Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province

XUE Xiang-xu; LU Hua-yu; ZHOU Jie

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Article Navigation > Acta Sedimentologica Sinica > 2002 > 20(1): 118-123

XUE Xiang-xu, LU Hua-yu, ZHOU Jie. Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province[J]. Acta Sedimentologica Sinica, 2002, 20(1): 118-123.

Citation:

XUE Xiang-xu, LU Hua-yu, ZHOU Jie. Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province[J]. Acta Sedimentologica Sinica, 2002, 20(1): 118-123.

Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province

1 Department of Geology, Institute of Cenozoic geology and environment, Northwest University,Xi'an 710069;
2 Institute of Earth Environment, State Key LaboratoryofLoess and Ouaternary Geology, Chinese Academy of Sciences, Xi'an 710075

Received Date: 2001-06-18

Abstract

An approximately continuous section of Late Cenozoic earthy deposits, developed at Xiaqiang Village, Xunyi County, Shaanxi Province, is 230 m in thickness and consists of the complete Quaternary loess-paleosol sequence and its underlying Neogene red earth beds. The loess-paleosol deposits of Quaternary as the aolian genesis has been accepted broadly by geologists. The red earth of Neogene has also been considered to have the same origin as that of loess in recent years. Therefore, the characteristics of the grain-size analysis of the red earth, similar to that of loess, could be used as a substitute index for the paleoclimate study. The climatic evolution of Neogene is discussed in this paper by studying on the grain-size analysis. We choose four groups of grain size data: the mean, 30μm, 63μm and 2μm, which are shown in four curves. Then, we could see (Fig. 2) that these four grain-size curves are all relatively stable and show the features of high-frequency and low-amptitude. Each of these four curves of Neogene red beds can be subdivided into four parts ranging from the bottom up to the top. The first part composed of the 20th bed group has high content of mean, 30μm and 63μm, but low content of 2μm. The second part formed by the bed groups of 19～18th is between the first and third parts, whose content of the mean, 30μm and 63μm is gradually decreasing all the way till the bottom of the third part, while that of the 2μm is increasing till to the highest of the third one. The third part, composed of 17～15th bed groups, has high content of 2μm and low content of mean, 30μm and 63μm; The forth part consisting 14～13th bed groups is relatively stable without obvious undulation, although the content of the mean, 30μm and 63μm is slightly higher, while the 2μm slightly lower than those of the third one. These differences of four parts can also be seen in Fig. 3 the age/depth relations of the different sedimentary ratio of each part. Each curve of Neogene, especially that of 2μm, can further be subdivided into four million-grade cycles, each of these cycles containing many smaller cycles of ten thousand grade. The sharp changes of the curves near the top reveal the different features of grain-size composition of Quaternary from those of Neogene. The curves of coarse particle of Neogene show little changes, which probably means the small uplift of Qin-Tibet Plateau. Winter and also summer monsoon had been primarily formed though rather weak. The average content of 2μm particles is remarkably higher in Neogene red beds than that in Quaternary loess-paleosol, but with a certain fluctuation, suggesting that the Neogene climate was mainly moist and warm and that the strength of summer monsoon had a slight greater change. The grain-size curve of 2μm particles can be divided into four stages. Stage 3, consisting of 17～15th bed-groups, shows the strongest summer monsoon, being the warmest and wettest. However, stages 4, 1 and 2 indicate that the summer monsoon of these stages is relatively weaker than that of stage 3. In other words, the feature of the Late Neogene climate of lLoess Plateau was generally warm and moist. With this background climate there were alterations of warm-wet and cool-dry climate. A distinct change in the curve can be seen since Quaternary, which is indicated by the increase of coarse particles and decrease of 2μm particles. And the curve changed from high-frequency, low-amptitude pattern of Neogene to that of low-frequency, high-amptitude. This obvious change is mainly related to the strong uplift of Qin-Tibet Plateau since Quaternary and also to the formation and expansion of Antarctic ice sheet. The grain-size curves are in agreement with susceptibility curve and strata analysis.
- Shaanxi Xunyi,
- grain-size composition,
- paleoclimate

