Studies on the Characteristics of Nitrogen and Phosphorus Pollution of Natural Outcrop Springs in Wudalianchi

Objective] The research aimed to study the characteristics of nitrogen and phosphorus pollution of 30 natural outcrop springs in Wudalianchi, which provides a theoretical basis for the sustainable development and utilization and protection of Wudalianchi natural mineral resources. [Method] Choosing the 30 natural outcrop spring representatives in different regions, samples were collected in low water period, normal water period, wet period respectively, and the content of nitrogen, phosphorus and other contaminants in the samples were determined. Besides, the pollution characteristics of nitrogen and phosphorus in Wudalianchi natural outcrop spring were analyzed. [Result] The 30 natural outcrop spring in Wudalianchi area were seriously polluted by nitrogen. Total nitrogen and nitrate nitrogen were the main forms of nitrogen pollution. The content of total phosphorus and ammonia nitrogen were low. [Conclusion] The natural outcrop spring is mainly caused by agricultural non-point source pollution.

Geochemical Characteristics of Gases from the Wudalianchi Volcanic Area,Northeastern China

The origins of gases in springs, pools and wells from the Wudalianchi (WDLC) volcanic area are discussed based upon molecular and isotope compositions of the gases. Nine gas and water samples were collected from bubbles and water of the springs and pools in the WDLC volcanic area, Northeastern China, in August 1997. The molecular components were measured with a MAT-271 mass spectrometer (MS), helium isotope ratios with a VG-5400 MS, and δ13C with a MAT-251 MS in the Lanzhou Institute of Geology. The gases are enriched in CO2, and most of the CO2 concentrations are over 80% (V). The helium and methane concentrations have relatively wide ranges of 0.7 to 380×10?6 and 4 to 180×10?6, respectively. The 3He/4He ratios are between 1.05 Ra and 3.1 Ra (Ra = 1.4×10?6); the 4He/20Ne values are between 0.45 and 1011, larger than the atmospheric value (0.32). The δ13C (PDB) values of carbon dioxide range from ?9.6 to ?4.2%%. These geochemical data demonstrate that the spring water is from aquifers at different depths, and that helium and carbon dioxide are derived from the mantle, and are contaminated by crust gases during deep fluid migration. Also, there are larger fluxes of deep-earth matter and energy in the WDLC volcanic area.

Petrological Research of K-Rich Volcanic Rocks from Wudalianchi and Nearby Areas

A K-rich volcano zone , Wudalianchi-Erkeshan - Keluo in Heilongjiang Province of Northeastern China , is studied in this paper . Some results from the study of mantle inclusions , accumulative inclusions and megacrysts are reported here for the first time . On the petrological , experimental , and magma-dynamical study of the host rocks and their inclusions and megacrysts , it is concluded that the K-rich magma in these areas was derived from upper mantle with rich in K2O and incompatible element by partial melting of phlogopite-bearing Iherzolite. Leucite picrite magma is primary and the magma represented by leucite basalt is derivative one of both fractional crystallization and assimilation . The mantle where the magma came from had undergone both the depletion and enrichment events , and had high geotherm similar to that of mid -oceanic ridge and rift valley . Mantle metasomatism , uplift and diapirism result in the K-rich volcanic rocks . The environment of volcanism in these areas is rift tectonics within continental plate ,and the composition and distribution of volcanic rocks in these areas are controlled by mantle-reach faults , and are not directly related to the subduction of the Pacific plate .

Volcanic Debris-avalanche Deposits of the Laoheishan Volcano and Huoshaoshan Volcano in Wudalianchi

Large amounts of volcanic debris-avalanche deposits, which take the shape of hummocks, are distributed around the peripheries of the Laoheishan volcano and Huoshaoshan volcano in Wudalianchi World Geopark. In earlier times, they were called "satellite volcanoes", namely, freestanding volcanoes. This paper points out that these deposits actually came from the collapse of the cones of these two volcanoes. When the lava flow spilled out at the base of the slope of the cones, the slope broke up and collapsed under the action of gravity. Later, ravines were formed on the slope. Caved slope clastics, accompanying lava flow, accumulated at the rims of the volcano cones. Although some accumulations may form very large cones, they are not volcanoes, but deposits of volcanic debris avalanches.

