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41.
Arora S 《Environmental monitoring and assessment》2009,151(1-4):311-315
Samples of okra and brinjal fruits, collected from non-integrated pest management (Non-IPM) and IPM fields in village Raispur, Ghaziabad District (U.P.), were analyzed for pesticide residues. The residues of chlorpyrifos in soil were 4.219 and 1.135 microg/g at harvest time in non-IPM and IPM fields of summer okra crop from initial value of 0.407 microg/g before sowing, while in brinjal crop, it was not detected in soils of any trials. During first year of study, the residues of chlorpyrifos and cypermethrin in okra fruit were observed to be 5.75 and 0.625 microg/g, respectively, for non-IPM fields; and 0.104 microg/g of chlorpyrifos for IPM trials. The pesticide residues were found to be 0.77, 1.39, 0.4 and 0.32 microg/g for cypermethrin, chlorpyrifos, monocrotophos and dimethoate, respectively, for non-IPM okra fruits in second year. For brinjal fruit, residues of cypermethrin and imidacloprid were not detected in IPM trials while it was found to be 0.28 and 0.78 microg/g for cypermethrin and chlorpyrifos respectively, for non-IPM trials. 相似文献
42.
We assessed current water consumption during liquid fuel production, evaluating major steps of fuel lifecycle for five fuel
pathways: bioethanol from corn, bioethanol from cellulosic feedstocks, gasoline from U.S. conventional crude obtained from
onshore wells, gasoline from Saudi Arabian crude, and gasoline from Canadian oil sands. Our analysis revealed that the amount
of irrigation water used to grow biofuel feedstocks varies significantly from one region to another and that water consumption
for biofuel production varies with processing technology. In oil exploration and production, water consumption depends on
the source and location of crude, the recovery technology, and the amount of produced water re-injected for oil recovery.
Our results also indicate that crop irrigation is the most important factor determining water consumption in the production
of corn ethanol. Nearly 70% of U.S. corn used for ethanol is produced in regions where 10–17 liters of water are consumed
to produce one liter of ethanol. Ethanol production plants are less water intensive and there is a downward trend in water
consumption. Water requirements for switchgrass ethanol production vary from 1.9 to 9.8 liters for each liter of ethanol produced.
We found that water is consumed at a rate of 2.8–6.6 liters for each liter of gasoline produced for more than 90% of crude
oil obtained from conventional onshore sources in the U.S. and more than half of crude oil imported from Saudi Arabia. For
more than 55% of crude oil from Canadian oil sands, about 5.2 liters of water are consumed for each liter of gasoline produced.
Our analysis highlighted the vital importance of water management during the feedstock production and conversion stage of
the fuel lifecycle. 相似文献
43.
Non-intrusive characterization of the redox potential of landfill leachate plumes from self-potential data 总被引:3,自引:0,他引:3
Contaminant plumes (e.g., associated with leakages from municipal landfills) provide a source of natural electrical potentials (or "self-potentials") recordable at the Earth's surface. One contribution to these self-potentials is associated with pore water flow (i.e., the "streaming potential"), and the other is related to redox conditions. A contaminant plume can be regarded as a "geobattery": the source current potentially results from the degradation of the organic matter by micro-organisms, which produces electrons. These electrons are then carried by nanowires that connect bacteria and thorough metallic particles that precipitate in areas of strong redox potential gradient. In the case of the Entressen landfill (South of France), reported here, the hydraulic head differences measured in piezometers outside the contaminant plume is strongly linked to the surface self-potential signals, with a correlation coefficient of -0.94. We used a Bayesian method that combines hydraulic head and self-potential data collected outside the contaminated area to estimate the streaming potential component of the collected self-potential data. Once the streaming potential contribution was removed from the measured self-potentials, the correlation coefficient between the residual self-potentials and the measured redox potentials in the aquifer was 0.92. The slope of this regression curve was close to 0.5, which was fairly consistent with both finite element modelling and the proposed geobattery model. 相似文献
44.
Sharan Abhishek Nara Seema 《Environmental science and pollution research international》2021,28(39):54802-54810
Environmental Science and Pollution Research - The exposure-effect study was conducted to evaluate the effect of Co3O4 nanoparticles on Tetraselmis suecica. The growth suppressing effect has been... 相似文献
45.
