Carbon emissions of urban rail transit in Chinese cities: A comprehensive analysis.

Thoroughly exploring carbon emissions within Urban Rail Transit (URT) systems is crucial for effectively reducing emissions while satisfying increasing energy demands. This study evaluated the spatiotemporal characteristics of carbon emissions in China's URT sector. Tapio decoupling and the Logarithmic Mean Divisia Index, used to scrutinize decoupling states and identify principal contributing factors, respectively, revealed the following: (1) Total emissions increased by 217 %, with significant spatiotemporal heterogeneity from 2015 to 2022. Type I and Type II cities accounted for >85 % of emissions but exhibited lower carbon intensity. (2) Most URT cities showed expansion-negative decoupling between economic growth and carbon emissions. Developed regions show strong decoupling, and the overall decoupling status improved in 2021-2022. (3) Emissions growth was influenced by energy intensity and economic activity, and transportation intensity was the main inhibitor for Type I cities and a driving force for other cities. Finally, recommendations for carbon emission reduction in the URT industry are proposed.

Sampsonione F suppresses adipogenesis via activating p53 pathway during the mitotic clonal expansion progression of adipocyte differentiation.

The abnormal proliferation and hypertrophy of adipocytes mediate the expansion of adipose tissue and then cause obesity-related diseases. Theoretically, an approach for preventing and curing obesity is to inhibit cell proliferation during the mitotic clonal expansion (MCE) progression of adipocyte differentiation. Polycyclic polyprenylated acylphloroglucinols (PPAPs) are mainly found from Hypericum and Garcinia genus, which have been reported to have various biological activities such as anti-depressant, anti-oxidant, and anti-tumor. Previously, our group has reported that adamantane-type PPAPs exhibited blunting activity in adipogenesis. In this study, another six adamantane PPAPs were screened to investigate their anti-adipogenesis activities and then discussed the structure-activity relationship. Particularly, sampsonione F, one of the PPAPs dramatically suppressed adipogenesis dose-dependently in vitro, along with decreased expressions of C/EBPß, C/EBPα, PPARγ, FABP4, and FAS. Moreover, sampsonione F upregulated the expression of p27 by activating p53 pathway and then downregulated the expressions of key regulators during G1/S phase arrest. Our data support that sampsonione F suppressed adipogenesis by activating p53 pathway, regulating cyclins, and resulting in G1/S phase arrest during the MCE progression of adipogenesis. This work provides a new adamantane-type PPAPs in the regulation of adipogenesis and extends our knowledges on the mechanism of the type PPAPs in regulation of adipogenesis.

Hepatic RACK1 deletion disturbs lipid and glucose homeostasis independently of insulin resistance.

Receptor for activated C kinase 1 (RACK1) is a versatile protein involved in multiple biological processes. In a previous study by Zhao et al., hepatic RACK1 deletion in mice led to an inhibition of autophagy, blocked autophagy-dependent lipolysis, and caused steatosis. Using the same mouse model (RACK1hep-/-), we revealed new roles of RACK1 in maintaining bile acid homeostasis and hepatic glucose uptake, which further affected circulatory lipid and glucose levels. To be specific, even under hepatic steatosis, the plasma lipids were generally reduced in RACK1hep-/- mouse, which was due to the suppression of intestinal lipid absorption. Accordingly, a decrease in total bile acid level was found in RACK1hep-/- livers, gallbladders, and small intestine tissues, and specific decrease of 12-hydroxylated bile acids was detected by liquid chromatography-mass spectrometry. Consistently, reduced expression of CYP8B1 was found. A decrease in hepatic glycogen storage was also observed, which might be due to the inhibited glucose uptake by GLUT2 insufficiency. Interestingly, RACK1-KO-inducing hepatic steatosis did not raise insulin resistance (IR) nor IR-inducing factors like endoplasmic reticulum stress and inflammation. In summary, this study uncovers that hepatic RACK1 might be required in maintaining bile acid homeostasis and glucose uptake in hepatocytes. This study also provides an additional case of hepatic steatosis disassociation with insulin resistance.

Photo-biodegradation of imidacloprid under blue light-emitting diodes with bacteria and co-metabolic regulation.

Imidacloprid (IMI) is existence in the soil environment with a half-life habitually more than hundred days. This study targets to determine, identify and characterize photo-biodegradation bacteria from neonicotinoids (NEOs) contaminated agricultural field soils. The sub-surface soil had a higher level contamination of NEOs, in specifically greater concentration of IMI (3445.2 ± 0.09 µg/g) and thiacloprid (4084.4 ± 0.09 µg/g) has been found. Three bacteria Ralstonia pickettii (PBMS-2), Bacillus cereus (PBMS-3) and Shinella zoogloeoides (PBMS-4) was identified from soil-free stable enrichment cultures. The biodegradability of IMI (50 mg L-1) by three bacteria under different colors of light-emitting diodes (LEDs) with a constant 12 V power supply was tested and found that the blue-LEDs had greatest efficiency in supporting biodegradation of IMI which is called photo-biodegradation. In specific, the rate of photo-biodegradation of IMI by Ralstonia pickettii (87%), Bacillus cereus (80%) and Shinella zoogloeoides (80%) was measured. Besides this study also tested the effect of aeration (rpm), pH, and temperature on photo-biodegradation of IMI. There were seven intermediate metabolites were measured as biodegradation products of IMI under photo-biodegradation conditions and they are; IMI-urea, IMI-desnitro, 6-chloronicotinic acid, 6-hydroxy nicotinic acid, IMI- aminoguanidine, IMI-nitrosoguanidine and 4,5-hydroxy IMI, these metabolites are may non-toxic to the environment.