海南热带雨林国家公园重要地质遗迹特征及综合评价     

吕昭英  薛桂澄  何玉生  林义华  魏昌欣  胡在龙  袁勤敏  吕嫦艳  黄武轩  王超  张志壮  林弟  常振宇 《地质论评》2023,69(4):2023040020-2023040020

海南热带雨林国家公园内地质遗迹资源是热带雨林内自然资源和自然环境极其重要的组成部分,地质遗迹所赋存的地质环境,是热带雨林生物多样性的基础条件。推进地质遗迹资源的科学保护和合理利用是建设海南热带雨林国家公园的重要内容之一。基于对海南热带雨林国家公园全面系统的地质遗迹调查评价工作,依据《地质遗迹调查规范》（DZ/T 0303- 2017）,本文系统的总结了海南热带雨林国家公园内重要地质遗迹资源的特征和分布,对其科学价值和美学价值进行了定性和定量综合分级评价。研究结果表明：海南热带雨林国家公园内地质遗迹类型多样,以基础地质和地貌景观大类为主,包括重要化石产地类、岩土体地貌类、水体地貌类以及火山地貌类4类,古生物群化石产地、岩溶地貌、侵入岩地貌、碎屑岩地貌、瀑布、火山岩地貌6个亚类,共计21处重要地质遗迹点。其中,世界级地质遗迹点的有1处,省级地质遗迹点17处,省级以下地质遗迹点3处。通过对海南热带雨林国家地质公园地质遗迹评价,为国家公园内地质遗迹资源保护和利用提供基础资料和思路。  相似文献   

Advances and Challenges in the Study on the Tropical Rainfall Changes Under Global Warming*     

Ping Huang  Shijie Zhou 《地球科学进展》2018,33(11):1181-1192

Since tropical rainfall is important in the global energy and hydrologic cycle, the tropical rainfall changes under global warming have attracted extensive attention around the world in recent decades. The advances in the observational studies and model projection for the tropical rainfall changes under global warming were reviewed here. The frontiers in the mechanism of regional tropical rainfall changes and the approaches of rainfall change research are summarized. The large intermodel spread in the multi-model projections, the sources of uncertainty and the methods to reduce the uncertainty were also introduced. Finally, the challenges about the tropical rainfall changes were discussed.  相似文献   

强降雨条件下框架预应力锚杆柔性支护结构整体稳定性影响参数分析     

周勇  王栋良  王鑫 《工程地质学报》2015,23(2):233-244

为完善框架预应力锚杆柔性支护结构稳定性研究,针对该结构的稳定性分析和设计均未考虑降雨入渗影响的现状,基于GeoStudio软件,分析了黄土地区强降雨条件下的框架预应力锚杆柔性支护结构的整体稳定性影响参数,在分析中考虑了土体含水率变化对摩擦型灌浆锚杆极限抗拔承载力的影响。分析结果表明:降雨持时、降雨强度和地下水位对框架预应力锚杆柔性支护结构的整体稳定性有明显的影响; 土体饱和渗透系数的影响十分显著; 渗透各向异性的影响可以忽略; 降雨条件下框架预应力锚杆柔性支护结构的安全系数变化存在滞后效应:随着降雨持时和土体饱和渗透系数增大,滞后效应逐渐减弱; 降雨强度越大、初始地下水位越高,滞后效应越明显。本文的研究成果能为非饱和黄土地区框架预应力锚杆柔性支护结构考虑降雨影响的设计和施工提供指导。  相似文献   

Physical processes that drive the seasonal evolution of the Southwestern Tropical Atlantic Warm Pool     

《Dynamics of Atmospheres and Oceans》2015

The thermodynamics of the seasonal evolution of the Southwestern Tropical Atlantic Warm Pool (hereafter SWTAWP), which is delimited by the 28 °C isotherm, is investigated using the Regional Ocean Modeling System (ROMS). Results indicate that the net heat flux is responsible for the appearance and extinction of the SWTAWP. From March to May, the SWTAWP attains its maximum development and sometimes merges with equatorial warm waters towards the African continent, whose development follows the same period. Along the equator, the combination of oceanic terms (i.e., advection and diffusion) is important to promote the separation – when it occurs – of equatorial warm waters from southwestern tropical waters, which develops off the Brazilian coast. An analysis of the relative contribution of the temperature tendency terms of the mixed layer (ML) heat budget over the appearance, development and extinction of the SWTAWP is also done. The most important term for warming and cooling inside of the ML is the net heat flux at the sea surface. The ML is heated by the atmosphere between October and April, whereas the upper ocean cools down between May and September. The highest heat content values occur during the lower-temperature period (August to October), which is linked to the deepening of the ML during this time period. The horizontal advection along the equator is important, particularly at the eastern domain, which is influenced by the cold tongue. In this area, the vertical diffusive term is also significant; however, it presents values near zero outside the equator. These results contribute to a better understanding of the behavior of the heat budget within the tropical Atlantic, as previous studies over this region focused along the equator only.  相似文献   

