Your search keyword '"Mo, Zhaowen"' showing total 16 results

1. Effects of Nitrogen and Shading on Root Morphologies, Nutrient Accumulation, and Photosynthetic Parameters in Different Rice Genotypes.

Author

Pan S, Liu H, Mo Z, Patterson B, Duan M, Tian H, Hu S, and Tang X

Subjects

Genotype, Light, Oryza physiology, Phosphorus metabolism, Photosynthesis, Plant Leaves physiology, Potassium metabolism, Seeds growth & development, Nitrogen metabolism, Oryza genetics, Plant Roots physiology

Abstract

Nitrogen availability and illumination intensity are two key factors which affect rice growth. However, their influences on total nitrogen accumulation, photosynthetic rate, root morphologies, and yields are not fully understood. We conducted two field experiments to (1) evaluate the effects of shading under different N treatments on photosynthetic parameters, root morphologies, total nutrient accumulation, and grain yields of rice; and (2) elucidate the relationship between total nutrient accumulation and root morphologies under different shading conditions and nitrogen treatments. Three nitrogen rates, three shading treatments, and three different rice cultivars were used in two field experiments. Double shading during the grain-filling stage decreased total nutrient accumulation, altered root morphological characteristics, and decreased yields in rice. There were also significant interaction effects between nitrogen and shading on photosynthetic rate, transpiration rate, and total root length, root superficial area, and root volume. Significant interactions were found among cultivars and shading for photosynthetic rate and transpiration rate. Correlation analysis revealed that total nitrogen accumulation (TNA) and potassium accumulation (TKA) were significantly positively correlated with total root length, root superficial area, and root volume. N application could alleviate the detrimental effects of shading on total nutrient accumulation and grain yield in rice.

Published

2016

2. Regulation of Growth and Physiological Properties of Fragrant Rice Seedlings by Hydrogen-Rich Water (HRW) Under Nitrogen-Deficient Conditions

Author

Jiang, Ye, Ye, Qiuyi, Ma, Lin, Yang, Xiaojuan, Zhang, Jianwen, and Mo, Zhaowen

Published

2023

3. Nitrogen modulates early growth and physio-biochemical attributes in fragrant rice grown under cadmium and multiwall carbon nanotubes stresses

Author

Qing, Bowen, Jiang, Ye, Chen, Yongjian, Chen, Jiale, Xie, Huijia, and Mo, Zhaowen

Published

2022

4. Additional Nitrogen Application Under Different Water Regimes at Tillering Stage Enhanced Rice Yield and 2-Acetyl-1-Pyrroline (2AP) Content in Fragrant Rice

Author

Li, Yanhong, Mo, Zhaowen, Li, Yuzhan, Nie, Jun, Kong, Leilei, Ashraf, Umair, Pan, Shenggang, Duan, Meiyang, Tian, Hua, and Tang, Xiangru

Published

2022

5. Nitrogen and α-Ketoglutaric Acid Application Modulate Grain Yield, Aroma, Nutrient Uptake and Physiological Attributes in Fragrant Rice

Author

Fu, Xiaomeng, Gui, Runfei, Li, Wu, Gao, Zifeng, Ashraf, Umair, Tan, Jiangtao, Ye, Qiuyi, Chen, Jiale, Xie, Huijia, and Mo, Zhaowen

Published

2021

6. Melatonin and Nitrogen Applications Modulate Early Growth and Related Physio-biochemical Attributes in Maize Under Cd Stress

Author

Ma, Lin, Huang, Zhuoli, Li, Shuying, Ashraf, Umair, Yang, Wenjing, Liu, Hecheng, Xu, Daitianshu, Li, Wu, and Mo, Zhaowen

Published

2021

7. Nitrogen Regulates the Grain Yield, Antioxidant Attributes, and Nitrogen Metabolism in Fragrant Rice Grown Under Lead-Contaminated Soil

Author

Feng, Huoyi, Li, Yuzhan, Yan, Yangfan, Wei, Xinhang, Yang, Yihan, Zhang, Long, Ma, Lin, Li, Wu, Tang, Xiangru, and Mo, Zhaowen

Published

2020

8. γ-Aminobutyric Acid Regulates Grain Yield Formation in Different Fragrant Rice Genotypes Under Different Nitrogen Levels

Author

Li, Yuzhan, Lai, Rifang, Li, Wu, Liu, Jiaqi, Huang, Mingzhi, Tang, Yijing, Tang, Xiangru, Pan, Shenggang, Duan, Meiyang, Tian, Hua, Wu, Longmei, Wang, Shuli, and Mo, Zhaowen

