Your search keyword '"Qiu-Yuan Liu"' showing total 10 results

1. Increasing the appropriate seedling density for higher yield in dry direct-seeded rice sown by a multifunctional seeder after wheat-straw return

Author

Jin-yu TIAN, Shao-ping LI, Shuang CHENG, Qiu-yuan LIU, Lei ZHOU, Yu TAO, Zhi-peng XING, Ya-jie HU, Bao-wei GUO, Hai-yan WEI, and Hong-cheng ZHANG

Subjects

seedling density, dry direct-seeded rice sown by a multifunctional seeder, rice–wheat rotation system, yield, biomass, photosynthetic capacity, Agriculture (General), S1-972

Abstract

Dry direct-seeded rice (DDR) sown using a multifunctional seeder that performs synchronous rotary tillage and sowing has received increased attention because it is highly efficient, relatively cheap, and environmentally friendly. However, this method of rice production may produce lower yields in a rice–wheat rotation system because of its poor seedling establishment. To address this problem, we performed field experiments to determine the rice yield at five seedling density levels (B1, B2, B3, B4, and B5=100, 190, 280, 370, and 460 seedlings m−2, respectively) and clarify the physiological basis of yield formation. We selected a representative high-quality rice variety and a multifunctional seeder that used in a typical rice–wheat rotation area in 2016 and 2018. The proportion of main stem panicle increased with increasing seedling density. There was a parabolic relationship between yield and seedling density, and the maximum yield (9.34−9.47 t ha−1) was obtained under B3. The maximum yield was associated with a higher total spikelet number m−2 and greater biomass accumulation from heading to maturity. The higher total spikelet number m−2 under B3 was attributed to an increase in panicle number m−2 compared with B1 and B2. Although the panicle numbers also increased under B4 and B5, these increases were insufficient to compensate for the reduced spikelet numbers per panicle. Lower biomass, smaller leaf area, and lower N uptake per plant from the stem elongation stage to the heading stage were partially responsible for the smaller panicle size at higher seedling density levels such as B5. The higher biomass accumulation under B3 was ascribed to the increases in the photosynthetic rate of the top three leaves m−2 of land, crop growth rate, net assimilation rate, and leaf area index. Furthermore, the B3 rice population was marked by a higher grain–leaf ratio, as well as a lower export ratio and transport ratio of biomass per stem-sheath. A quadratic function predicted that 260−290 seedlings m−2 is the optimum seedling density for achieving maximum yield. Together, these results suggested that appropriately increasing the seedling density, and thereby increasing the proportion of panicles formed by the main stem, is an effective approach for obtaining a higher yield in DDR sown using a multifunctional seeder in a rice–wheat rotation system.

Published

2023

2. Effects of slow or controlled release fertilizer types and fertilization modes on yield and quality of rice

Author

Hai-yan WEI, Zhi-feng CHEN, Zhi-peng XING, Lei ZHOU, Qiu-yuan LIU, Zhen-zhen ZHANG, Yan JIANG, Ya-jie HU, Jin-yan ZHU, Pei-yuan CUI, Qi-gen DAI, and Hong-cheng ZHANG

Subjects

type of slow or controlled release fertilizer, fertilization mode, yield, quality, Agriculture (General), S1-972

Abstract

There is limited information about the influence of slow or controlled release fertilizer (S/CRF) on rice yield and quality. In this study, japonica rice cultivar Nanjing 9108 was used to study the effects of three different S/CRFs (polymer-coated urea (PCU), sulfur-coated urea (SCU), and urea formaldehyde (UF)) and two fertilization modes (both S/CRF and common urea (CU) as basal fertilizer, S/CRF as basal and CU as tillering fertilizer) on rice yield and quality. CU only was applied separately as control (CK). Results showed that, rice grain yield, chalky kernel rate, chalky area, overall chalkiness, and the content of gliadin, glutenin, and protein, all showed the trends of UF>PCU>SCU within the same fertilization mode, and showed the trends of S/CRF as basal and CU as tillering fertilizer>both S/CRF and CU as basal fertilizer within the same type of S/CRF. In contrast, the contents of amylose, amylopectin, and starch, as well as taste value, and peak and hot viscosity showed trends of SCU>PCU>UF, and the trends of both S/CRF and CU as basal fertilizer>S/CRF as basal and CU as tillering fertilizer. Among S/CRF treatments and fertilization modes, taste values of cooked rice were positively correlated with amylose, amylopectin, and starch contents, as well as gel consistency, peak viscosity, hot viscosity, and cool viscosity, while negatively correlated with globulin, gliadin, glutenin, and protein contents. The types of S/CRF and fertilization modes are important for improving rice yield and quality. Compared to CK, higher yield and similar quality of rice was achieved with UF as basal and CU as tillering fertilizer, and similar yield with improved appearance and eating and cooking quality of rice was achieved with either both UF and CU as basal fertilizer, or PCU as basal and CU as tillering fertilizer.