Modulation of interannual variability of tropical cyclone activity over Southeast Indian Ocean by negative IOD phase     

《Dynamics of Atmospheres and Oceans》2015

Tropical cyclones (TCs) over Southeast Indian Ocean (SEIO) have the notable interannual variability caused by ENSO and Indian Ocean Dipole (IOD). In the September–November of El Niño and October–November of positive IOD (PIOD), SEIO TCs is far less than its climatology. However, it is hard to separately understand El Niño and PIOD's impact on SEIO TCs due to their similar occurrence time and time scale. Unlike El Niño and PIOD, SEIO TCs is remarkably more than its climatology only in September–November of negative IOD (NIOD) instead of La Niña. Consequently, it is concluded NIOD mainly affects SEIO TCs’ increase. Diagnose results suggest the relative humidity (RH) contributes mostly to the TCs’ increase, vertical wind shear provides the secondary positive contribution, vorticity term also makes a weak positive contribution and PI term's contribution even may be negligible. The study still uncovers the process of RH change: NIOD reaches its peak period and changes atmosphere circulation to make a positive low-level vorticity anomaly over SEIO. Vorticity anomaly strengthens upward motion. The vertical velocity anomaly and climatogical specific humidity (SH) work together to make vertical advection play a dominant role in SH variation. SH's change mainly reflects in RH variation. Eventually, all of these associates with NIOD lead to more SEIO TCs in September–November and the significance of difference is above 99%.  相似文献   

Experimental simulation and dynamic model analysis of Cadmium(Cd) release in soil affected by rainfall leaching in a coal-mining area          下载免费PDF全文

ZHOU Hao  WU Yong  HUANG Feng  TANG Xue-fang 《地下水科学与工程》2021,9(1):65-72

In order to explore the influence of rainfall on the release of heavy metal Cadmium(Cd)in soil in a coal-mining area,soil column leaching experiments were carried out by simulating 3 types of rainfall(acid rain,normal rainfall,and actual rainfall)with 5 different pH values(4,5,6,6.7,7),and 65 groups of data about leachate pH value and Cd concentration were obtained respectively.The results indicate the general change rule of Cd concentration in leachate:(1)the easiness of Cd release is negatively correlated to the pH value of leaching solution and positively correlated the leaching amount;(2)leaching solution with lower pH values shows more obvious release stages.Leached by solution with different pH values,the release of Cd in soil ranks as follows:Acid rain group>normal rainfall group>actual rainfall group.In the first stage,the acidity of rainfall has a significant impact on the release of Cd in soil,but in the second stage,the release of Cd is alleviated due to the soil buffering.Among the four dynamic equations to simulate the release of Cd in soil,the modified Elovich equation can describe the process most accurately,with the highest coefficient of determination R2 of 0.9975.These results can serve as a reference for further study on the migration,transformation and enrichment of Cd in soil.  相似文献   

滁州市汛期雨量多尺度时间变化特征及其GA-BP模型预测     

熊世为  张新民  段春锋  郁凌华  胡姗姗 《沙漠与绿洲气象(新疆气象)》2019,13(5):89-93

利用集合经验模态分解EEMD方法分析了滁州地区汛期雨量的多尺度时间变化特征,以国家气候中心的百余项环流指数作为预报因子并利用主成分分析进行预测因子优化,在此基础上建立基于GA-BP神经网络的汛期雨量气候预测模型,研究结果表明:该地区1961—2017年汛期雨量存在准2 a、4 a的年际尺度及准11 a、16 a的年代际尺度周期变化特征,总体趋势在20世纪80年代之前、20世纪80年代—21世纪及21世纪以来3个时段分别对应增多—减少—增多的趋势;基于GA-BP神经网络的两种方案对滁州地区7个站的预测误差分别为122 mm和144 mm,其中利用主成分分析进行因子优化的方案预测效果更好。  相似文献   

