拔节期氮肥运筹对不同滴灌量下冬小麦光合特性及产量的影响

为探明拔节期氮肥运筹对不同滴灌量下冬小麦光合特性及产量的影响,在大田滴灌技术条件下,以‘新冬41号’为试验材料,研究4种拔节期氮肥运筹处理[N0(0 kg/hm²)、N1(90 kg/hm²)、N2(180 kg/hm²)、N3(270 kg/hm²)]对3种不同滴灌量[W1(1500 m³/hm²)、W2(3000 m³/hm²)、W3(3450 m³/hm²)]下冬小麦叶绿素含量（SPAD值）、叶面积指数(LAI)、叶片光合特性及产量的影响。结果表明,在3种滴灌量下各氮肥处理冬小麦拔节至乳熟期叶片SPAD值均呈“先增后降”的变化规律,最大值均在灌浆期;LAI呈现“先增后降”的变化规律,在孕穗期达最大。在同一施氮水平下,滴灌量增加,叶片的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)均增加,而胞间CO₂浓度(Ci)则降低。滴灌量较低时（W1处理）,增加拔节期施氮量能有效提高滴灌冬小麦的有效穗数、穗粒数、千粒重、产量和收获系数;水分充足时（W2、W3处理）,增加拔节期施氮量反而不利于产量的提高。综合考虑各项产量指标及氮肥利用效率得出,在滴灌量3000 m³/hm²条件下,拔节期施氮量180 kg/hm²时,滴灌冬小麦籽粒产量较高,氮肥利用率最大,可供生产参考。     

通过使用窄带通滤波器和小波分析用以检测共轭耦合点谐波电压的跳变来实现孤岛检测

此文表述了基于编码的使用窄带通滤波器和小波滤波器用以在Simulink中实现孤岛检测的功能。分布式电网的拓扑结结构由并网逆变器和LCL滤波器构成。比例谐振控制器用以来控制逆变器。窄带通滤波器用来提取所有信号中的基波分量。开关断开用以来模拟孤岛现象,并采用两种方法来检测孤岛的发生。第一种采用窄带通滤波器来检测特定的共轭耦合点上的谐波电压在孤岛前和孤岛后的变化,第二种采用小波滤波器来检测谐波电压的跳变。     

滇朴干基腐朽病发生规律及综合防治

对滇朴干基腐朽病的调查、室内保湿培养、分离鉴定结果表明：引起滇朴干基腐朽的病原为伏革菌科隔孢伏革菌属的乳白隔孢伏革菌。该病害的发生随温度的升高、树龄的增长、降水的减少而逐渐严重，在土壤瘠薄、保水能力差的区域内发病严重。药剂防治80d后，用急救回生丹：金雷：水=1：1：50树干注射、包干的相对防效达86％；枝、干、叶喷70％甲基托布津＋杀毒矾700倍液的相对防效为79％；根部浇灌58％的雷多米尔＋杀毒矾800倍液的相对防效为81％。     

Global Bibliometric Analysis of the Research in Biochar

Global interest in studying biochar stems from its ability to sequester carbon in soil and render nutrients and moisture more readily available to root systems. Therefore, a bibliometric analysis was conducted to investigate global scientific publications related to biochar research, providing insight into the number of articles published, journal platforms, subjects, citations, and overall trends. The primary databases employed were the Web of Science and Science Citation Index. A total of 1,697 articles published between 2000 and 2015 were evaluated. This systematic bibliometric analysis will assist research groups and individuals to understand global biochar research trends and focus future research. The influence of biochar on soil, plants, and the environment continues to require greater attention.     