Published

2020

9. Nitrogen application and different water regimes at booting stage improved yield and 2-acetyl-1-pyrroline (2AP) formation in fragrant rice

Author

Mo, Zhaowen, Li, Yanhong, Nie, Jun, He, Longxin, Pan, Shenggang, Duan, Meiyang, Tian, Hua, Xiao, Lizhong, Zhong, Keyou, and Tang, Xiangru

Published

2019

10. Effects of Different Tillage and Fertilization Methods on the Yield and Nitrogen Leaching of Fragrant Rice.

Author

Qiu, Xinfeng, Zhang, Xuechan, Mo, Zhaowen, Pan, Shenggang, Tian, Hua, Duan, Meiyang, and Tang, Xiangru

Subjects

NO-tillage, TILLAGE, LEACHING, CONSERVATION tillage, SOIL ripping, RICE, NITROGEN

Abstract

Conservation tillage and deep-side fertilization both hold the potential to reduce nitrogen leaching and improve grain yield and nitrogen use efficiency in fragrant rice cultivation practices. However, the combined impact of different tillage practices with deep-side fertilization on nitrogen leaching remains uncertain. Therefore, this study conducted on-site experiments for four rice-growing seasons in both early and late seasons in 2018 and 2019 using the fragrant rice varieties "Meixiangzhan 2" (MX) and "Xiangyaxiangzhan" (XY). The four experimental treatments included the following: conventional tillage with regular fertilization (T1), conventional tillage with simultaneous deep fertilization (T2), reduced tillage with simultaneous deep fertilization (T3), and no-tillage with simultaneous deep fertilization (T4). Our results indicate that the T4 treatment exhibited higher nitrogen leaching rates and potential nitrogen losses throughout the entire rice growth cycle, with a 4.51% increase in total mineral nitrogen leaching (TMNL) and a 1.86% increase in potential nitrogen leaching compared to T1 treatment. In contrast, the T2 treatment demonstrated the lowest nitrogen leaching rate, resulting in a 6.01% reduction in TMNL and a 9.57% decrease in potential nitrogen leaching compared to T1, demonstrating the most optimal performance. It is important to note that a reduction in nitrogen leaching does not directly translate into an increase in rice yield. Our study involved the cultivation of two fragrant rice varieties, 'Meixiangzhan2' (MX) and 'Xiangyaxiangzhan' (XY), and the results revealed some interesting insights. For MX, the T1 treatment resulted in lower daily grain outputs compared to the other treatments, with disparities ranging from 5.35% to 9.94%. Similarly, for XY, the T1 treatment yielded significantly lower daily grain outputs compared to the other treatments, with discrepancies ranging from 6.26% to 10.81% during the late season of 2019. Therefore, this study suggests that conventional tillage combined with deep fertilizer application can be considered as an effective agricultural strategy to reduce nitrogen leaching and enhance fragrant rice yields. [ABSTRACT FROM AUTHOR]

Published

2023

11. Nitrogen Modulates Grain Yield, Nitrogen Metabolism, and Antioxidant Response in Different Rice Genotypes.

Author

Liao, Gaoxin, Yang, Yihan, Xiao, Wuming, and Mo, Zhaowen

Subjects

GRAIN yields, GENOTYPES, NITROGEN, METABOLISM, ANTIOXIDANTS

Abstract

To provide a theoretical basis for further research on improving nitrogen absorption and utilization efficiency, in this study we investigated the effects of nitrogen fertilization on the yield, nitrogen metabolism, and antioxidant response of different rice genotypes. A pot experiment was conducted with three different rice genotypes (NIL-7, NIL-8, and 02428) grown under two different nitrogen application levels (HN, 1.88 g N/10 kg soil, and LN, 0.94 g N/10 kg soil). The grain yield, growth, antioxidant attributes, and N metabolism of different rice genotypes were assessed. We found that HN treatment significantly improved effective panicles per pot, total dry weight, and yield, but reduced harvest index of NIL-7, NIL-8, and 02428 compared with LN treatment. Compared with LN, HN treatment increased grain yield in NIL-7, NIL-8, and 02428 by 9.05%, 16.75%, and 48.35%, respectively. The activities of the enzymes involved in the nitrogen metabolism were changed and the regulation of antioxidant attributes was observed in HN treatment as compared to LN. The content of malondialdehyde (MDA) was decreased for HN relative to LN. Moreover, the efficiency of the N application was different among genotypes. In conclusion, nitrogen application regulated the grain yield, nitrogen metabolism, and antioxidant response of different rice genotypes. [ABSTRACT FROM AUTHOR]

Published

2023

12. Effects of Mechanized, Deep Application of Slow-Release Fertilizer on Yield and Nitrogen, Phosphorus, and Potassium Utilization of Direct-Seeded Rice.

