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Hydrologic separation and their contributions to N loss in an agricultural catchment in hilly red soil region 总被引:1,自引:0,他引:1
The impacts of hydrological processes on N loss is of great value to understand the N transport at catchment scale,which is far from clear. Rainfall, soil water, groundwater and stream water and their N concentrations were monitored from March 2017 to February 2018 in Sunjia agricultural catchment of the red soil critical zone. Objectives of this study were:(1) to determine the dynamics of N concentration of different waters and their N loads;(2) to assess their contributions to N load of streamflow in the paddy and upland mixed agricultural catchment. Our results showed that the N concentrations of soil water(4.8 mg L~(-1)) and groundwater(6.0 mg L~(-1)) were the highest, approximately 2 to 5 times higher than those of stream water(2.7 mg L~(-1)), rain water(1.7 mg L~(-1)) and irrigation water(1.2 mg L~(-1)). The N net loss of the catchment(38.2 kg ha~(-1) yr~(-1))accounted for 15% of the total fertilizer N input. Rainy season(April–June) was a high-risk period of N loss, contributing to more than one third of the total annual loss amount. Using end-member mixing analysis model(EMMA), we found groundwater(whose discharge accounted for 25% of the catchment streamflow) was an important source for the N loss in the agricultural catchment. Even in this catchment with coexisting upland and paddy field ecosystems, identified end-members could be used to predict the N load well(R~20.87, p0.001). These results can deepen our understanding of the relationship between hydrological process and N transport in the red soil critical zone and are also helpful to improve the water and fertilizer management in subtropical agricultural catchment. 相似文献
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对印尼地区3574次M≥5.0地震震源断层面上的海潮负荷应力进行计算,研究了地震断层上的负荷应力随深度变化以及随断层倾角和走向的变化特征.结果表明,地震断层上的负荷正应力大于负荷切应力.逆断层上的负荷应力最大,其它依次为斜滑断层、正断层和走滑断层.倾角范围在0°—50°的断层上的负荷正应力随倾角增大有减小趋势,负荷切应力在30°—50°倾角范围的断层上较大.负荷应力随断层走向的趋势性变化不明显.不同类型断层上的负荷正应力和切应力在震源深度15km处均达到最大,之后随深度增加而减小.当震源深度小于40km时,断层面上的海潮负荷应力的量级与固体潮应力相当.因此指出,在潮汐应力对地震影响的研究中,对震源深度小于40km的海洋和沿海地震,除固体潮汐应力外还需要考虑海潮负荷应力的影响. 相似文献
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The size and variation of the urban increase of atmospheric downward radiation have been observed in the Tokyo area. Downward radiation flux, air temperature and humidity were observed by automobile traverses along the expressways across the greater Tokyo area from the Kanagawa (southwest) to the Chiba (east) sides. The observations were carried out on clear and rather calm nights in the winters of 1975–1978. The results show that Tokyo receives increased downward radiation in comparison with the amount received in the surrounding rural areas. The area of increased downward flux extends about 40 km at its widest along the observation route when the winds are weak, and the rural-urban increase of downward radiation becomes about 8% on the Kanagawa side and about 10% on the Chiba side. The area of increased downward flux is close to that of the urban heat island, where an urban decrease of water vapour content is also observed. The present analysis shows that the large urban increase of radiation flux is due to the difference between the vertical temperature profiles over the urban and rural regions. The development of a surface temperature inversion over the rural area and the urban decrease in water vapour content provide a rather smaller rural-urban difference in downward radiation compared with the development of a heat island. 相似文献
