新疆春季积雪融化极易引发融雪性洪水,给当地的农牧业生产和人民生活都带来严重影响和财产损失.融雪中包含复杂的水-热耦合过程,融雪水产流机制受冻土影响,融雪洪水模拟与预报十分复杂,一直是水文研究的难点.新疆大学刘志辉研究团队长期开展季节性融雪洪水模拟与预报研究,在积雪特性监测、冻土融雪水产流机制、分布式融雪径流模型以及融雪洪水预警等方面进行了深入研究.首次提出冻土条件下的融雪水的三个产流机制,即冻土未融化时的超渗产流、冻土部分融化时的饱和产流以及冻融期的交替产流;基于热量平衡和水量平衡研制出分布式融雪径流模型,耦合WRF(Weather Research and Forcasting model)模型实现融雪洪水预报;研制出新疆融雪洪水预警决策支持系统,实现融雪洪水预警系统的应用.研究成果有助于融雪洪水模拟的进一步研究,也为政府部门融雪洪水预警决策提供科学依据.
Nitrate contamination has become one of the most important issues for surface water and groundwater. N2O, with an increasing contribution to global warming, has been more and more attention by the IPCC recently. As we...
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Nitrate contamination has become one of the most important issues for surface water and groundwater. N2O, with an increasing contribution to global warming, has been more and more attention by the IPCC recently. As well known, denitrification plays a major role in nitrogen cycle of aquatic ecosystems and operates at rates far below its potential under proper conditions. Sediments are the single largest pool of nitrogen in wetland ecosystems. During this process, facultative anaerobic bacteria transform nitrite into nitrogen gas which dissolves in the groundwater and diffuses into the atmosphere finally when it shows up with seepage or spring in the wetland. To seek a mechanistic understanding of N removal in natural wetland ecosystem, a case study was carried in terms of denitrification rate at the Ochi catchment, Chiba, Japan. In this study, samples of intact soil cores in 0–20cm were taken along the groundwater flow path, which including 2 samples in the unsaturated zone and 2 in saturated wetland ecosystem. Denitrification capacity of soil was quantified using acetylene (C2H2) inhibition/gas chromatography ECD method with time intervals of 0, 2, 6, 12, 24 h. Total-N and Total-C contents and amount of denitrifying bacteria were also analyzed. It is found that denitrification ability is low for all 2 samples in the unsaturated zone and high in saturated zone. Results show that N2O emission flux after C2H2-inhibition ranges from 0 to 1.17 gN m^-2h^-1, with an increase value prior 6 hours and slow down after that.
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