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1.
孟加拉湾晚第四纪的季风气候及其古海洋学记录 总被引:4,自引:0,他引:4
分析了研究区季风的形成、演变及其控制因素 ,指出强烈的盐度对比是在北印度洋占主导地位的季风气候系统的直接反映。通过位于孟加拉湾地区的 3支岩心 MD771 81、MD771 83和MD771 69的 δ1 8O值所反映的表层海水盐度变化的分析 ,认为研究区全新世及末次冰期—间冰期氧同位素第 3期西南季风强烈 ,末次冰期最盛期氧同位素第 2期西南季风微弱。通过与阿拉伯海等地区进行对比 ,进一步证明南亚季风的主要驱动因素是周期为 2 3 ka的低纬度太阳辐射。 相似文献
2.
北印度洋季风研究的经典地区是上升流活跃的阿拉伯海和索马里海盆,孟加拉湾地区季风强弱的变化则是以浮游有孔虫壳体氧同位素值反映的淡水输入量大小来指示的.文章通过对孟加拉湾的MD77181岩芯的浮游有孔虫定量分析、氧碳稳定同位素分析,对比东经90°海岭的MD81349岩芯的同类分析结果,发现孟加拉湾地区在深海氧同位素2、3期出现上升流生物种丰度上升、表层水古生产力升高、表层水温度下降、温跃层变浅、盐度增加等指示存在上升流活动的现象,说明当时该区东北冬季风增强.特别的是间冰段深海氧同位素3期各古环境的代用指标都形成记录上最突出的峰值,且在同期背景值上叠加着强烈的波动,认为此现象应是印度季风区夏季季风和冬季季风强盛期的相互转换、水体的垂直循环运动等环境信号和控制机制在该区的反映. 相似文献
3.
黔西高原的长时间序列孢粉记录比较少,限制了对该地区末次冰期晚期古植被及西南季风演化过程和机制的认识。本研究通过对黔西高原一个连续的古湖泊沉积物孢粉记录的分析,并结合AMS14C测年,重建黔西高原末次冰期晚期古植被及西南季风演化。结果表明:轨道尺度上,MIS3 (氧同位素3阶段)中晚期,黔西高原主要为木本、草本植物,喜湿的针叶树种较多,西南季风较强。MIS2 (氧同位素2阶段)期间,喜湿的针叶树种减少,而草本、蕨类植物增多,指示气候冷干,西南季风减弱。千年尺度上,黔西高原西南季风响应于北大西洋冰漂碎屑事件及H3 (Heninrich 3)、H2 (Heninrich 2)和LGM (Last Glacial Maximum)事件,导致西南季风减弱,喜湿的针叶树种减少。通过对比发现,东亚夏季风和西南季风在轨道及千年尺度上协同演化,二者均响应于北半球高纬度太阳辐射变化及北大西洋冰漂碎屑事件。在19~18 cal ka BP,黔西高原经历最冷干气候,西南季风减弱,木本、草本植物近乎消失,而同期东亚夏季风增强,说明西南季风和东亚夏季风在冰后期上存在反相位关系。 相似文献
4.
黔西高原的长时间序列孢粉记录比较少,限制了对该地区末次冰期晚期古植被及西南季风演化过程和机制的认识。本研究通过对黔西高原一个连续的古湖泊沉积物孢粉记录的分析,并结合AMS14C测年,重建黔西高原末次冰期晚期古植被及西南季风演化。结果表明: 轨道尺度上,MIS3(氧同位素3阶段)中晚期,黔西高原主要为木本、草本植物,喜湿的针叶树种较多,西南季风较强。MIS2(氧同位素2阶段)期间,喜湿的针叶树种减少,而草本、蕨类植物增多,指示气候冷干,西南季风减弱。千年尺度上,黔西高原西南季风响应于北大西洋冰漂碎屑事件及H3(Heninrich 3)、H2(Heninrich 2)和LGM(Last Glacial Maximum)事件,导致西南季风减弱,喜湿的针叶树种减少。通过对比发现,东亚夏季风和西南季风在轨道及千年尺度上协同演化,二者均响应于北半球高纬度太阳辐射变化及北大西洋冰漂碎屑事件。在19~18 cal ka BP,黔西高原经历最冷干气候,西南季风减弱,木本、草本植物近乎消失,而同期东亚夏季风增强,说明西南季风和东亚夏季风在冰后期上存在反相位关系。 相似文献
5.