References

[1]	An Zhisheng,Liu Tungsheng,Lu Yanchou,et al.The long-term paleomonsoon variation recorded by the loess-paleosol sequence in central China[J].Quaternary International,1990,(7/8):91～95
[2]	刘东生.黄土与环境[M].北京:科学出版社,1985.191～207
[3]	Xiao Jule,Zheng Hongbo,Zhao Hua.Variation of winter monsoon intensity on the loess plateau,central China during the last 130000 years:evidence form grain size distribution[J].The Quaternary Research,1992,(31):13～19
[4]	Ding Zhongli,Yu Zhiwei,Rutter N W,et al.Towards an orbital time scale for Chinese loess deposits[J].Quaternary Sciences Reviews,1994,(13):39～70
[5]	安芷生,Porter S C,Chappell J等.最近130ka洛川黄土堆积序列与格陵兰冰芯记录[J].科学通报.1994,39(24):2 254～2 256
[6]	Liu X M,Xu T C,Liu T S.A study of anisotropy of magnetic susceptibility of loess from Xifeng[J].Geophysical Journal,1988,92(2):349～353
[7]	赵景波.西安、山西保德第三纪晚期红土的研究[J].沉积学报,1989,7(3):113～120
[8]	安芷生,吴锡浩,汪品先等.最近130 ka中国的古季风-Ⅱ、古季风变迁[J].中国科学(B辑),1991,21(11):1 209～1 215
[9]	丁仲礼,孙继敏,朱日祥等.黄土高原红粘土成因及上新世北方干旱化问题[J].第四纪研究,1997 (2):147～157
[10]	安芷生,王苏民,吴锡浩等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动[J].中国科学,1998,28(6):481～490
[11]	鹿化煜,安芷生.黄土高原红粘土与黄土古土壤粒度特征对比-红粘土风成成因的新证据[J].沉积学报,1999,17(2):226～232
[12]	丁仲礼,孙继敏,杨石岭等.灵台黄土-红粘土序列的磁性地层及粒度记录[J].第四纪研究,1998,(1):86～94
[13]	Ding Z L,Sun J M,Yang S L,et al.Pedostrotigraphy and paleomagnetism of a ～7.0Ma eolian loess-red clay sequence at Lingtai Loess Plateau,North-central China and the implication for paleomonsoon evolution[J].Palaeogeography,Palaeoclimatoegy,Palaeocology,1999,(152):49～66
[14]	杨石岭,侯圣山,王旭等.泾川晚第三纪红粘土的磁性地层及其与灵台剖面的对比[J].第四纪研究,2000,20(5):423～434
[15]	丁仲礼,孙继敏,刘东生.上新世以来毛乌苏沙地阶段性扩张的黄土-红粘土沉积证据[J].科学通报,1999,44(3):324～326
[16]	丁仲礼,杨石岭,孙继敏等.2.6Ma前后大气环流重构的黄土-红粘土沉积证据[J].第四纪研究,1999,(3),277～281
[17]	郭正堂,彭淑贞,郝青振等.晚第三纪中国西北干旱化的发展及其与北极冰盖形成演化和青藏高原隆升的关系[J].第四纪研究,1999,(6):556～567
[18]	薛祥煦,张云翔,岳乐平.黄土高原一个连续的晚新生代剖面及其划分与对比[J].地层学杂志,2001,25(2):81～89
[19]	薛祥煦,岳乐平,王建其.从陕西旬邑上新生界剖面看黄土高原新近系/第四系界线[J].地层学杂志,2001,25(3):161～165
[20]	鹿化煜,安芷生.洛川黄土粒度组的古气候意义[J].科学通报,1997,42(1):66～69
[21]	鹿化煜,安芷生.黄土高原黄土粒度组成的古气候意义[J].中国科学,1998,28(3):278～283
[22]	吴锡浩,王苏民,安芷生等.关于晚新生代准1.2 Ma周期构造气候旋回[J].地质力学学报,1998,4(4):1～10
[23]	Kutzbach J E,Prell W L.Sensitivity of Eurasian Climate to surface uplift of Tibetan Plateau[J].J.Geol.,1993,(101):177～190
[24]	DeMonocal P.Wireline logging of the North Pacific transect[J].JOIDES Journal,1993,19(1):29