Author

Gui, Runfei, Mo, Zhaowen, Zeng, Shan, Wen, Zhiqiang, and Long, Weisi

Subjects

FERTILIZER application, POTASSIUM fertilizers, NITROGEN fertilizers, POTASSIUM, RICE, NITROGEN, NITROGEN in soils, PHOSPHORUS, FERTILIZERS

Abstract

Compared with the standard method of manual fertilizer broadcasting (MFB), mechanized hill-drilling direct-seeding with deep application of slow-release nitrogen fertilizer (MHDDF) is an efficient method to integrate both fertilization and seeding. However, there are few studies that combine the use of slow-release fertilizer with MHDDF. We sought to explore the combined effect of MHDDF with slow-release fertilizer on rice yield and nitrogen, phosphorus, and potassium utilization, compared to MFB. We compared three different MHDDF methods (D30: 450 kg ha−1, D40: 600 kg ha−1, D50: 750 kg ha−1), with one MFB method (B50: 750 kg ha−1), and one control (CK: 0 kg ha−1). We found that the yield of all MHDDF method was higher than that of both the MFB method. Yield was the highest in the D50 treatment and was 14.14–46.03% higher than that in B50 treatment. Biomass accumulation, nutrient accumulation, and nutrient use efficiency were similarly higher in MHDDF method than both MFB and CK. Compared to B50, the D50 treatment increased nitrogen recovery efficiency by 170.53–231.50%, phosphorus recovery efficiency by 480.00–724.25%, and potassium recovery efficiency by 201.55–169.59%. Overall, we found that combining MHDDF with slow-release fertilizer was an effective method to increase rice yield and nutrient use efficiency compared with MFB. [ABSTRACT FROM AUTHOR]

Published

2023

13. Nitrogen application at the booting stage affects 2-acetyl-1-pyrroline, proline, and total nitrogen contents in aromatic rice

Author

Mo,Zhaowen, Ashraf,Umair, Tang,Yongjian, Li,Wu, Pan,Shenggang, Duan,Meiyang, Tian,Hua, and Tang,Xiangru

Subjects

Oryza sativa subsp. japonica, 2-AP, plant tissues, Aroma, nitrogen

Abstract

Aromatic rice (Oryza sativa L. subsp. japonica Kato) is globally popular due to its pleasant aroma and enchanting flavor. 2-Acetyl-1-pyrroline (2-AP) is recognized as the only major flavoring compound in aromatic rice. Plant nutrition affects the production and accumulation of 2-AP in rice, but the effect of time-specific nutrient application during the developmental phases of rice on 2-AP has not yet been reported. Three N levels (N0: 0 kg ha-1, N1: 30 kg ha-1, and N2: 60 kg ha-1) at the booting stage were applied to a popular aromatic rice cv. Yungengyou 14, to assess the accumulation pattern of 2-AP, proline, and N as well as relationships among the investigated indices regarding 2-AP accumulation. Among all other plant parts, the highest 2AP contents were found in ear axes and flag leaves, i.e. 17.04%-18.26% and 14.37%-15.05% at 17 as well as 18.41%-22.74% and 14.38%-15.75% at 30 DAF under all N-levels. Interestingly, N application at the booting stage also maintained higher proline and 2-AP contents in different plant tissues during the early grain filling stage. Hence additional N dose at booting stage could improve the grain aroma contents of aroma rice while considering the amount of N fertilizer added.

Published

2018

14. Roles of Nitrogen Deep Placement on Grain Yield, Nitrogen Use Efficiency, and Antioxidant Enzyme Activities in Mechanical Pot-Seedling Transplanting Rice.

Author

Li, Lin, Zhang, Zheng, Tian, Hua, Mo, Zhaowen, Ashraf, Umair, Duan, Meiyang, Wang, Zaiman, Wang, Shuli, Tang, Xiangru, and Pan, Shenggang

Subjects

GRAIN yields, RICE, NITROGEN, ENZYMES, TRANSPLANTATION of organs, tissues, etc., RICE bran

