021