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91.
92.
公众参与环评听证法律问题研究 总被引:1,自引:0,他引:1
对于比较敏感或涉及面较广建设项目的环境影响评价公众参与的表达途径,一般采用听证会。在中国,公众参与环评听证会,在听证公告、代表遴选、政府回应方面都面临困境,需要分别找寻出路:对于听证公告,要明确适用范围、确立合理期限、完善内容规定、采用合理方式来应对;对于代表遴选,建立一整套行之有效的制度势在必行;对于政府回应,建立一个合理的评估系统、启动司法审查不失为良策。 相似文献
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94.
Zhaoxing Han Zhenyao Shen Yongwei Gong Qian Hong 《Frontiers of Environmental Science & Engineering in China》2011,5(1):119-129
Emission trading is one of the most effective alternatives to controlling water pollution. Water environmental functional
zone (WEFZ) is used to determine the water quality standard and identify the zone boundary for each river or reach. In this
study, a new emission trading scheme was addressed based on WEFZ, accounting for both the temporal dimension and water quality
control. A temporal factor of emission trading was proposed based on variations in the environmental capacity within a year
by dividing the year into three periods, including high, normal, and low periods of environmental capacity. During each period,
emission trading was implemented exclusively. A water quality-control scheme was suggested based on the water quality requirement
in the water functional zone, in which the water quality at the downstream boundary of the zone was required to meet the water
standard following auto-purification in the stream. Two methods of calculating water quality control are addressed for point-source
pollution and non-point-source pollution. The calculated temporal dimension and water quality control were located in Dongxi
River of the Daning Watershed in the Three Gorges Watershed. The high period was during June, July, and August, the normal
period was during April, May, September, and October, and the low period was during January, February, March, November, and
December. The results from the water quality calculation demonstrated that the discharge of point-source and non-point-source
pollutions led to an excess of common contaminants at the downstream boundary of WEFZ. The temporal and spatial factors above
should be incorporated into the emission trading scheme based on WEFZ. 相似文献
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Jiarui Han Qian Ye Zhongwei Yan Meiyan Jiao Jiangjiang Xia 《Frontiers of Environmental Science & Engineering in China》2011,5(4):533-542
The purpose of improving weather forecast is to enhance the accuracy in weather prediction. An ideal forecasting system would
incorporate user-end information. In recent years, the meteorological community has begun to realize that while general improvements
to the physical characteristics of weather forecasting systems are becoming asymptotically limited, the improvement from the
user end still has potential. The weather forecasting system should include user interaction because user needs may change
with different weather. A study was conducted on the conceptual forecasting system that included a dynamic, user-oriented
interactive component. This research took advantage of the recently implemented TIGGE (THORPEX interactive grand global ensemble)
project in China, a case study that was conducted to test the new forecasting system with reservoir managers in Linyi City,
Shandong Province, a region rich in rivers and reservoirs in eastern China. A self-improving forecast system was developed
involving user feedback throughout a flood season, changing thresholds for flood-inducing rainfall that were responsive to
previous weather and hydrological conditions, and dynamic user-oriented assessments of the skill and uncertainty inherent
in weather prediction. This paper discusses ideas for developing interactive, user-oriented forecast systems. 相似文献
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98.
采用恒温振荡平衡法研究了乐山市某一水田土壤和未种植过的土壤对铜离子的吸附特性。结果表明:溶液的pH值越大,土壤对铜离子的吸附量越大;铜标准溶液的初始浓度越大,土壤对铜离子的吸附量越大;土壤含腐殖酸越多,对铜离子的吸附能力越强;水田土壤比未种植过的土壤对铜离子的吸附能力更强;用Freundlish方程来描述各种土壤对铜离子的吸附特性均得到了较好的相关性。 相似文献
99.
100.
Chunyan Liu Kai Wang Shixie Meng Xunhua Zheng Zaixing Zhou Shenghui Han Deli Chen Zhiping Yang 《Agriculture, ecosystems & environment》2011,140(1-2):226-233
One-year winter wheat–summer maize rotation is the most popular double cropping system in north-central China, and this highly productive system is an important source of nitrous oxide (N2O) and nitric oxide (NO) emissions due to the high fertilizer N and irrigation water inputs. To sustain the high crop production and mitigate the detrimental impacts of N2O and NO emissions, improved management practices are extensively applied. The aim of this study is therefore to evaluate the effects of an improved management practice of irrigation, fertilization and crop straw on grain yield and N2O and NO emissions for a wheat–maize rotation field in northern China. Using automated and manual chamber measuring systems, we monitored N2O and NO fluxes for the conventional (CT, 2007–2008), improved (IT, 2007–2008), straw-amended (WS, 2008–2009), straw-not-amended (NS, 2008–2009), and no N-fertilizer treatments (WS–NN, 2008–2009), respectively, for one rotation-year. The grain yields were determined for CT and IT for three rotation-years (2005–2008) and for WS, NS and WS–NN for one rotation-year (2008–2009). The improved management of irrigation and fertilization reduced the annual N fertilization rate and irrigation amount by 17% and 30%, respectively; increased the maize yield by 7–14%; and significantly decreased the N2O and NO emissions by 7% (p < 0.05) and 29% (p < 0.01), respectively. The incorporation of wheat straw increased the cumulative N2O and NO emissions in the following maize season by 58% (p < 0.01) and 13%, respectively, whereas the effects of maize straw application were not remarkable. The N2O and NO emission factors of applied N were 2.32 ± 2.32% and 0.42 ± 1.69% for wheat straw and 0.67 ± 0.23% and 0.54 ± 0.15% for chemical N-fertilizers, respectively. Compared to conventional management practices using high application rates of irrigation water and chemical N-fertilizer as well as the field burning of crop straw, the improved management strategy presented here has obvious environmentally positive effects on grain yield and mitigation of N2O and NO emissions. 相似文献