南海深水区晚更新世以来沉积速率、沉积通量与物质组成 总被引:6,自引:2,他引:6
通过调查所获得柱样沉积物氧碳同位素测年资料及多学科综合分析表明,晚更新世以来南海沉积速率和沉积通量具有以下几个特征 :(1)总体上为间冰期沉积速率低、冰期沉积速率高,冰期沉积速率是间冰期沉积速率的 1.3~ 1.6倍;(2 )南海沉积速率趋势面分析表明,氧同位素 1期东北陆坡和西南陆坡沉积速率高,氧同位素 2、3期沉积速率分布特征相似,与 1期有所不同,东北陆坡沉积速率高于西南陆坡,表明氧同位素 2期之后,南海的沉积环境发生明显的改变,造成上述沉积速率分布的主要控制因素是南海周围的河流分布、季风、海流等;(3)南海东部沉积通量与物质组成分析表明,末次冰期以来沉积总通量北部陆坡区明显高于深海区,前者是后者 2~ 3倍,并有自北向南逐渐降低的趋势;(4)硅质生物沉积通量冰期明显高于间冰期,末次冰期以来东北部陆坡区的硅质生物沉积通量最高,末次冰期之前恰好相反,深海盆高于陆坡区;(5 )末次冰期以来,陆源沉积约占南海东部海域沉积的 4 4 %以上。 相似文献
6.
南海北部海水氧同位素剩余值在冰期-间冰期气候旋回中的变化及其古气候意义 总被引:2,自引:0,他引:2
氧同位素剩余值(Δδ)是指从浮游有孔虫氧同位素中扣除温度和全球冰量效应后得到的剩余值,它一般被用作海水古盐度变化的代用指标。文中给出了南海北部三个柱状样在氧同位素6期至5期(MIS6-5)和MIS2-1期间Δδ的变化曲线。末次冰期与全新世和倒数第二次冰期与末次间冰期的对比表明,Δδ在冰期比随之而来的间冰期低。冰期海平面下降和海岸线前移可能是冰期Δδ及盐度相对降低的原因。但在定量了解海平面下降、珠江口前移及现代盐度的分布情况后,笔者否定了海平面下降对Δδ变化的主要影响。因此,冰期南海地区降水相对增大和气候变湿可能是导致冰期Δδ偏低的主要原因。末次间冰期与全新世相比,Δδ明显增大,表明海水盐度增加。这可能与末次间冰期期间由于表层海水温度较高,厄尔尼诺事件频繁和海水蒸发量较大有关。 相似文献
7.
浑善达克沙地处于季风边缘区,目前对该区域末次间冰期以来的古气候演化历史及其动力学机制尚不清楚。文章以浑善达克沙地南缘山间低洼地带北沟剖面总厚度4.72 m(未见底)的黄土-古土壤序列为研究对象,开展了光释光测年和精细的岩石磁学、环境磁学、地球化学和漫反射光谱分析。结果表明:1)该剖面记录了末次间冰期以来完整的风成堆积历史,并通过东亚夏季风指标(Rb/Sr及χARM/χ)与深海氧同位素曲线的对比建立了13万年来该黄土-古土壤序列精细的年龄模式;2)在黄土高原上常规的用来指示成壤强度和夏季风强度的磁参数并不完全适用于干旱-半干旱地区(400 mm等降水线附近)的风成黄土,而地球化学指标在指示季风边缘区的地球化学风化过程上表现出一定的合理性,北沟剖面复杂的磁信号可能是对末次冰期季风边缘区显著减弱的夏季风的阈值响应;3)在末次间冰期东亚夏季风可以延伸到内蒙古中东部,北沟剖面记录了浑善达克沙地南缘末次间冰期以来区域古季风的演化历史。 相似文献
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10.
