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Pascal van Griethuysen 《Journal of Cleaner Production》2010,18(6):590-595
By questioning the origins of the inertia facing the degrowth movement, this contribution identifies property as the constitutive institution of capitalism, and property expansion as the dominant socioeconomic process leading world societies to economic path dependence, techno-institutional lock-in and eco-social impasse. Demonstrating why and how property-based economic rationality subordinates ecological and social considerations to capitalist requirements, this paper stresses both the need for an inversion in the hierarchy of social norms and the systemic opposition to such an inversion, which emanates from the capitalist/industrial expansion. The text also brings to light some disregarded processes underlying the current economic crisis, by pointing out the institutional and technological locked-in situation into which the western development path has led our societies. 相似文献
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Direct measurement of denitrification activity in a Gulf coast freshwater marsh receiving diverted Mississippi River water 总被引:1,自引:0,他引:1
Wetland loss along the Louisiana Gulf coast and excessive nitrate loading into the Gulf of Mexico are interrelated environmental problems. Nitrate removal by soil denitrification activity was studied in a ponded freshwater marsh receiving diverted Mississippi River water for the purpose of reversing or slowing wetland loss. Labeled 15N-nitrate was applied at 3.8 g N m−2 into four replicate study plots after removing above ground vegetation. Nitrogen gas (N2) and nitrous oxide (N2O) emissions from the plots were determined by isotope ratio mass spectrometry (IRMS). Nitrous oxide emissions were also compared with the results determined by gas chromatograph (GC). Results showed that it took 2 weeks to remove the added nitrate with N2O emission occurring over a period of 4 d. The apparent denitrification dynamics were assumed to follow the Michaelis–Menten equation. The maximum denitrification rate and Km value were determined as 12.6 mg N m −2 h−1, and 6.5 mg N l−1, respectively. Therefore the maximum capacity for nitrate removal by the marsh soil would be equivalent to 110 g N m−2 yr−1, with more than 30% of nitrogen gas evolved as N2O. For typical nitrate concentrations in Mississippi River water of about 1 mg N l−1, nitrate would be removed at a rate of 14.7 g N m−2 yr−1 with N2O emission about 1.5%. A denitrification dynamic model showed that the efficiency of nitrate removal would largely depend on the water discharge rate into the ponded wetland. Higher discharge rate will result in less retention time for the water in the marsh where nitrate is denitrified. 相似文献
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Jean Rouchaud Pascal Roucourt Alfons Vanachter Frans Benoit Norbert Ceustermans 《毒物与环境化学》2013,95(1):59-68
Broccoli and Chinese cabbage crops were treated at planting by pouring an emulsion of the fungicide chlorothalonil around the stem of the plant. During culture, chlorothalonil was biodegraded in soil into l,3‐dicarbamoyl‐2,4,5,6‐tetrachlorobenzene (compound 1), l,3‐dicyano‐4‐hydroxy‐2,5,6‐trichlorobenzene (compound 2), and l‐carbamoyl‐3‐cyano‐4‐hydroxy‐2,5,6‐trichlorobenzene (compound 3). Compounds 1 and 2 were the major metabolites in soil. In the harvested broccoli (in the flower) and Chinese cabbages (the leaves), the concentrations of chlorothalonil and of compounds 1 and 2 were lower respectively than 0.1, 0.1 and 0.5mg/kg fresh weight. 相似文献
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