Published

2018

3. Relationships among grain yield, rice quality and nitrogen uptake of inbred middle-ripe japonica rice in the middle and lower reaches of Yangtze River

Author

Lei Zhou, Zhi-Peng Xing, Shuang Cheng, Jin-Yu Tian, Hai-Yan Wei, Qiu-Yuan Liu, Yu Tao, Hong-Cheng Zhang, and Guodong Liu

Subjects

Agronomy, chemistry, Yangtze river, Grain yield, chemistry.chemical_element, Plant Science, Biology, Agronomy and Crop Science, Nitrogen, Biotechnology, Japonica rice

Published

2020

4. Relating amylose and protein contents to eating quality in 105 varieties of Japonica rice

Author

Hai-Yan Wei, Hong-Cheng Zhang, Shuang Cheng, Qiu-Yuan Liu, Yu Tao, Guodong Liu, Lei Zhou, Zhi-peng Xing, and Jin-Yu Tian

Subjects

chemistry.chemical_compound, Horticulture, biology, chemistry, Amylose, media_common.quotation_subject, Organic Chemistry, Quality (business), biology.organism_classification, Japonica, Food Science, media_common, Japonica rice

Published

2020

5. Differences in yield and nitrogen absorption and utilization of indica-japonica hybrid rice varieties of Yongyou series

Author

Lei Zhou, Yang Che, Zhi-Jie Wang, Ya-Jie Hu, Meng-Hua Zhu, Jin-Yu Tian, Zhi-Peng Xing, Guodong Liu, Qiu-Yuan Liu, Hai-Yan Wei, Hong-Cheng Zhang, and Shuang Cheng

Subjects

biology, Field experiment, Nitrogen absorption, chemistry.chemical_element, Plant Science, biology.organism_classification, Nitrogen, Japonica, Animal science, chemistry, Yield (chemistry), Tiller, Dry matter, Agronomy and Crop Science, Biotechnology, Panicle

Abstract

A field experiment was conducted with 24 indica-japonica hybrid rice varieties (lines) of Yongyou series, from which three types (high yield and high AE (agronomic nitrogen use efficiency) [HH], high yield and medium AE [HM], medium yield and medium AE [MM]) were selected to explore the characteristics of varieties with high yield and high AE. The yield of HH type was 4.04%–4.38% and 13.37%–13.41% higher than that of HM type and MM type respectively, owing to the larger number of total spikelets, which was 5.87×108–6.20×108 hm–2. Compared with HM and MM type, HH type had a high percentage of tiller rate, which was 68.83%–70.05%. The LAI of HH type was maximum at heading stage and declined slowly after heading. As a result, the LAI of HH type was above 3.85 at maturity stage. The dry matter accumulation of HH type was 7.91–7.99 t hm–2 from heading to maturity, which was the highest in three types, and its dry matter accumulation was more than 21.15–21.46 t hm–2 in the whole growth period. The total nitrogen uptake of HH type showed 5.07%–5.14% and 4.50%–5.96% increase than that of HM type and MM type respectively at maturity stage. The nitrogen sbsorption rate from jointing to heading stage and from heading to maturity stage showed HH type > HM type > MM type, as well as NTSH (N transportation from stem after heading), NIPH (N increase in panicle after heading) and NHI (N harvest index). HH type had the highest NRE (nitrogen recovery use efficiency), AE, PE (physiological nitrogen use efficiency) and PFP (partial factor productivity of applied N). Expect for NRE and NRG (nitrogen requirement for 100 kg grain), all the other nitrogen utilization indexes of HM type were higher than that of MM type.