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Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province

1 Department of Geology, Institute of Cenozoic geology and environment, Northwest University,Xi'an 710069;

2 Institute of Earth Environment, State Key LaboratoryofLoess and Ouaternary Geology, Chinese Academy of Sciences, Xi'an 710075

Received Date: 2001-06-18

Key words:

Abstract: An approximately continuous section of Late Cenozoic earthy deposits, developed at Xiaqiang Village, Xunyi County, Shaanxi Province, is 230 m in thickness and consists of the complete Quaternary loess-paleosol sequence and its underlying Neogene red earth beds. The loess-paleosol deposits of Quaternary as the aolian genesis has been accepted broadly by geologists. The red earth of Neogene has also been considered to have the same origin as that of loess in recent years. Therefore, the characteristics of the grain-size analysis of the red earth, similar to that of loess, could be used as a substitute index for the paleoclimate study. The climatic evolution of Neogene is discussed in this paper by studying on the grain-size analysis. We choose four groups of grain size data: the mean, 30μm, 63μm and 2μm, which are shown in four curves. Then, we could see (Fig. 2) that these four grain-size curves are all relatively stable and show the features of high-frequency and low-amptitude. Each of these four curves of Neogene red beds can be subdivided into four parts ranging from the bottom up to the top. The first part composed of the 20th bed group has high content of mean, 30μm and 63μm, but low content of 2μm. The second part formed by the bed groups of 19～18th is between the first and third parts, whose content of the mean, 30μm and 63μm is gradually decreasing all the way till the bottom of the third part, while that of the 2μm is increasing till to the highest of the third one. The third part, composed of 17～15th bed groups, has high content of 2μm and low content of mean, 30μm and 63μm; The forth part consisting 14～13th bed groups is relatively stable without obvious undulation, although the content of the mean, 30μm and 63μm is slightly higher, while the 2μm slightly lower than those of the third one. These differences of four parts can also be seen in Fig. 3 the age/depth relations of the different sedimentary ratio of each part. Each curve of Neogene, especially that of 2μm, can further be subdivided into four million-grade cycles, each of these cycles containing many smaller cycles of ten thousand grade. The sharp changes of the curves near the top reveal the different features of grain-size composition of Quaternary from those of Neogene. The curves of coarse particle of Neogene show little changes, which probably means the small uplift of Qin-Tibet Plateau. Winter and also summer monsoon had been primarily formed though rather weak. The average content of 2μm particles is remarkably higher in Neogene red beds than that in Quaternary loess-paleosol, but with a certain fluctuation, suggesting that the Neogene climate was mainly moist and warm and that the strength of summer monsoon had a slight greater change. The grain-size curve of 2μm particles can be divided into four stages. Stage 3, consisting of 17～15th bed-groups, shows the strongest summer monsoon, being the warmest and wettest. However, stages 4, 1 and 2 indicate that the summer monsoon of these stages is relatively weaker than that of stage 3. In other words, the feature of the Late Neogene climate of lLoess Plateau was generally warm and moist. With this background climate there were alterations of warm-wet and cool-dry climate. A distinct change in the curve can be seen since Quaternary, which is indicated by the increase of coarse particles and decrease of 2μm particles. And the curve changed from high-frequency, low-amptitude pattern of Neogene to that of low-frequency, high-amptitude. This obvious change is mainly related to the strong uplift of Qin-Tibet Plateau since Quaternary and also to the formation and expansion of Antarctic ice sheet. The grain-size curves are in agreement with susceptibility curve and strata analysis.

