http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Huifang Wang,Shiping Liang,TaoMa,Qiang Xiao,Panrong Cao,Xuan Chen,Wenquan Qin,Hongpeng Xiong,Zhaohui Sun,XiujunWen,Cai Wang 한국응용곤충학회 2018 Journal of Asia-Pacific Entomology Vol.21 No.2
Ectropis grisescens Warren (Lepidoptera: Geometridae) is an important defoliator pest of the tea plant, Camellia sinensis L. Our previous studies showed that E. grisescens pupae had significantly lower body water content when they pupated in the dry soil (20%-moisture) than those that pupated in the wetter soil (50%- or 80%-moisture). However, it is still unclear whether low-moisture conditions during pupating would further influence the physiological and fitness traits of adults. In the present study, E. grisescens individuals were allowed to pupate in 20%-, 50%- or 80%-moisture soil (silt loam), or in containers without soil (no-substrate conditions) in the laboratory. No significant difference in emergence was detected among different pupating conditions. However, female moths that emerged from 20%-moisture soil had significantly lower body water content compared to 80%-moisture soil, whereas the body water content of males was similar among the four treatments. The paired moths that emerged from 20%-moisture soil laid significantly fewer eggs than those that emerged from 50%- moisture soil. In addition, the number of hatched offerings (larvae) were significantly less when the adults previously pupated in no-soil containers compared to 50%-moisture soil. The longevity of adults was shortest when they emerged from 20%-moisture soil. Our study showed that the no-substrate and low-moisture conditions during pupating adversely affected E. grisescens adults.
TaoMa,Huifang Wang,Shiping Liang,Qiang Xiao,Panrong Cao,Xuan Chen,Ying Niu,Yurong He,Zhaohui Sun,XiujunWen,Cai Wang 한국응용곤충학회 2019 Journal of Asia-Pacific Entomology Vol.22 No.1
Ectropisgrisescens Warren (Lepidoptera: Geometridae) is one of the most severe defoliating pests of tea plants. Synthetic pesticides have been widely applied to control this pest in tea plantations, but pesticide residues may decrease the quality and safety of tea products. In the present study, we hypothesized that soil treatment with the two commercial biopesticides (Shuiguxin ® ) based on Metarhizium anisopliae (Metchnikoff) Sorokin and Beauveria bassiana (Balsamo) could reduce the survivorship and fitness of E. grisescens. Wandering larvae of E. grisescens were allowed to pupate in soil treated with each biopesticide, and the concentrations of M. anisopliae (Shuiguxin ® ) and B. bassiana (Shuiguxin ® ) that produced the 50% mortality values (LC 50 ) were 2.9 × 10 6 and 1.6 × 10 7 conidia/g soil, respectively. Artificial burying the pupae using soil treated with M. anisopliae (Shuiguxin ® ) and B. bassiana (Shuiguxin ® ) (1 × 10 8 or 1 × 10 9 conidia/g soil for both biopesticides) also significantly reduced emergence success of E. grisescens. In addition, choice tests showed that soil treated with the high concentration of M. anisopliae (Shuiguxin ® ) or B. bassiana (Shuiguxin ® ) had repellent effects on pupating E. grisescens. However, sublethal concentrations (LC 25 and LC 50 ) of both biopesticides did not significantly affect fecundity, fertility and longevity of post-emerged adults. Our study showed that soil treatment with the two commercial biopesticides caused direct mortality of pupating E. grisescens, but may not effectively suppress E. grisescens populations at sublethal concentrations. The realistic application of the fungal dosage in fields should be determined in future studies
Jiping Liu,Shuyuan Wang,Liang Feng,Dongying Ma,Qiang Fu,Yu Song,Xiaobin Jia,Shiping Ma 한국식품영양과학회 2013 Journal of medicinal food Vol.16 No.7
Diabetic encephalopathy (DE) is one of the severe complications in patients with diabetes mellitus. Paeonol, an active compound isolated from the root bark of Paeonia suffruticosa, has significant antidiabetic activity in vivo. However, its underlying beneficial effects on DE were unclear. In the present study, the protective activity of paeonol on DE was evaluated in streptozotocin (STZ)-induced diabetic rats. Paeonol at 50 and 100mg/kg significantly increased body weight and decreased blood glucose levels, glycosylated serum proteins, and serum advanced glycation end products (AGEs) levels. Immunohistochemistry assays and Western blot analysis revealed a significant decrease in expressions on receptor for advanced glycation end products (RAGE) and nuclear factor kappa B (NF-jB) in hippocampus and cerebral cortical neurons after paeonol treatment. Furthermore, paeonol significantly increased glutathione content and remarkedly decreased induced nitric oxide synthase activity in hippocampus tissue. Our findings indicated that paeonol could improve the pathological damage of DE in STZ-induced diabetic rats. It might be associated with the modulating AGEs/RAGE/NF-jB pathway. This study suggested that paeonol might be a promising candidate for the prevention and treatment of DE.
Cerium-loaded MnOx/attapulgite catalyst for the low-temperature NH3-selective catalytic reduction
Aijuan Xie,Xingmeng Zhou,Xiaoyan Huang,Liang Ji,Wenting Zhou,Shiping Luo,Chao Yao 한국공업화학회 2017 Journal of Industrial and Engineering Chemistry Vol.49 No.-
A series of MnO2/attapulgite (ATP) and n(Ce):n(Mn)/ATP (molar ratios) catalysts were prepared andinvestigated for the selective catalytic reduction of NO by NH3 (NH3-SCR) at low temperature. The resultsshowed that the 7 wt % MnO2/ATP exhibited the best NOx conversion (85% at 300 C) among all MnO2/ATPcatalysts of different mass ratios. The introduction of cerium enhanced the NOx conversion at lowtemperature, and so Ce–MnOx/ATP can reach the highest NOx conversion (95% at 300 C). Meanwhile, theas-prepared catalysts were characterized by XRD, TEM, BET, H2-TPR, NH3-TPD, and XPS. It can be deducedfrom TEM, XRD, and BET, MnOx nanorods in this work mainly existed in the b-MnO2, and cerium highlydispersed on the surface of ATP to form porous structure and thus improved the deNOx performance. Moreover, the study of SO2 tolerance demonstrated that cerium can effectively inhibit SO2 poison. XPSresults illustrated that Ce could enhance Mn4+ content on the surface of the catalyst and thus lead to highSCR activity. Therefore Mn(1):Ce(0.25)/ATP was proved to be an excellent catalyst for NH3-SCR.