Chemosphere.
Publisher:
Pergamon Press.. Oxford : Elsevier Science Ltd
Frequency: Thirty no. a year
Country: England
Language: English
Start Year:1972 -
ISSN:
0045-6535 (Print)
1879-1298 (Electronic)
0045-6535 (Linking)
1879-1298 (Electronic)
0045-6535 (Linking)
Impact Factor
8.8
2022
| NLM ID: | 0320657 |
| (DNLM): | C16780000(s) |
| (OCoLC): | 02845873 |
| Coden: | CMSHAF |
| LCCN: | 72622992 |
| Classification: | W1 CH38 |
Improving energy consumption prediction for residential buildings using Modified Wild Horse Optimization with Deep Learning model. The consumption of a significant quantity of energy in buildings has been linked to the emergence of environmental problems that can have unfavourable effects on people. The prediction of energy consumption is widely regarded as an effective method for the conservation of energy and the improvement of decision-making processes for the purpose of lowering energy use. When it comes to the generation of positive results in prediction tasks, the Machine Learning (ML) technique can be considered the most appropriate and applicable strategy. This article presents a Modified Wild Horse Optimization w...
Associations between endocrine disrupting chemicals and equine metabolic syndrome phenotypes. Equine Metabolic Syndrome (EMS) is characterized by abnormalities in insulin regulation, increased adiposity and laminitis, and has several similarities to human metabolic syndrome. A large amount of environmental variability in the EMS phenotype is not explained by commonly measured factors (diet, exercise, and season), suggesting that other environmental factors play a role in EMS development. Endocrine disrupting chemicals (EDCs) are associated with metabolic syndrome and other endocrine abnormalities in humans. This led us to hypothesize that EDCs are detectable in horse plasma and play a ...
Species-specific concentrations of perfluoroalkyl contaminants in farm and pet animals in Japan. The persistent metabolites of perfluorinated compounds (PFCs) which have been detected in the tissues of both humans and wildlife, and human contamination by PFCs suggest differences in the exposure patterns to these compounds. However, studies focused on identifying human exposure pathways to PFCs are scarce. To provide a preliminary assessment of PFCs in farm animals such as chicken, cattle, pigs, goats and horses, blood and liver samples were collected from various regions in Japan. Additionally, dog sera samples representing pet animals were also employed for analysis. Perfluorooctane sulf...