五大连池火山黑桦叶性状对生境因子的响应

【目的】五大连池火山生境植物在土壤水分和营养物质等严重缺乏的条件下,经过长期的进化适应形成了自身独特的生存策略,研究单种植物叶性状对生境因子的响应,对深入了解火山生境植物生长限制因素及养分利用策略意义重大。【方法】以五大连池6座火山黑桦为研究对象,测定7项叶性状和9项土壤指标,采用Pearson和冗余分析法分析黑桦叶性状特征及其与生境因子的关系。【结果】1)叶片磷含量(LPC)、叶片钾含量(LKC)、叶片碳磷含量比(LC/P)和叶片氮磷含量比(LN/P)这4种叶性状在6座火山间都有显著差异,老黑山的LPC显著偏高,LC/P和LN/P显著偏低,黑桦叶性状的变异系数除LKC外都小于30.00%。2)6座火山黑桦同时具有同速和异速这两种叶性状间的权衡关系,以幂函数异速生长规律为主;黑桦叶性状叶片面积(LA)、叶片干物质含量(LDMC)、叶片碳含量(LCC)、叶片氮含量(LNC)、LKC、LC/P、叶片碳氮含量比(LC/N)和LN/P在分化中起到主要作用。3)冬季降水(PCW)是影响叶性状气候条件的主导因子,对LA、LC/P、LN/P、LC/P和LCC都产生显著的正效应,对LC/N、LPC和LDMC都产生显著的负效应。铵态氮(A-N)、速效磷(A-P)和全钾含量(TKC)为影响叶性状土壤养分的主导因子,A-N对LCC、比叶面积(SLA)和LDMC产生显著的正效应,对LA产生显著的负效应;A-P对LDMC产生显著的负效应;TKC对LC/N和LDMC产生显著的正效应。【结论】6座火山黑桦叶性状受火山喷发的特殊性、坡向、气候条件和土壤养分等因素的共同影响,叶性状间以同速和异速两种权衡关系来实现其对火山生境有限资源的最佳利用,黑桦生长过程中同化碳的营养利用效率较低,氮元素和速效磷对其生产力起限制性作用,钾元素对养分元素的保存能力等起到显著正效应。

五大连池老黑山熔岩溢出过程和传输系统

五大连池老黑山火山曾在公元1720-1721年喷发,熔岩出露面积60.2km^(2)。老黑山具有我国境内最新喷溢的熔岩流区,使其成为研究单成因火山熔岩表壳类型、熔岩传输系统和熔岩流灾害的理想对象。老黑山火山喷发兼具爆炸性与溢流性,以溢流性为主。本文使用0.05~0.92m/pix无人机航拍数据和12.5m/pix卫星数据,在实地验证的基础上,制作了11000比例尺熔岩流分布过程图。我们将老黑山的6个熔岩流区界定为相应熔岩溢出口的产物,并区分出每个熔岩流区内部的亚区和岩流组。本文归纳出不同尺度熔岩流边界界定的2个标准:(1)熔岩流区的边界界定,需要以大尺度的地形凹陷和沟谷为线索,以熔岩趾分布和压盖关系辅助确定;(2)熔岩流区内部岩流组的界定,更多地依赖于熔岩表壳相组合分析,并辅以地形特征确定。通过对岩流表壳相的分析,本文总结出老黑山熔岩流主要由渣状岩流传输模式主导,同时具有结壳岩流传输和膨胀传输类型。根据老黑山不同岩流的分布和传输特征,我们提出了使用逐层、逐组估算岩流体积的方法。老黑山火山爆炸性碎屑物体积为70×10^(6)m^( 3),爆炸性喷发指数VEI=1~2;熔岩流体积为290×10^(6)m^( 3),溢流式喷发的等级(magnitude)为4.9。根据与Puu Oo 1983-84岩流特征进行对比,推测老黑山喷发烈度为弱-中等(intensity=4~8)。