通过对南海西部越南岸外17954—3柱状样中浮游和底栖有孔虫的定量分析,结合碳酸钙、有机碳和稳定同位素数据,获得南海西部上升流区近20万年来的古海洋学记录,进而讨论了晚第四纪东亚夏季风的变迁。结果表明,在间冰期,尤其是末次间冰期,越南岸外出现表层海水古温度低、温跃层浅、生产力高,同时底层海水富营养的现象,说明上升流的存在,且该上升流有从氧同位素5期(MIS5期)向1期逐渐减弱的趋势。结合南海现代海流及生产力分布的研究,推断该上升流由东亚夏季风驱动,其强弱的变化说明,东亚夏季风在近20万年来有间冰期增强、冰期减弱,且从MIS5期向MIS1期递减的特征。 相似文献
11.
南海西南部晚更新世500 ka以来的古海洋学特征 总被引:8,自引:1,他引:8
对湄公河口外MD01—2392孔浮游有孔虫的定量分析,并采用FP-12E转换函数、MAT现代类比法及温跃层转换函数的计算,结合氧同位素分析结果,揭示了南海南部晚更新世近500ka以来的古海洋学演化特征.发现冰期MIS12、MISS、MIS2-4冬季表层水温明显高出相邻的间冰期,特别是间冰期M189、MIS5、MIS1表层水温都较低.温跃层在MIS5与MIS1最浅,MIS9其次.主要表现在浮游有孔虫深层高营养种的含量增高,表明上升流增强.间冰期的低水温很可能主要是由于上升流影响所致,当然表层盐度由于多雨而降低也可能影响到间冰期的水温估算.冰期时较高的表层水温,喜暖高盐型次表层种Pulleniatina obliquiloculata的大量繁殖,说明冰期时南部海区受来自北部强冬季风的制约使上升流活动减弱,海平面降低后与邻区通道的关闭也造成水体置换明显减弱,可能有淡水盖层发育,最终导致上层海水分层增强和冬季表层水温保持相对较高.晚更新世时期的南海南部由于冰期低海平面造成半封闭的海盆环境和季风变化,是影响其浮游有孔虫对冰期旋回响应与北部和开放大洋不同的根本原因. 相似文献
12.
Hydrography of the Bay of Bengal is highly influenced by the river runoff and rainfall during the southwest monsoon. We have reconstructed δ18Osw, sea surface salinity and sea surface temperature (SST) changes in the Bay of Bengal by using paired measurements of δ18O and Mg/Ca in a planktonic foraminifera species Globigerinoides ruber from core SK218/1 in the western Bay of Bengal in order to understand the rainfall variability associated with southwest monsoon over the past 32 kyr. Our SST reconstructions reveal that Bay of Bengal was ~3.2 °C cooler during the LGM as compared to present day temperature and a ~3.5 °C rise in SST is documented from 17 to 10 ka. Both SST and δ18Osw exhibit greater amplitude fluctuations during MIS 2 which is attributable to the variability of NE monsoon rainfall and associated river discharge into the Bay of Bengal in association with strong seasonal temperature contrast. On set of strengthening phase of SW monsoon was started during Bølling/Allerød as evidenced by the low δ18Osw values ~14.7 ka. δ18Osw show consistently lower values during Holocene (with an exception around 5 ka), which suggests that the freshening of Bay of Bengal due to heavy precipitation and river discharge caused by strong SW monsoon. Results of this study signify that the maximum fluctuations of the NE monsoon rainfall during MIS 2 appear to be controlled by the strong seasonality and boundary conditions. 相似文献
13.
P. K. Gautam A. C. Narayana P. Kiran Kumar P. G. Bhavani M. G. Yadava A. J. T. Jull 《第四纪科学杂志》2021,36(1):138-151
The Indian monsoon carries large amounts of freshwater to the northern Indian Ocean and modulates the upper ocean structure in terms of upwelling and productivity. Freshwater-induced stratification in the upper ocean of the Bay of Bengal is linked to the changes in the Indian monsoon. In this study, we test the usefulness of δ18O and δ13C variability records for Globigerina bulloides and Orbulina universa to infer Indian monsoon variability from a sediment core retrieved from the southwestern Bay of Bengal encompassing the last 46 kyr record. Results show that the northeast monsoon was dominant during the Last Glacial Maximum. Remarkable signatures are observed in the δ18O and δ13C records during the Marine Isotope Stage (MIS) 3 to MIS-1. Our study suggests that Indian monsoon variability is controlled by a complex of factors such as solar insolation, North Atlantic climatic shifts, and coupled ocean–atmospheric variability during the last 46 kyr. 相似文献
14.
