మా గ్రూప్ ప్రతి సంవత్సరం USA, యూరప్ & ఆసియా అంతటా 3000+ గ్లోబల్ కాన్ఫరెన్స్ ఈవెంట్లను నిర్వహిస్తుంది మరియు 1000 కంటే ఎక్కువ సైంటిఫిక్ సొసైటీల మద్దతుతో 700+ ఓపెన్ యాక్సెస్ జర్నల్లను ప్రచురిస్తుంది , ఇందులో 50000 మంది ప్రముఖ వ్యక్తులు, ప్రఖ్యాత శాస్త్రవేత్తలు ఎడిటోరియల్ బోర్డ్ సభ్యులుగా ఉన్నారు.
ఎక్కువ మంది పాఠకులు మరియు అనులేఖనాలను పొందే ఓపెన్ యాక్సెస్ జర్నల్స్
700 జర్నల్స్ మరియు 15,000,000 రీడర్లు ప్రతి జర్నల్ 25,000+ రీడర్లను పొందుతున్నారు
Chantale André, Joëlle Auclair and J François Gagné
The cumulative effects of pollution in the context of global warming are not well understood at the present time. The purpose of this study was to determine whether organisms exposed to urban pollution are more susceptible to temperature changes. Feral Elliptio complanata freshwater mussels were caged and immersed for 1, 12 and 24 days in the final aeration pond treating domestic wastewaters from a township with a population of about 25,000. Mussels were also placed in the river upstream from the township to serve as reference. Following each exposure times, mussels were collected for temperature-dependent mitochondrial electron transport (METT) activity assessments. Other biomarkers were used, including xenobiotic metabolism (cytochrome P4503A4, glutathione S-tranferase and metallothioneins), energy budget (MET at 20ºC and total lipids) and gonad status endpoints (gonadosomatic index [GSI], lipid peroxidation [LPO] and vitellogenin-like proteins). The data revealed that mussels exposed to the aeration pond had elevated METT and MET activities, suggesting that they were more sensitive to temperature changes and spent more energy than the controls. METT activity was negatively correlated with lipid stores in gonad, pointing to a negative energy budget. METT activity was also influenced by all xenobiotic metabolism and gonad status markers, with the exception of GSI. This suggests that temperature sensitivity is increased in mussels exposed to urban pollution and involves the expression of xenobiotic biotransformation, oxidative stress and endocrine disruption.