黑龙江五大连池火山群的地貌形态和分形特征及其成因

火山地貌及其成因研究对深入揭示火山形成与行星表面形态演化具有重要意义。本文基于黑龙江五大连池火山区的遥感影像和数字高程模型(DEM)数据,对火山群形貌进行综合解译和地貌分形分析,从系统科学角度讨论形成本区火山地貌系统的复杂成因机制。研究结果表明:(1)火山锥和熔岩地貌构成了区内低起伏频率的地表形态,断裂带上复合型火山锥的分布数量影响该方向上的地形复杂度。(2)火山群地貌分形具有多度域分形结构且分形维数较小(D≈2),推测是受到大面积熔岩地貌和低矮火山锥影响造成的。沿断裂构造方向的地形剖面分形维数显示,五大连池地区三组断裂方向的地貌各向异性较小(D值为1.142~1.275,D_(max)与D_(min)仅相差0.133),NE方向的分形维数较大(D_(NE)为1.223~1.275),是影响火山群地貌形成的主要断裂方向。(3)火山群地貌特征受到内外营力协同控制,深浅两套断裂构造和岩浆系统是影响现阶段火山区形貌的主要因素。外营力在中微观尺度随机粗化作用正在加强,但在宏观尺度上尚未占协同对抗上风,区域形态还未发生改变。遥感波谱特性与地貌形态分析对火山地貌研究是有效的,地貌分形分析可以量化不同尺度下的地貌形态特征,这为火山区地貌及其成因机制研究提供了新的思路和方法。

五大连池月牙泡沉积物中趋磁细菌群落对季节变化的响应

为了解五大连池月牙泡样品中趋磁细菌(Magnetotactic Bacteria,MTB)多样性对季节动态的响应。采用高通量测序手段,分别考察不同季节月牙泡中MTB的Alpha多样性、群落组成、群落功能及多样性与理化的相关性。结果显示,MTB菌群丰度在夏季和秋季较高,春季和秋季较低。春季样品中仅有Magnetospirillum,Magnetospirillum在秋季(73.42%)和冬季(98.36%)是优势菌属,Magnetovibrio为夏季(29.76%)的优势菌属。RDA表明,大部分MTB分布与Fe(Ⅱ)、S和Sulfate呈正相关。研究结果为火山湖泊中MTB对季节动态响应提供了依据。

Lithogeochemistry of Volcanic Rocks and Hosted Melt Inclusions in Wudalianchi,Heilongjiang,China

Wudalianchi（五大连池） volcanoes are famous Quaternary ones with fairly good volcanic landscape in Northeast China.The volcanic rocks are phonotephrite,tephri-phonolite,trachyandesite,and basaltic trachyandesite with SiO2 contents of 47.3 wt.%-54.2 wt.%.The characteristic of high K2O content in Wudalianchi volcanic rocks suggests that they probably share a common potassic magma source.The magma evolutions of Wudalianchi volcanic rocks are similar,while the new eruption prod-ucts of Laoheishan（老黑山） and Huoshaoshan（火烧山） volcanoes are slightly more evolved than the old eruption materials,i.e.,the magma of the new eruptions in 1719-1721 from the above two volcanoes is the evolved magma in underground chamber.The main phenocrysts of Wudalianchi volcanic rocks are olivines,clinopyroxenes,and some characteristic K-rich leucites.The various-shaped melt inclu-sions are found in olivine phenocrysts from new eruption products of Laoheishan and Huoshaoshan volcanoes.By electron microprobe（EMP） analyzing,the contents of SiO2 and total alkali show a wide range,suggesting that the pre-eruptive magma was probably more complicated,or the melt inclusions were rather unhomogeneous.On the basis of EMP results,it is believed that the sulfur degassing rate from this new eruption was much higher than that of the millennium eruption of Tianchi（天池） volcano,while the chlorine degassing rate was a magnitude lower than that of Tianchi volcano.

Geochemical Evidence of Gas Sources of CO_2-Rich Cold Springs from Wudalianchi,Northeast China

CO2-rich cold springs occur near the active volcanoes at Wudalianchi （五大连池）, Northeast China. The springs are rich in CO2, with HCO3-as the predominant anion and have elevated contents of total dissolved solid （TDS） （〉1 000 mg/L）, Fe^2＋ （〉20 mg/L）, Sr （〉1 mg/L）, and dissolved Si （〉20 mg/L）. The compositions of escaped and dissolved gases of the springs are similar. The δ^13C values of escaped gases and dissolved gases in mineral springs at Wudalianchi vary from -8.77‰ to -4.53‰ and -8.24‰ to -5.26‰, while δ^18O values vary from -10.68‰ to -7.65‰ and -10.30‰ to -8.84‰, respectively, indicating the same upper mantle origin of CO2 of escaped gases and dissolved gases in the springs. Carbon and oxygen isotope fractionations and water-CO2 exchange were weak in the process of groundwater flow. The 4He content exceeds 5 000×10-6 cm^3·STP/mL in escaped gases of the mineral springs, and the 3He/4He ratios of the escaped and dissolved gases vary from 2.64Ra to 3.87Ra and 1.18Ra to 3.30Ra, respectively. It can be postulated that the CO2 of mineral springs deriving from the magma chamber of the upper mantle moves upward to the surface, to increase the content of 4He in the mineral springs and decrease the ratio of 3He/4He. The helium origin of escaped gases in springs can be calculated with the MORB-crust mixing model, but that in the north spring can be better explained with the MORB-crust-air mixing model due to the effect of mixing with surface water. However, dissolved helium in springs, except the north spring, is better explained with the MORB-crust-ASW mixing model.