热带气旋“苏迪罗”（2015）海上活动时段降水物理过程模拟诊断研究——海表温度敏感性试验     

王晓慧  崔晓鹏  郝世峰  姜嘉俊 《大气科学》2019,43(5):1125-1142

利用WRF模式,在前期工作（王晓慧等,2018）模拟试验基础上,设计敏感性试验,借助三维降水诊断方程,分析揭示了海表温度（SST）变化对热带气旋（TC）“苏迪罗”（2015）海上活动时段降水物理过程的可能影响。对照试验（CTL试验:SST随时间变化）和敏感性试验（SNC试验:SST固定为初始值）的SST存在明显差异（CTL试验平均SST低于SNC试验）。对比分析表明:两试验模拟的海上时段TC路径差异不大,但SNC试验模拟的TC强度较CTL试验偏强;TC环流区域内,两试验垂直速度差值在对流层基本为正（SNC试验上升运动更强）,随着SST差值不断增大,垂直运动差值也不断加大;SNC试验的降水强度（P_S）大于CTL试验,但P_S差值随SST差值增大并非线性变化,体现了P_S变化的复杂性;SNC试验的Q_WVA（垂直积分的三维水汽通量辐合/辐散率）均基本大于CTL试验（后期差别更大）,SST的不同可通过影响垂直运动,造成Q_WVA的差异,进而影响P_S;分析时段内,两试验TC环流区域大气均持续变干（正值Q_WVL）,且存在较明显海面蒸发（正值Q_WVE）,其中,两试验之间的Q_WVL差异不明显,但SNC试验的Q_WVE总体上强于CTL试验（尤其是分析时段中后期）;两试验间云相关过程变率差异的时间变化复杂,最大差异量级与Q_WVE相当;SST对水凝物发展和深对流活动有一定影响,伴随SST差异的逐渐增大,水凝物含量差异也逐渐增大,液相水凝物中,雨滴差异较大,而与液相水凝物相比,冰相水凝物差异更为突出,尤其是较大的冰相粒子（雪和霰）;SNC试验中,零度层下更多的霰粒子和雨滴,在更强上升运动配合下,有助于云滴和雨滴碰并（P_racw）及霰粒子融化（P_gmlt）微物理过程的加强,进而造成更强降水。TC环流区域时间和空间平均的物理量对比分析揭示,两试验降水物理过程定性上基本相似,但定量上存在明显不同,SNC试验的P_S与CTL试验相比,增幅达8.8%,这种差异主要源于降水宏、微观物理过程的差异,其中,不同SST环境下Q_WVE的差异最为显著。  相似文献   

基于地基微波辐射计遥感的天津大气水汽和液态水特征     

陈树成  史静  王彦  李晓波  崔明 《气象与环境学报》2019,35(6):38-45

利用2013年3月至2017年2月天津西青地基35通道微波辐射计观测资料,分析天津地区大气水汽和液态水特征。结果表明：天津地区各季节积分水汽和积分液态水的日变化趋势基本一致,均呈单峰型日变化特征,其中夏季最大,秋季次之,冬季最小。各季节积分水汽最大值出现在23：00时（北京时,下同）的概率均明显大于其他时次,夏季和冬季的积分液态水的最大值出现在14时的概率最大,春季和秋季分别出现在10时和13时的概率最大。天津地区水汽密度由地面至3.5 km处逐渐减小,递减梯度由夏季、秋季、春季和冬季的顺序依次增大,各季节从1.5 km往上日变化均不明显。1 km以下,春季、夏季和秋季平均水汽密度的日变化曲线呈双峰型,主峰值分别出现在08时、11时和12时左右。冬季呈单峰型变化,峰值区出现在12-16时。液态水密度随高度分层变化,夏季的液态水密度大值区（0.08-0.14 g·m^-3）为5-6 km,在18-20时出现最大值。秋季、春季和冬季液态水密度的大值区出现的高度为1.5-3.5 km,但数值依次减小,春季和冬季的最大值出现在05时前后,秋季则出现在02时左右。另外天津地区水汽、液态水与温度和降水量的变化趋势基本一致,除夏季06-18时及冬季部分时次外,水汽与温度呈正相关。液态水与温度相关性较差,但与降水量呈正相关,全年液态水与降水量夜间的相关性大于白天。  相似文献   

The mechanism of slope instability due to rainfall-induced structural decay of earthquake-damaged loess   总被引：1，自引：0，他引：1  

Hu Tao  Mengmeng Zhang  Li Gong  Xi Shi  Yijie Wang  Guoqiang Yang  Shaowei Lei 《地震研究进展（英文）》2022,2(3):100137

Natural loess slopes are characterized by a strong geological structure, which is an important factor in maintaining slope stability. The magnitude and duration of the earthquake may disturb the soil structure at different levels degrees, locally changing the arrangement between soil particles. The process of rainfall humidification weakens the cementation between soil particles, and the disturbance and humidification change the structural state of the soil, which in turn causes sliding of the slope along with the decay of soil mechanical properties. As slope instability is often the result of a series of post-earthquake ripple effects, it is of great scientific significance to study the mechanism of slope instability due to the structural decay of earthquake-damaged loess exacerbated by rainfall. In this paper, the impact of structural decay of loess on slope stability is simulated by GEOSTUDIO software under three conditions: pre-earthquake rainfall, post-earthquake rainfall and earthquake, taking the landslide in Buzi Village, Min County, Gansu Province as an example. The comparative analysis of the calculation results shows that the structural properties of the slope without earthquake disturbance are influenced by infiltration amount. When it is fully saturated, the structural properties are similar to those of saturated soil, and the safety factor is reduced by 12.9%. In addition, the earthquake intensity and duration have different degrees of structural damage to the soil. When the structure is fully damaged, it is similar to that of remodelled soil, and the safety factor is reduced by 45.84%. Notably, the process of the earthquake and the following humidification generates the most serious damage to the loess structure, with a reduction in the safety factor of up to 56.15%. The quantitative analysis above obviously illustrates that the post-earthquake rainfall causes the most severe damage to structural loess slopes, and the resulting landslide hazard should not be underestimated.  相似文献