Cotton Chemical Topping by Applying DPC in Different Cotton-Growing Regions

[Objective] The objective of this study was to investigate the stability and universality of cotton chemical topping by applying mepiquat chloride (1,1-dimethyl-piperidinium chloride, DPC) in different cotton-growing regions. [Method] Field experiments were conducted in 2018 at 10 locations in the Yellow River basin (Hejian and Handan, Hebei province; Dezhou and Wudi, Shandong province), the Yangtze River basin (Dafeng, Jiangsu province; Huanggang, Hubei province), and Xinjiang area (Shihezi location I and loacation II, northern Xinjiang and Luntai and Shaya, southern Xinjiang). Local cultivars/lines were used, and the experiments were performed using a randomized complete block design with three or four replicates. Accompanied with typical DPC multi-application in each location, chemical topping was conducted at 10 days before manual topping (T1) or at the same time with manual topping (T2) by applying four dosages of DPC (0, 90, 180, 270 g·hm^－2), manual topping was used as the first control and non-topping as the second control. [Result] The time of chemical topping significantly affected cotton plant height (except for the results in Handan, Dezhou and Wudi) and the number of fruit branches (except for the results in Dafeng and Huanggang). It was observed that earlier chemical topping would result in lower cotton plant height and a fewer fruit branches. In Hejian and Shihezi location I, the average plant height across DPC chemical topping at T1 stage was not only lower than that of T2 stage but also 3.3 cm and 4.6 cm lower than that of manual topping, respectively. In most locations, chemical topping at T1 stage increased around two fruit branches per plant compared with manual topping, while in T2 stage the increased fruit branches per plant ranged from 2.3 to 7.7. Also, we found that a higher dosage of DPC resulted in shorter plant height (except for that in Huanggang). In some locations, plant heights of chemical topping with 180 g·hm^－2 or 270 g·hm^－2 DPC were even shorter than that of manual topping. The number of fruit branches per plant of 0 g·hm^－2 DPC increased by 2.4-8.3 compared with manual topping. However, chemical topping with 90-270 g·hm^－2 DPC significantly reduced the number of fruit branches compared with 0 g·hm^－2 DPC. There were no significant differences in the number of fruit branches among three DPC dosages (90, 180, and 270 g·hm^－2). In Handan, seed cotton yield of chemical topping at T2 stage was significantly lower than that of manual topping due to the decreased boll number, which is possibly associated with the high temperature and drought weather after chemical topping. While at other locations, most treatments of chemical topping by using DPC did not produce significant effects on yield. In addition, chemical topping by using DPC did not delay cotton maturity, characterized by their similar boll-opening rate and the first harvest rate to those of manual topping before spraying harvest aids. [Conclusion] Cotton chemical topping with DPC is more stable and universal across different cotton-growing regions. We suggest that 90-180 g·hm^－2 DPC could be used at the same time with manual topping for cotton chemical topping.     

芸薹根肿菌单孢分离技术体系构建及沈阳地区根肿菌的鉴定

芸薹根肿菌严重危害大白菜和其他十字花科作物。由于根肿菌通常以多个生理小种混生状态进行侵染,导致抗病品种的抗性不能持久。以沈阳地区根肿菌为材料,进行了单孢分离技术体系构建,结果表明采取冷冻盒接菌法对两日龄大白菜幼苗进行单孢接种,可将侵染率提高到47.86%;采用基质过渡培养可将大白菜植株成活率提高到67%。利用上述根肿菌单孢分离技术体系对沈阳地区根肿菌进行单孢分离和Williams生理小种鉴定,结果表明沈阳地区根肿菌存在4号、8号、9号、11号生理小种,其中4号生理小种为优势小种。     

Effect of beclin-1 gene silencing on TuAKe-injured gastric cancer SGC-7901 cells

AIM: To observe the effect of beclin-1 silencing by the technique of RNA interference on the injury of human gastric cancer SGC-7901 cell by Sheliugu extract (the extract from tuber of Amorphophallus konjac, TuAKe). METHODS: To knock down the expression of beclin-1 gene, SGC-7901 cells were transfected with lentiviral vector carrying beclin-1-shRNA. The beclin-1 gene knock-down and non-knock-down SGC-7901 cells were treated with TuAKe. The cell viability was analyzed by CKK-8 assay. The percentages of apoptotic cells were detected by flow cytometry. The expression of beclin-1 and LC3 was detected by Western blot. RESULTS: The beclin-1 gene silencing decreased the protein expression of beclin-1 and increased the protein expression of LC3 in the SGC-7901 cells, leading to the decrease in cell viability and the increase in apoptotic rate (P<0.05). TuAKe increased the protein expression of beclin-1 and LC3 in the SGC-7901 cells, and decreased the protein expression of LC3 in the SGC-7901 cells with beclin-1 gene silencing, thus inhibiting the cell viability and increasing the apoptotic rate (P<0.05). CONCLUSION: Beclin-1 gene silencing inhibits the activation of beclin-1-related signaling pathway in gastric cancer SGC-7901 cells, and aggravates the injury of cell viability induced by TuAKe.     

不完全分形多孔介质热导率模型

将多孔介质的物理构成分为具有分形结构的团聚体集合和不具有分形特性的固相和孔隙相,建立了简化单元体模型解释其微观结构。结合多孔介质在干燥过程中热量守恒定律和傅里叶导热定律导出了材料总有效热导率模型。此模型无经验常数,每一个参数都有物理意义。研究结果表明,有效热导率与迂曲分形维数、面积分形维数、孔隙率和热风温度呈反比,与热风速率和时间呈正比。     

基于TRIZ理论的牧草干燥循环能源体系

从建立能源循环体系的角度,探讨如何解决太阳能高效利用的问题。与TRIZ创新理论工具相结合,重新定义并解决问题。将太阳能转化成热能并储存,供牧草干燥;同时将太阳能转化成电能,为厂房提供基本照明;实现牧草干燥装备中能量收集—转化—储存—利用的可循环体系,将循环能源技术逐渐推广到畜牧产业链条上。