The intra-seasonal variability observed in the salinity field of the upper layers at a few locations in the east central Arabian
Sea and the northern Bay of Bengal during the summer monsoon seasons of 1977 and 1979 is documented with the aid of short
time series (1–2 weeks) of salinity measurements made from USSR and Indian ships deployed during MONSOON-77 (1977) and MONEX-79
(1979) field experiments. In the Arabian Sea a typical subsurface maxima observed beneath the mixed layer base either disappeared
or considerably weakened due to strong vertical mixing caused by the monsoonal forcing. In the northern Bay of Bengal the
salinity variability in the top 30 m water column was rapid and appeared to be influenced by large amounts of fresh water
from rain and probably from the major adjoining rivers. Some simple diagnostic calculations are presented to assess the relative
importance of various processes which control the observed salinity variability. 相似文献
15.
Temporal changes in benthic foraminiferal morpho-groups were suggested as an effective proxy to reconstruct past monsoon intensity from the Arabian Sea. Here, in order to test the applicability of temporal variation in morpho-groups to reconstruct past monsoon intensity from the Bay of Bengal, we have documented recent benthic foraminiferal distribution from the continental shelf region of the northwestern Bay of Bengal. Based on the external morphology, benthic foraminifera were categorized into rounded symmetrical (RSBF) and angular asymmetrical benthic foraminifera (AABF). Additionally, a few other dominant groups were also identified based on test composition (agglutinated, calcareous) and abundance (Asterorotalids and Nonions). The relative abundance of each group was compared with the ambient physico-chemical conditions, including dissolved oxygen, organic matter, salinity and temperature. We report that the RSBF are abundant in comparatively warm and well oxygenated waters of low salinity, suggesting a preference for high energy environment, whereas AABF dominate relatively cold, hypersaline deeper waters with low dissolved oxygen, indicating a low energy environment. The agglutinated foraminifera, Asterorotalids and Nonions dominate shallow water, low salinity regions, whereas the calcareous benthic foraminiferal abundance increases away from the riverine influx regions. Food availability, as estimated from organic carbon abundance in sediments, has comparatively less influence on faunal distribution in the northwestern Bay of Bengal, as compared to dissolved oxygen, temperature and salinity. We conclude that the factors associated with freshwater influx affect the distribution of benthic foraminiferal morpho-groups in the northwestern Bay of Bengal and thus it can be used to reconstruct past monsoon intensity from the Bay of Bengal. 相似文献
16.
《Comptes Rendus Geoscience》2005,337(1-2):87-95
Holocene millennial climate variability is smaller than that of the last glaciation, due to the disappearance of large unstable ice sheets. Marine records show that the sea-surface temperature (SST) exhibited small variations, mainly in the high and low latitudes. They may be interpreted as a linear response to the mean annual insolation. Major changes in the hydrological cycle have been evidenced in the Asian and African monsoon area, resulting in enhanced precipitation and large river outflow in the Bay of Bengal and the Gulf of Niger. Enhanced rainfall over the Mediterranean Basin resulted in a weak circulation and sapropel formation below 800-m water depth in the eastern Mediterranean Sea. Finally small changes in the thermohaline circulation and the warm North Atlantic Drift have been detected in the Nordic Seas. The Holocene climatic variability is therefore similar to that of the Quaternary, but with small amplitude, while continents experienced large rainfall variations. To cite this article: J.-C. Duplessy et al., C. R. Geoscience 337 (2005). 相似文献
17.
In order to investigate how monsoons influence biogeochemical fluxes in the ocean, twelve time-series sediment traps were
deployed at six locations in the northern Indian Ocean. In this paper we present particle flux data collected during May 1986
to November 1991 and November 1987 to November 1992 in the Arabian Sea and Bay of Bengal respectively. Particle fluxes were
high during both the SW and NE monsoons in the Arabian Sea as well as in the Bay of Bengal. The mechanisms of particle production
and transport, however, differ in both the regions.
