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农田土壤氧化亚氮产生机制和相关模型研究进展 被引量:7
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作者 张亚捷 牛海山 《生态与农村环境学报》 CAS CSCD 北大核心 2019年第5期554-562,共9页
氧化亚氮(N2O)作为一种重要的温室气体,在大气中浓度不断上升,对环境的潜在破坏性也逐渐加强。农田土壤是N2O的重要产生源,其排放量约占全球N2O排放总量的70%。土壤中硝化、反硝化、硝化微生物反硝化和硝态氮异化还原成铵等作用是N2O生... 氧化亚氮(N2O)作为一种重要的温室气体,在大气中浓度不断上升,对环境的潜在破坏性也逐渐加强。农田土壤是N2O的重要产生源,其排放量约占全球N2O排放总量的70%。土壤中硝化、反硝化、硝化微生物反硝化和硝态氮异化还原成铵等作用是N2O生成的主要过程。在阐述土壤N2O产生机制的基础上,详述了预测农田土壤N2O排放模型如DNDC、WNMM、DAYCENT和Ecosys等机制过程模型模拟农田土壤N2O排放的机制及在相关研究中所取得的最新成果;并就农田土壤N2O排放模型的未来研究重点和方向进行探讨和展望,认为当前模型在机制和参数选择等方面仍有待改进并应更广泛地用于区域模拟。研究农田N2O产生机制并发展相应模型,对于预测、减少农田N2O排放,维护生态平衡等都具有十分重要的科学意义。 展开更多
关键词 氧化亚氮 农田土壤 产生机制 机制过程模型
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Frequency-dependent rupture process,stress change,and seismogenic mechanism of the 25 April 2015 Nepal Gorkha M_w 7.8 earthquake 被引量:8
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作者 YIN JiuXun YAO HuaJian +3 位作者 YANG HongFeng LIU Jing QIN WeiZe ZHANG HaiJiang 《Science China Earth Sciences》 SCIE EI CAS CSCD 2017年第4期796-808,共13页
On 25 April 2015,an M_w 7.8 earthquake occurred on the Main Himalaya Thrust fault with a dip angle of^7° about77 km northwest of Kathmandu,Nepal.This Nepal Gorkha event is the largest one on the Himalayan thrust ... On 25 April 2015,an M_w 7.8 earthquake occurred on the Main Himalaya Thrust fault with a dip angle of^7° about77 km northwest of Kathmandu,Nepal.This Nepal Gorkha event is the largest one on the Himalayan thrust belt since 1950.Here we use the compressive sensing method in the frequency domain to track the seismic radiation and rupture process of this event using teleseismic P waves recorded by array stations in North America.We also compute the distribution of static shear stress changes on the fault plane from a coseismic slip model.Our results indicate a dominant east-southeastward unilateral rupture process from the epicenter with an average rupture speed of ~3 km s^(-1).Coseismic radiation of this earthquake shows clear frequency-dependent features.The lower frequency(0.05-0.3 Hz) radiation mainly originates from large coseismic slip regions with negative coseismic shear stress changes.In comparison,higher frequency(0.3-0.6 Hz) radiation appears to be from the down-dip part around the margin of large slip areas,which has been loaded and presents positive coseismic shear stress changes.We propose an asperity model to interpret this Nepal earthquake sequence and compare the frequency-dependent coseismic radiation with that in subduction zones.Such frequency-dependent radiation indicates the depth-varying frictional properties on the plate interface of the Nepal section in the main Himalaya thrust system,similar to previous findings in oceanic subduction zones.Our findings provide further evidence of the spatial correlation between changes of static stress status on the fault plane and the observed frequency-dependent coseismic radiation during large earthquakes.Our results show that the frequency-dependent coseismic radiation is not only found for megathrust earthquakes in the oceanic subduction environment,but also holds true for thrust events in the continental collision zone. 展开更多
关键词 Pg wave Tomography Crust Velocity Anisotropy Volcano
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