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Reference (24)

[1]	An Zhisheng,Liu Tungsheng,Lu Yanchou,et al.The long-term paleomonsoon variation recorded by the loess-paleosol sequence in central China[J].Quaternary International,1990,(7/8):91～95
[2]	刘东生.黄土与环境[M].北京:科学出版社,1985.191～207
[3]	Xiao Jule,Zheng Hongbo,Zhao Hua.Variation of winter monsoon intensity on the loess plateau,central China during the last 130000 years:evidence form grain size distribution[J].The Quaternary Research,1992,(31):13～19
[4]	Ding Zhongli,Yu Zhiwei,Rutter N W,et al.Towards an orbital time scale for Chinese loess deposits[J].Quaternary Sciences Reviews,1994,(13):39～70
[5]	安芷生,Porter S C,Chappell J等.最近130ka洛川黄土堆积序列与格陵兰冰芯记录[J].科学通报.1994,39(24):2 254～2 256
[6]	Liu X M,Xu T C,Liu T S.A study of anisotropy of magnetic susceptibility of loess from Xifeng[J].Geophysical Journal,1988,92(2):349～353
[7]	赵景波.西安、山西保德第三纪晚期红土的研究[J].沉积学报,1989,7(3):113～120
[8]	安芷生,吴锡浩,汪品先等.最近130 ka中国的古季风-Ⅱ、古季风变迁[J].中国科学(B辑),1991,21(11):1 209～1 215
[9]	丁仲礼,孙继敏,朱日祥等.黄土高原红粘土成因及上新世北方干旱化问题[J].第四纪研究,1997 (2):147～157
[10]	安芷生,王苏民,吴锡浩等.中国黄土高原的风积证据:晚新生代北半球大冰期开始及青藏高原的隆升驱动[J].中国科学,1998,28(6):481～490
[11]	鹿化煜,安芷生.黄土高原红粘土与黄土古土壤粒度特征对比-红粘土风成成因的新证据[J].沉积学报,1999,17(2):226～232
[12]	丁仲礼,孙继敏,杨石岭等.灵台黄土-红粘土序列的磁性地层及粒度记录[J].第四纪研究,1998,(1):86～94
[13]	Ding Z L,Sun J M,Yang S L,et al.Pedostrotigraphy and paleomagnetism of a ～7.0Ma eolian loess-red clay sequence at Lingtai Loess Plateau,North-central China and the implication for paleomonsoon evolution[J].Palaeogeography,Palaeoclimatoegy,Palaeocology,1999,(152):49～66
[14]	杨石岭,侯圣山,王旭等.泾川晚第三纪红粘土的磁性地层及其与灵台剖面的对比[J].第四纪研究,2000,20(5):423～434
[15]	丁仲礼,孙继敏,刘东生.上新世以来毛乌苏沙地阶段性扩张的黄土-红粘土沉积证据[J].科学通报,1999,44(3):324～326
[16]	丁仲礼,杨石岭,孙继敏等.2.6Ma前后大气环流重构的黄土-红粘土沉积证据[J].第四纪研究,1999,(3),277～281
[17]	郭正堂,彭淑贞,郝青振等.晚第三纪中国西北干旱化的发展及其与北极冰盖形成演化和青藏高原隆升的关系[J].第四纪研究,1999,(6):556～567
[18]	薛祥煦,张云翔,岳乐平.黄土高原一个连续的晚新生代剖面及其划分与对比[J].地层学杂志,2001,25(2):81～89
[19]	薛祥煦,岳乐平,王建其.从陕西旬邑上新生界剖面看黄土高原新近系/第四系界线[J].地层学杂志,2001,25(3):161～165
[20]	鹿化煜,安芷生.洛川黄土粒度组的古气候意义[J].科学通报,1997,42(1):66～69
[21]	鹿化煜,安芷生.黄土高原黄土粒度组成的古气候意义[J].中国科学,1998,28(3):278～283
[22]	吴锡浩,王苏民,安芷生等.关于晚新生代准1.2 Ma周期构造气候旋回[J].地质力学学报,1998,4(4):1～10
[23]	Kutzbach J E,Prell W L.Sensitivity of Eurasian Climate to surface uplift of Tibetan Plateau[J].J.Geol.,1993,(101):177～190
[24]	DeMonocal P.Wireline logging of the North Pacific transect[J].JOIDES Journal,1993,19(1):29

Paleoclimatic Significance of Grain-size Composition of Neogene Red Earth at Xunyi, Shaanxi Province

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