五大连池火山蒙古栎种群空间分布格局

种群空间格局研究是深入认识种群生态学功能和过程的有效途径,研究森林群落优势种群空间分布格局可为阐明其种群的生态特征和群落演替趋势提供参考依据。以五大连池4座老期火山南坡蒙古栎(Quercus mongolica)种群为研究对象,采用多尺度、多指数综合判定方法,分析不分龄级和不同龄级蒙古栎种群随空间尺度变化的空间分布特征。研究表明:(1)4座火山蒙古栎种群空间分布格局随空间尺度变化而不同,不分龄级种群在200 m^(2)和400 m^(2)尺度上以集群分布为主,但集群强度存在明显差异;龄级Ⅴ种群在25 m^(2)和50 m^(2)尺度上集群分布显著,而龄级Ⅶ种群在200 m^(2)和400 m^(2)尺度上集群分布显著。(2)4座火山蒙古栎种群空间分布格局均具有明显尺度效应,6个判别指数随尺度增大呈不同变化趋势,4座火山蒙古栎不分龄级种群呈幂函数递增趋势(46%)最多,龄级Ⅶ种群呈幂函数递增趋势的高达50%。(3)4座火山蒙古栎种群格局规模不同,不分龄级种群只有东焦得布山均方值在200 m^(2)尺度上极显著,种群格局规模为200 m^(2);龄级Ⅴ种群只在南格拉球山均方值在400 m^(2)尺度上显著,种群格局规模为400 m^(2);龄级Ⅵ和Ⅶ种群都只有东焦得布山均方值均在400 m^(2)尺度上显著,种群格局规模均为400 m^(2)。种群的空间尺度、龄级结构和群落演替阶段等因素以及这些因素之间的交互作用和累积效应可能是五大连池火山蒙古栎种群空间格局差异明显的主要原因。

五大连池自然保护区堰塞湖水化学组成特征研究

为研究五大连池堰塞湖水化学组成特征和离子来源,保护区域水资源,运用水化学特征、Piper三线图、相关分析等方法对水中离子分析,采用舒卡列夫分类法对堰塞湖水进行了分类。结果表明,研究区堰塞湖水呈弱碱性pH均值为8.46,TDS均值为212.6 mg/L,Ca为水中优势阳离子,平均占比37.33%,HCO~-为优势阴离子,平均占比84.44%,这两种离子含量在堰塞湖区域内含量均较为稳定。堰塞湖的水化学类型主要是HCO-Ca·Na,部分为HCO-Ca·Na·Mg型,堰塞湖水中HCO~-与Na~+、Ca、Mg相关性显著,岩石风化控制对水中离子有较大影响,其中盐岩溶解和其他含钠矿物的溶解是Na~+的主要来源,碳酸盐矿物的溶解是Ca和Mg的主要来源,水体中Ca、Mg与围岩中Na~+、K~+离子存在交替吸附作用,对堰塞湖中水化学组成有一定影响。

五大连池火山矿泥的研究进展

五大连池火山矿泥是火山喷发的副产物,具有普通土壤无法比拟的医用、康养及美容功效。介绍了五大连池火山矿泥的成因、理化性质、分布、储量,综述了其在医疗及化妆品中的应用研究进展,提出要及早平衡好火山矿泥资源开发与保护的关系,加强对其基础研究的系统布局,为五大连池火山矿泥资源的进一步开发及应用提供参考。