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利用云南地震台网记录的云南及其周边地区2000~2017年的宽频带数字地震资料,按照新的震级国家标准《地震震级的规定》(GB17740-2017)的测定方法,使用同一套软件,对地方性震级M_L、面波震级M_S、宽频带面波震级M_S(BB)、短周期体波震级m_b、宽频带体波震级m_B(BB)和矩震级M_W重新进行人工测量。并分别用一般线性回归和正交回归方法,对不同震级之间的关系进行对比,给出它们之间的经验关系式。研究结果表明:(1)当M4.5时,各种震级之间相差不大,使用地方性震级M_L可以较好地表示地震的大小,也能够更加充分地反映区域特性;当4.5≤M8.0时,宽频带面波震级M_S(BB)和矩震级MW均能较好地表示地震的大小,但矩震级M_W的测定需要一定时间,因此在速报工作和大震应急中,可以使用M_S(BB)表示地震的大小; M_S(BB)的测定方法与国际接轨,消除0.2的震级偏差。(2)对于面波震级MS和宽频带面波震级M_S(BB),由于面波测量的位置、计算公式和量归函数不同,M_S比M_S(BB)系统偏高0.2左右;短周期体波震级mb较宽频带体波震级m_B(BB)整体偏小0.2左右,主要区别在于仿真模式。(3)宽频带面波震级M_S(BB)和宽频带体波震级m_B(BB)均在垂直向原始宽频带记录上直接测定,取消波形仿真环节,另外,相比测定m_B(BB)震中距要求大于5度,许多台站被限制,M_S(BB)更利于区域台网测定。(4)当3.5≤ML≤6.5时,M_L较M_W整体偏大; M_S≥3.5时,M_S也较M_W整体偏大,且均随着震级增加,偏差值呈上升趋势。(5)当M≥8.0时,面波震级出现饱和现象,使用矩震级M_W表示M≥8.0地震的大小。 相似文献
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The size and variation of the urban increase of atmospheric downward radiation have been observed in the Tokyo area. Downward radiation flux, air temperature and humidity were observed by automobile traverses along the expressways across the greater Tokyo area from the Kanagawa (southwest) to the Chiba (east) sides. The observations were carried out on clear and rather calm nights in the winters of 1975–1978. The results show that Tokyo receives increased downward radiation in comparison with the amount received in the surrounding rural areas. The area of increased downward flux extends about 40 km at its widest along the observation route when the winds are weak, and the rural-urban increase of downward radiation becomes about 8% on the Kanagawa side and about 10% on the Chiba side. The area of increased downward flux is close to that of the urban heat island, where an urban decrease of water vapour content is also observed. The present analysis shows that the large urban increase of radiation flux is due to the difference between the vertical temperature profiles over the urban and rural regions. The development of a surface temperature inversion over the rural area and the urban decrease in water vapour content provide a rather smaller rural-urban difference in downward radiation compared with the development of a heat island. 相似文献
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利用云南地震台网全面数字化之后(2008-2017年)的记录资料,按照《地震震级的规定》(GB17740-2017)规定的测定方法,对云南地震台网记录的ML≥4. 0地震,重新人工测量其宽频带面波震级MS(BB)和矩震级Mw,与中国地震台网测定的MS7以及美国地震台网(NEIC)测定的MW(NEIC)进行对比分析。结果表明:①MS(BB)和MS7测量方法相同,量规函数相等,两者一致性最好。②对于面波震级与矩震级,当MW在3. 5左右时,MS7,MS(BB)与MW一致性最好;MW<3. 5时,MS7和MS(BB)均小于MW;MW> 3. 5时,MS7和MS(BB)大于MW。③MS(BB)与美国地震台网相比较,MS(BB)在5. 5和6. 0左右时,与MW(NEIC)一致性最好,几乎相等;MS(BB)<5. 5时,MS(BB) 6. 0时,MS(BB)> MW(NEIC)。④MW和MW(NEIC)之间存在偏差,MW整体小于MW(NEIC)。 相似文献
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云南地区近震震级与面波震级转换关系研究 总被引:2,自引:1,他引:1
利用云南地区数字地震台站记录的云南及周边地区2000~2011年4.0级以上可同时测定近震震级ML和面波震级MS的433个地震波形数据,将速度数据进行仿真,即近震震级ML在仿真短周期地震仪DD-1记录上测定,面波震级MS在仿真中长周期地震仪SK记录上测定,对全部人工重新测定的ML和MS,采用线性回归和正交回归方法,得到了它们之间的转换关系式。结果表明,自20世纪70年代使用至今的公式MS = 1.13ML - 1.08与云南地区实际情况存在系统偏差,已不适用于云南地区。考虑到区域差异,认为采用关系式MS = 1.13ML - 0.86作为新的转换关系更合理适用。同时,对云南地震台网和国家地震台网都有记录的地震数据进行对比,发现云南台网和国家台网测定的绝大多数地震ML差值为- 0.2~ 0.4,差值为0.2的地震数量最多;MS差值为-0.4~0.2,差值为-0.2的地震数量最多。 相似文献
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选取云南地震台网记录的地震波形资料,通过基于遗传算法的Atkinson方法分别计算云南3个区域的介质品质因子Q_0值。根据云南地区地震波衰减的区域性差异,通过震级偏差统计分析了47个台站的单台M_L震级偏差情况。结果显示:云南属于低Q_0值地区,区域性差异明显。位于云南西部区域1的Q_0值相对较高,为251. 3;东部的区域3的Q_0值次之,为216. 9;中部的区域2的Q_0值最低,为102. 6。Q_0值越小的地区,S波衰减程度越大,单台震级偏小于台网平均震级的台站也就越多。同一地区的台站在测定相同区域内的地震时,虽然地震波非弹性衰减程度相近,但由于受到各台站场地不同增益作用的影响,其单台震级偏差情况有所不同。 相似文献
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利用2016年云南测震台网记录到的地脉动数据,运用H/V谱比法计算分析了47个测震台站在0.1~20.0Hz频段内的场地响应。选取2012~2016年期间云南测震台网记录到的ML≥2.5地震做单台震级偏差统计分析,挑出受场地放大作用而出现单台震级大于台网平均震级的台站做去场地放大校正,然后重新统计单台震级偏差情况。计算结果显示云南测震台网的台站受台基条件和所处位置等地质构造因素影响,均存在一定程度的场地放大作用,大部分台站场地响应的卓越频率为1~6Hz,放大倍数为2~4倍。受场地放大作用的影响,大姚、芒市等19个台站的单台ML震级大于台网平均震级。在去除场地放大作用后,台站单台震级与台网平均震级的偏差有所减小。 相似文献
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