Seema Purushothaman Sheetal Patil Ierene Francis 《Environment, Development and Sustainability》2012,14(4):507-527
Over 56% of the population of Karnataka state in India depends on agriculture for its livelihood. A majority of these are small and marginal farmers, with land under 2?ha, responsible for nearly half the food production in the state. The increasing rate of farmers’ suicides in the state is reportedly fuelled among others, by increasing input costs, crop failure and accumulating debt. This triggered several policy measures, intended to improve the sustainability of farm livelihoods including those promoting organic practices in farming. The paper presents the results of a multicriteria analysis conducted to comprehend the effects of two different practice–policy scenarios on smallholders in Karnataka—one scenario ‘with policy’ (WP) to support organic agricultural practices and the other a ‘business as usual’ (BAU) scenario that continues to stress on market-based, synthetic inputs for cultivation. The paper integrates results from quantitative and participatory techniques to compare and project effects on ecological, economic and socio-cultural indicators. Ecological and economic indicators in WP are projected to be significantly higher than BAU in a majority of the study sites, while socio-cultural indicators show mixed outcomes, depending on regional and social characteristics. Across the study sites, small and rain-fed farms are benefitted better in WP compared to large and irrigated farms, respectively. Among small and rain-fed farms, soil fertility, water quality, agro-diversity, net income and freedom from indebtedness improve considerably, while there is slight reduction in collective activities and no perceivable change in land-based subsistence. 相似文献
46.
Nihalani Seema Meeruty Ashish 《Environmental science and pollution research international》2021,28(45):63523-63531
Environmental Science and Pollution Research - Water quality index (WQI) is used for representing the overall water quality in the form of a number to qualify its use for domestic, irrigation,... 相似文献
47.
An attempt has been made to analyze various types of organizational training imparted in Indian Industries while implementing cleaner production. The study was carried out in two industrialized states of India, namely Maharashtra and Gujarat. with participation of eight firms from each state. The various sources of training for the Indian industries have also been studied. A case study each from the two states, viz. Maharashtra and Gujarat have been presented in this paper. It is found that more than half of the industrial units have given importance to various kinds of training during the implementation of cleaner production. When it comes to training in environmental management system (EMS), nearly half of the firms have gone in for it. Among the sources of training, the most useful training was the training imparted by in-house staff and on-the-job training. Lastly, suppliers of cleaner technologies seem to have also played an active role in training as revealed by few of the participating units 相似文献
48.
Contemporary socio-economic transformations in South Asia are creating increasingly serious water problems (scarcity, flooding, pollution) and conflicts. Conflicts over water distribution, water-derived benefits, and risks often play out along axes of social differentiation like caste, wealth, and gender. Those with least power, rights, and voice suffer lack of access, exclusion, dispossession, and further marginalisation, resulting in livelihood insecurity or increased vulnerability to risks. In this paper we propose analysing these problems as problems of justice – problems of distribution, recognition, and political participation. Drawing on wider environmental justice approaches, a specific water justice focus needs to include both the specific characteristics of water as a resource and the access, rights, and equity dimensions of its control. We argue that recognising water problems as problems of justice requires a re-politicisation of water, as mainstream approaches to water resources, water governance, and legislation tend to normalise or naturalise their – basically political – distributional assumptions and implications. An interdisciplinary approach that sees water as simultaneously natural (material) and social is important here. We illustrate these conceptual and theoretical suggestions with evidence from India. 相似文献
49.
ABSTRACT This study examined the feasibility of extending the Accelerated Salt Transport (ASTRAN) method of groud water quality control to a complex, closed basin which is experiencing ground water quality degradation from irrigated agriculture (e.g., the Tulare Lake Basin in the Southern portion of the California Central Valley). A linear programming model was constructed and parametric analysis conducted which produced results with a “general appraisal” (or “level B”) degree of accuracy. The study concluded that a drainage water export drain is required in order to implement a long-term solution but that ground water degradation can be mitigated by a combination of the ASTRAN method and other measures even with existing entitlements and legal constraints. 相似文献
50.