In the Arabian Sea, average annual fluxes are over 50gm-2y-1 in the western Arabian Sea and less than 27gm-2 y-1 in the central part. Biogenic matter is dominant at sites located near upwelling centers, and is less degraded during peak
flux periods. High particle fluxes in the offshore areas of the Arabian Sea are caused by injection of nutrients into the
euphotic zone due to wind-induced mixed layer deepening. In the Bay of Bengal, average annual fluxes are highest in the central
Bay of Bengal (over
50gm-2y-1) and are least in the southern part of the Bay (37gm-2y-1). Particle flux patterns coincide with freshwater discharge patterns of the Ganges-Brahmaputra river system. Opal/carbonate
and organic carbon/carbonate carbon ratios increase during the SW monsoon due to variations in salinity and productivity patterns
in the surface waters as a result of increased freshwater and nutrient input from rivers.
Comparison of S years data show that fluxes of biogenic and lithogenic particulate matter are higher in the Bay of Bengal
even though the Arabian Sea is considered to be more productive. Our results indicate that in the northern Indian Ocean interannual
variability in organic carbon flux is directly related to the strength and intensity of the SW monsoon while its transfer
from the upper layers to the deep sea is partly controlled by input of lithogenic matter from adjacent continents. 相似文献
18.
FABIEN DURAND FABRICE PAPA ATIQUR RAHMAN SUJIT KUMAR BALA 《Journal of Earth System Science》2011,120(5):859-872
This study investigates the impact of monthly Ganges–Brahmaputra river discharge variations on Bay of Bengal salinity and
temperature during the period 1992–1999. The Ganges–Brahmaputra river discharge is characterized by a well-defined seasonal
cycle with strong interannual variations. The highest/lowest yearly peak discharge occurs in summer 1998/summer 1992, with
1998 value amounting to twice that of 1992. This river discharge is then used to force an ocean general circulation model.
Our main result is that the impact of these rivers on the variability of Bay of Bengal sea surface salinity is strong in the
northern part, with excess run-off forcing fresh anomalies, and vice versa. Most of the years, the influence of the interannual variability of river discharge on the Bay salinity does not extend south
of ~10°N. This stands in contrast with the available observations and is probably linked to the relatively coarse resolution
of our model. However, the extreme discharge anomaly of 1998 is exported through the southern boundary of the Bay and penetrates
the south-eastern Arabian Sea a few months after the discharge peak. In response to the discharge anomalies, the model simulates
significant mixed-layer temperature anomalies in the northern Bay of Bengal. This has the potential to influence the climate
of the area. From our conclusions, it appears necessary to use a numerical model with higher resolution (both on the horizontal
and vertical) to quantitatively investigate the upper Bay of Bengal salinity structure. 相似文献
19.
海洋沉积物中的某些主微量元素与沉积物源区有着密切的联系,它们之间的比值变化受到源区化学风化强度的影响,因此这些元素的比值变化可以反映出海洋沉积物源区古气候的变化。本文研究了南海北部陆坡MD12-3432站位深海氧同位素6期和5期(MIS6/5) 沉积物的主微量元素,发现其表现出良好的气候控制变化特征,K/Ti、Mg/Ti、Al/Ti、Fe/Ti、Co/Ti、Zn/Ti和V/Ti等比值在MIS 5期时较高,而在MIS6期时较低。南海北部的碎屑物质主要来自中国华南地区,沉积物中元素比值的变化表明间冰期时(MIS5)华南地区陆壳化学风化增强,说明该时期华南陆地气候环境温暖湿润,这可能是间冰期时东亚夏季风加强的结果;而冰期时南海北部沉积物源区化学风化减弱,则与此时东亚冬季风较强,华南地区气候干燥寒冷相关。同时,与表层海水生产力相关的Ba/Ti比值在间冰期较高而冰期较低,反映出南海北部在间冰期时表层生产力较高而冰期时相对较低,这可能是由于东亚夏季风增强带来更多降雨,陆地化学风化作用加强,大量营养成分随河流进入南海,导致南海北部表层海水生产力增加。 相似文献