五大连池火山区历史监测数据分析

为充分发挥五大连池火山区历史数据在火山与地震活动监测中的作用,采用五大连池火山区历史地震数据、地下流体数据、电磁数据进行分析、整理,详细统计出五大连池火山区有监测数据以来历年地震发震频次和最大震级,流体数据和电磁数据年变规律。结果表明,五大连池火山区历史地震频次较低,流体和电磁数据变化形态符合正常数据年变规律,说明五大连池火山区火山与地震活动相对平静,近期内无活动迹象。

黑龙江五大连池市朝阳山镇山洪灾害人员搜救行动的几点思考

2022年“7·12”黑河市五大连池市朝阳山镇山洪灾害致9人失联,搜救难度大、安全风险高,搜索区域科洛河80余千米主河道狭窄曲折、沟岔纵横、孤岛遍布,草塘、滩涂、田地犬牙交错,河水漫溢出槽。山洪水量巨大、流速迅猛、旋涡丛集,救援困难危险。黑龙江省森林消防总队各级救援队连续奋战13天,圆满完成搜救任务。笔者结合参与救援经历,分析山洪灾害人员搜救特点、战法运用,研究思考山洪灾害人员搜救的对策措施,供救援人员参考。

五大连池火山熔岩地貌苔藓植物对土壤养分积累的作用

为了解五大连池火山熔岩地貌土壤主要矿质养分含量及其特点,同时探讨苔藓植物对土壤养分积累的影响,选取了6座形成年代不同的火山,对其进行了苔藓植物生境分布、盖度调查及土壤养分含量的测定。结果表明:(1)西焦得布山、卧虎山、南格拉球山、莫拉布山等老期火山阔叶林下苔藓种类匮乏,其盖度<1%;老期火山石塘林苔藓种类较丰富,盖度可达10%—15%,主要分布有毛尖紫萼藓、山羽藓、美灰藓、虎尾藓等石生藓类,同时还有石缝藓、卷叶凤尾藓等生于石缝内。(2)新期火山中老黑山的林下以垂枝藓为优势种,盖度可达50%—80%,常见伴生种有山羽藓、狭叶小羽藓、金灰藓、毛尖紫萼藓等。老黑山火山砾生境以砂藓为优势种,盖度可达45%;常见伴生种有垂枝藓、美灰藓、真藓、桧叶金发藓等。(3)新期火山中的火烧山上分布的苔藓以毛尖紫萼藓、垂枝藓、美灰藓等干燥石生藓类为主,盖度为10%左右,峭壁背阴处和石缝等小生境中分布有密叶三瓣苔、毛尖金发藓、桧叶金发藓等。(4)土壤N、P、K三大营养元素含量在老期火山土壤中基本上都为丰;全N、S、有机质含量在新期火山土壤中的含量最低,有随火山形成年代的增加而升高的趋势;全K、Ca、Mg、Fe、Zn、B含量在新期火山土壤中都最高,有随年代的增加而减少的趋势;全Mn和Cl含量在新期火山土壤中较高,也随年代的增加而有下降的趋势;全P的量在各火山土壤中的含量都较高,没有明显的变化趋势;新期火山土壤p H值高于老期火山,土壤酸碱反应总体上呈中性。(5)土壤全N、S含量与有机质含量,全K含量与全Mg、Fe含量,全Mg含量与全Fe含量呈极显著正相关(P<0.01);全S含量和有机质含量具有显著正相关性(P<0.05);全N含量与全K含量呈极显著负相关(P<0.01);全N与全Zn,全K、S与有机质,全Ca与Cl,全S与全Zn,全Zn与有机质含量间具有显著的负相关性(P<0.05)。(6)表面有苔藓植物覆盖的火烧山土壤所含N、S、P、有机质等的含量高于火山砾;老黑山路边土壤养分含量几乎都低于林下样品,老黑山表面覆盖有垂枝藓、山羽藓、砂藓和桧叶金发藓的火山砾所含N、S、有机质的含量高于只有砂藓覆盖的火山砾。