Published

2020

6. Effects of mid-stage nitrogen application timing on the morphological structure and physicochemical properties of japonica rice starch

Author

Hu Yajie, Zhi-peng Xing, Guodong Liu, Qiu-Yuan Liu, Shi Qiu, Hu Qun, Hai-Yan Wei, Wei-qin Jiang, Hong-Cheng Zhang, Baowei Guo, and Hui Gao

Subjects

Retrogradation (starch), 030309 nutrition & dietetics, Starch, Nitrogen, chemistry.chemical_element, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Amylose, Grain quality, Cultivar, Cooking, Fertilizers, 0303 health sciences, Nutrition and Dietetics, Oryza sativa, Viscosity, food and beverages, Oryza, 04 agricultural and veterinary sciences, 040401 food science, Horticulture, chemistry, Solubility, Seeds, Agronomy and Crop Science, Gels, Food Science, Biotechnology, Main stem

Abstract

Background Nitrogen management of crops, especially when mid-stage nitrogen is applied, is a key factor affecting the yield and grain quality of rice (Oryza sativa). Here, the timing of mid-stage nitrogen application was evaluated for its effect on rice grain quality by assessing the morphological structure and physicochemical properties of starch from two japonica rice cultivars growing in fields (Nangeng 9108 and Nangeng 5055). Results The experiment was arranged in a split-plot design, with the two rice cultivars as the main plot factor and three timings of mid-stage nitrogen application as the within-plot factor. Briefly, three applications were made: at the emergence of the top-sixth-leaf (ahead), the top-fourth-leaf (normal), and the top-second-leaf (delayed) of the main stem. Delaying mid-stage nitrogen application caused the starch granule surface to become uneven and significantly reduced its particle size, whereas it increased the polished rice rate, chalkiness degree, and protein content. Furthermore, the apparent amylose content decreased with a delay in mid-stage nitrogen application, thereby resulting in higher relative crystallinity, swelling power, water solubility, gelatinization enthalpy, and low retrogradation. Finally, we also found that delaying this nitrogen application lowered the characteristic values of rice flour viscosities, leading to cooking quality deterioration. Conclusion These results therefore suggest that delaying mid-stage nitrogen application enhances the processing and nutritional qualities of japonica rice but evidently has an adverse effect upon its appearance and cooking qualities. © 2020 Society of Chemical Industry.

Published

2020

7. Effects of slow or controlled release fertilizer types and fertilization modes on yield and quality of rice

Author

Lei Zhou, Pei-yuan Cui, Qiu-Yuan Liu, Zhu Jinyan, Zhi-peng Xing, Zhen-zhen Zhang, Qi-Gen Dai, Hai-Yan Wei, Ya-jie Hu, Hong-Cheng Zhang, Yan Jiang, and Zhi-feng Chen

Subjects

0106 biological sciences, Starch, fertilization mode, Agriculture (General), Plant Science, 010501 environmental sciences, engineering.material, 01 natural sciences, Biochemistry, S1-972, chemistry.chemical_compound, Glutenin, Animal science, Human fertilization, Food Animals, Amylose, Cultivar, 0105 earth and related environmental sciences, Ecology, biology, food and beverages, yield, chemistry, quality, Amylopectin, Urea, biology.protein, engineering, Animal Science and Zoology, Fertilizer, type of slow or controlled release fertilizer, Agronomy and Crop Science, 010606 plant biology & botany, Food Science