Abstract

Mechanical pot-seedling transplanting (PST) is an efficient transplanting method and deep nitrogen fertilization has the advantage of increasing nitrogen use efficiency. However, little information is available about the effect of PST when coupled with mechanized deep nitrogen (N) fertilization on grain yield, nitrogen use efficiency, and antioxidant enzyme activities in rice. A two-year field experiment was performed to evaluate the effect of PST coupled with deep N fertilization in both early seasons (March–July) of 2018 and 2019. All seedlings were transplanted by PST and three treatments were designed as follows. There was a mechanized deep placement of all fertilizer (MAF), broadcasting fertilizer (BF), no fertilizer (N0). MAF significantly increased grain yield by 52.7%. Total nitrogen accumulation (TNA) was enhanced by 27.7%, nitrogen partial factor productivity (NPFP) was enhanced by 51.4%. nitrogen recovery efficiency (NRE) by 123.7%, and nitrogen agronomic efficiency (NAE) was enhanced by 104.3%, compared with BF treatment. Moreover, MAF significantly improved peroxidase (POD), catalase (CAT), and notably reduced the malonic dialdehyde (MDA) content for both rice cultivars, compared to BF. Hence, the result shows that mechanical pot-seedling transplanting coupled with nitrogen deep placement is an efficient method with the increase of grain yield and nitrogen use efficiency in rice cultivation in South China. [ABSTRACT FROM AUTHOR]

Published

2020

15. Correction to: Nitrogen application and different water regimes at booting stage improved yield and 2-acetyl-1-pyrroline (2AP) formation in fragrant rice.

Author

Mo, Zhaowen, Li, Yanhong, Nie, Jun, He, Longxin, Pan, Shenggang, Duan, Meiyang, Tian, Hua, Xiao, Lizhong, Zhong, Keyou, and Tang, Xiangru

Subjects

*RICE, *NITROGEN, *WATER, *BIOSYNTHESIS, *AROMATIC plants

Abstract

It was highlighted that the original article (Mo et al. 2019) contained an error in Fig. 1f which revealed the biosynthesis pathway of 2AP. This Correction article shows the correct Fig. 1 and incorrect Fig. 1. The original article has been updated. [ABSTRACT FROM AUTHOR]

Published

2019

16. Optimization of nitrogen–silicon (N-Si) fertilization for grain yield and lodging resistance of early-season indica fragrant rice under different planting methods.

Author

Hong, Weiyuan, Chen, Yongjian, Huang, Suihua, Li, Yuzhan, Wang, Zaiman, Tang, Xiangru, Pan, Shenggang, Tian, Hua, and Mo, Zhaowen

Subjects

*GRAIN yields, *RICE quality, *RICE, *AROMATIC plants, *HYBRID rice, *PLANT yields, *GRAIN, *BIOMASS

Abstract

In general, nitrogen (N), silicon (Si), and planting method influence fragrant rice yield and lodging resistance. Nevertheless, the response of fragrant rice yield and lodging resistance to N-Si fertilization under different planting methods has not been examined in detail. Field trials were undertaken in the early seasons of 2018 and 2019. Two Si levels i.e., 0 kg Si h m−2 (Si0) and 150 kg Si h m−2 (Si1), three N levels i.e., 0 kg N h m−2(N0), 150 kg N h m−2(N1), and 220 kg N h m−2(N2) as well as three planting methods i.e., artificial transplanting (AT), mechanical transplanting (MT), and mechanical direct-seeding (MD) were set up for two indica fragrant rice cultivars i.e., 'Yuxiangyouzhan' (YX) and 'Xiangyaxiangzhan' (XY). Results revealed that the N-Si treatments and planting methods significantly affected the grain yield, lodging index, and some related parameters across the two cultivars. The mean fold change (FC) in grain yield for the different planting methods was ranked MD＞MT＞AT, while MT and MD have larger variation of FC in grain yield and lodging index as compared with AT. Besides, under all planting methods, the N1 and N2 treatments significantly increased grain yield and lodging index, while the Si1 treatment significantly reduced lodging index without affecting grain yield. There were also significant Si and N interaction effects on grain yield and lodging resistance, with the Si1N2 treatment producing the best balance of grain yield and lodging resistance. The treatments differed in grain yield and yield-related traits such as yield components, biomass yield and photosynthetic properties, as well as in lodging index and lodging-related traits such as plant height, N and Si content in the stem sheath, and biomass allocation ratio. Overall, this study revealed that the 150 kg Si h m−2 coupled with 220 kg N h m−2 treatment showed the best positive effects on balancing grain yield and lodging resistance under all planting methods. Additionally, fragrant rice planted by mechanical methods requires more stricter N-Si fertilization because mechanical planting methods produce greater variation in the physio-biochemical characteristics that underlie grain yield formation and lodging resistance. • Nitrogen (N) fertilization significantly increased grain yield and lodging risk. • Silicon (Si) fertilization significantly reduced lodging risk without affecting grain yield. • Mechanical direct-seeding showed higher variation in grain yield and lodging index than artificial transplanting at N-Si. • Application of 150 kg Si hm−2 and 220 kg N hm−2 produced the optimal balance between grain yield and lodging resistance. [ABSTRACT FROM AUTHOR]

Published

2022