五大连池火山区气体地球化学特征

根据泉（池）水中气体的组分和同位素组成，讨论了五大连池火山区气体的来源和运移。１９９７年８月从五大连地火山区泉（池）中采集了９个气、水样品，同年９月测定了游离气和水溶气的气体组分、Ｈｅ同位素比值和ＣＯ２的Ｃ值。气体以ＣＯ２为主，多数样品的ＣＯ２体积分数大于８０％。Ｈｅ和ＣＨ４的体积分数变化范围大，分别为０．７×１０－６～３８０×１０－６和４．０×１０－６～１８０×１０－６。３Ｈｅ／４Ｈｅ比值分布在１．０Ｒａ～３．３Ｒａ之间（Ｒａ＝１．４×１０－６，大气对流层３Ｈｅ／４Ｈｅ比值）。４Ｈｅ／２０Ｎｅ比值均比大气中的高，分布在０．３５～１０１１之间。ＣＯ２的 １３ｃ（ＰＤＢ）值与地幔或岩浆ＣＯ２的值一致，为－９．６‰～－４．２‰。这些均表明，泉水为渗入地下的大气降水，经过不同深度和不同岩层渗流出露地表；气体为幔源组分和地壳组分的混合物，利用二元混合模型估计，至少１３％～３７％的Ｈｅ源于地幔；ＣＯ２可能为幔源岩浆脱气后残留的ＣＯ２；Ｎ２、Ｏ２和Ａｒ主要为大气来源；研究区地球深部气体和热仍在大量地向地壳浅层和地表逸散。

黑龙江五大连池火山群大地电磁探测和研究初步结果

对黑龙江五大连池火山群新近观测的7条大地电磁测深剖面资料进行了处理、解释和分析。研究表明,在地下约几百米深度至15～20 km左右,存在一个上宽下窄似铆钉状的高阻异常体,推测为固结过程中的火山岩浆体。该高阻体一直穿过地壳与上地幔连接,有向深处延伸的通道,并随着深度的加大,其电阻率逐渐减小。该火山群属于岩浆直接来自上地幔的火山类型,在地壳内没有明显的低阻岩浆囊存在。火山区的构造走向为近南北方向。

黑龙江五大连池火山群地壳电性结构

对1997年在黑龙江五大莲池火山群观测的7条大地电磁测深剖面资料进行重新处理,对全部测点的实、虚感应矢量和视电阻率曲线等参数的分布特征进行了详细分析,应用NLCG二维反演方法对3条近东西向剖面数据进行了反演,获得的深部电性结构结果显示:五大莲池火山群中的笔架山-老黑山-火烧山火山链上的火山规模明显大于南、北格拉球火山链和东、西焦得布火山链,该带火山活动有从南西向北东推移的规律;以笔架山-老黑山-火烧山火山链为中心在地下约几百米深度到20km左右,存在一个北北东走向、上宽下窄、北宽南窄似铆钉的状体,该块体随着深度的增加其电阻率值从上千欧姆米逐渐减小到小于1欧姆米;在深度约20km以下铆钉的主体仍然显示有向深处延伸的趋势,推测一直穿过地壳与上地幔连接;在深度4～8km左右火烧山、老黑山和笔架山东、西两侧存在低阻块体;结合S波速度、小震活动以及地热研究结果分析,推测笔架山-老黑山-火烧山火山链在地壳内随着深度增大存在不同凝固程度的岩浆系统。

中国东北地区远震S波走时层析成像研究

利用中国东北流动和固定台网的234个宽频带地震仪在2009年6月—2011年5月所记录的远震波形数据,采用波形相关方法拾取了10301个有效的S震相相对走时残差数据,进一步采用两种射线走时层析成像的方法,反演获取了研究区下方深达800km的S波速度结构,不同射线走时层析成像方法的结果对本区的S波速度异常结构起到一定的约束作用.S波成像结果与我们先前开展的P波成像研究结果整体相似:在长白山下方发现有一个高速异常结构,这可能就是俯冲到欧亚大陆板块下方的太平洋板块,由于板块的部分下沉,使得板块的形状并没有呈现出明显的板片状.长白山、阿尔山、五大连池火山下方都有低速异常体,长白山和阿尔山下的低速异常向下延伸至地幔转换带附近,可能与其上部的火山形成有关.五大连池火山下方的低速异常向下延伸至200km左右,不同埋深的低速异常结构可能意味着五大连池与长白山和阿尔山有着不同的成因.松辽盆地呈现以高速异常为主导、高低速异常混合分布的特性,暗示松辽盆地岩石圈地幔可能遭受了改造与破坏,可能有岩石圈拆沉的过程,盆地南部下方的低速异常与长白山和阿尔山下的低速异常有连通性,可能是下地幔热物质上涌的一个通道.S波和P波相似的成像结果从另一个角度展示了中国东北地区的上地幔速度异常结构,对我们认识此区的地下结构提供了重要的约束.