Abstract

There is limited information about the influence of slow or controlled release fertilizer (S/CRF) on rice yield and quality. In this study, japonica rice cultivar Nanjing 9108 was used to study the effects of three different S/CRFs (polymer-coated urea (PCU), sulfur-coated urea (SCU), and urea formaldehyde (UF)) and two fertilization modes (both S/CRF and common urea (CU) as basal fertilizer, S/CRF as basal and CU as tillering fertilizer) on rice yield and quality. CU only was applied separately as control (CK). Results showed that, rice grain yield, chalky kernel rate, chalky area, overall chalkiness, and the content of gliadin, glutenin, and protein, all showed the trends of UF>PCU>SCU within the same fertilization mode, and showed the trends of S/CRF as basal and CU as tillering fertilizer>both S/CRF and CU as basal fertilizer within the same type of S/CRF. In contrast, the contents of amylose, amylopectin, and starch, as well as taste value, and peak and hot viscosity showed trends of SCU>PCU>UF, and the trends of both S/CRF and CU as basal fertilizer>S/CRF as basal and CU as tillering fertilizer. Among S/CRF treatments and fertilization modes, taste values of cooked rice were positively correlated with amylose, amylopectin, and starch contents, as well as gel consistency, peak viscosity, hot viscosity, and cool viscosity, while negatively correlated with globulin, gliadin, glutenin, and protein contents. The types of S/CRF and fertilization modes are important for improving rice yield and quality. Compared to CK, higher yield and similar quality of rice was achieved with UF as basal and CU as tillering fertilizer, and similar yield with improved appearance and eating and cooking quality of rice was achieved with either both UF and CU as basal fertilizer, or PCU as basal and CU as tillering fertilizer.

Published

2018

8. Research on Treatment Scheme Optimization for Slope Based on Analytic Hierarchy Process

Author

Jianxin Liu, Linlin Sun, Chun An You, and Qiu Yuan Liu

Subjects

Scheme (programming language), Operations research, Analytic network process, Analytic hierarchy process, General Medicine, computer.software_genre, Qualitative analysis, Multiple factors, Quantitative analysis (finance), Research Object, Data mining, Structured model, computer, Mathematics, computer.programming_language

Abstract

At present, there are numerous treatment schemes for slope, while there is a lack of research on scheme evaluation and optimization. According to analytic hierarchy process, this paper takes two treatment schemes for Cangshang pit slope as research object, which are reducing load by cutting slope and strengthening by grouting, handles the complicated problem hierarchically and systematically, and establishes hierarchical structure model. Judgment matrixes are constructed to analyze multiple factors synthetically, which combine qualitative analysis and quantitative analysis preferably, and optimal scheme is selected finally.

Published

2011

9. Deformation Mechanism of the Mountain and Research of Reinforcement in Yanchi Mountain

Author

Qiu Yuan Liu, Ke Jian Li, Rui Wang, and Yan Qiu

Subjects

Engineering, Deformation mechanism, business.industry, Pillar, Geologic hazards, Geotechnical engineering, General Medicine, Deformation (meteorology), business, Reinforcement, Roof, High stress

Abstract

Mining activities would generate large scale goaf, and the existing of goaf makes the mountain body produce great distortion. Therefore, it has become a kind of serious geological hazard. Based on the concrete conditions of Yanchi Mountain, the simulation with ANSYS was conducted for analyzing the stability of goaf, mine pillar and roof, which would find out the high stress zone and plastic zone of the goaf. Therefore, the conclusion that inadequate of the pillar strength is the main cause of the mountain deformation is drawn, and a new strengthening method which is to strengthen the mine pillar and to increase new mine pillars is put forward on basis of the conclusion.The results show that the strengthening method has an obvious effect, and it reduces the workload and the cost, which also provides very significant evidence for the future studying.

Published

2011

10. Direct amination of benzene to aniline with several typical vanadium complexes

Author

Bin Guo, Changwei Hu, Yu Fen Lü, Qiu Yuan Liu, Liangfang Zhu, and Xiao Ke Hu

Subjects

Chemistry, Inorganic chemistry, Vanadium, chemistry.chemical_element, General Chemistry, Catalysis, Solvent, chemistry.chemical_compound, Aniline, Hydroxylamine, Selectivity, Benzene, Amination, Nuclear chemistry

Abstract

The liquid-phase direct catalytic amination of benzene to aniline was performed in acetic acid water solvent using a series of vanadium (III, IV, V) complexes with N,O- or O,O-ligands as catalysts and hydroxylamine hydrochloride as the aminating agent. The vanadium complexes exhibited much higher selectivity towards the production of aniline than NaVO3 or VOSO4. Under the optimized conditions, an aniline yield of 42.5% and a TON of 48 with a high selectivity of above 99.9% was obtained using 0.2 mmol of [VO(OAc)2] as the catalyst.

Published

2009