CollectHomepage AdvertisementContact usMessage
Adv. search

Arid Land Geography >

2020 , Vol. 43 >Issue 3: 661 - 670

DOI: https://doi.org/10.12118/j.issn.1000-6060.2020.03.12

Statistical problem of microcharcoal in Loess sediments based on the pollen methodology

Expand

  • Northwest Institute of Ecology and Environmental ResourcesChinese Academy of SciencesLanzhou 730000Gansu,China

    University of Chinese Academy of SciencesBeijing 100049ChinaSchool of Resources and Environmental Sciences,Lanzhou UniversityLanzhou 730000Gansu,China

Received date: 2019-11-10

  Revised date: 2020-04-05

  Online published: 2020-05-25

Fold

Abstract

Fire plays an important role in studies of paleoclimate change and human activities.Microcharcoal in sediments can indicate the extent,frequency and variation of wildfires throughout geological history.Studies of microcharcoal fires based on pollen methodologies have received extensive attention from researchers,however,statistical approaches to lycopodium spores related to the needs of sporopollen statistics are uncertain,and this may result in the instability of results of microcharcoal.The Lingtai (LT) profile (33°04 N,107°39) chosen for this study is located in Lingtai County,Gansu Province,China.16 samples from different layers were selected throughout the 13 m profile (S0~L2),nine of which were in the loess layers and seven in the paleosol layers.All samples were extracted by a standard pollen methodology (adding a known number of lycopodium spores to each sample in order to calculate microcharcoal concentrations).To obtain the number of lycopodium spores that should be counted in microcharcoal research,20 groups were counted for each sample and 50 lycopodium  spores for each group,giving a total of 1 000 lycopodium spores.Two distinct shapes of microcharcoal were identified: sub-round (length/width<2.5,R) and sublong (length/width2.5,L),which respectively represent woody and herb sources.The data were then divided into four groups of grainsize groups: ~10-30 μm,~30-50 μm,~50-100 μm,and 100 μm.Results showed that the percentages and concentrations of microcharcoal in the 20 groups studied were similar but exhibited some fluctuation (standard deviation: 0.06% ~ 8.7%).We compared the data from the first accumulating group (i.e., one group) to the twentieth accumulating group (i.e.,a total of twenty groups),finding that when the total number of lycopodium spores is greater than 500,the accumulated microcharcoal concentration in each sample no longer shows significant change,and the percentages of each grainsize group tend to be stable.When the total number of lycopodium spores is 300 or greater,L/R ratios tend to be stable (standard deviation: ~0.01-0.24; r = 0.87).The results of Spearman correlation analysis of the data are consistent with the above results.Therefore,we suggest that the number of lycopodium  spores to be counted in microcharcoal research should be 500±50.Additionally,the microcharcoal concentration range between 2.33 × 103 -5.30 × 104 grains·g-1 has an average of 18 424.34 grains·g-1.The L/R ratios range between 0.26 and 2.96,averaging 1.53.Our data show that,since 165 ka,fire events have been more frequent in the Lingtai area,and herbaceous vegetation has been more dominant than woody vegetation.These findings correspond well with the elemental carbon content of the loess-paleosol,indicating that the occurrence of paleo-fires in the area is closely related to environmental change.This study explores the reasonable number of lycopodium  spores that should be counted to ensure the quality of data in work based on the standard pollen methodology.The results provide references for statisticians and statistical standards for subsequent studies of microcharcoal in loess-paleosols.

Key words: Loess Plateau; microcharcoal statistics; paleo-fire; environmental change

Cite this article

WANG Zi-sha, ZHAO Yong-tao, MIAO Yun-fa, ZOU Ya-guo, TANG Guo-qian . Statistical problem of microcharcoal in Loess sediments based on the pollen methodology[J]. Arid Land Geography, 2020 , 43(3) : 661 -670 . DOI: 10.12118/j.issn.1000-6060.2020.03.12

References

[1]FILION L.A relationship between dunes〖JP2〗,fire and climate recorded in the Holocene deposits of Quebec[J].Nature,1984,309(5968):〖JP〗543-546. [2]WINKLER M G.Charcoal analysis for paleoenvironmental interpretation:A chemical assay[J].Quaternary Research,1985,23(3):313-326. [3]PATTERSON W A,EDWARDS K J,MAGUIRE D J.Microscopic charcoal as a fossil indicator of fire[J].Quaternary Science Reviews,1987,6(1): 3-23. [4]RHODES A N.A method for the preparation and quantification of microscopic charcoal from terrestrial and lacustrine sediment cores[J].Holocene,1998,8(1):113-117. [5]伍婧,刘强.晚冰期月亮湖炭屑记录反映的古气候演化[J].地质科学,2013,48(3): 860-869.[WU Jing,LIU Qiang.Charcoal-recorded climate changes from Moon Lake in Late Glacial[J].Chinese Journal of Geology,2013,48(3):860-869.] [6]谭志海,黄春长,庞奖励,等.渭河流域全新世土壤剖面木炭屑记录及其古环境意义[J].中国生态农业学报,2010,18(1):25-30.[TAN Zhihai,HUANG Chunchang,PANG Jiangli,et al.Charcoal records of Holocene loess-soil sequences and its palaeoenvironmental significance in Weihe River Drainage[J].Chinese Journal of Eco-Agriculture,2010,18(1):25-30.] [7]仝秀芳.湖北省太白湖孢粉与炭屑揭示的近1 500 a以来的气候变化与人类活动[D].南京:南京师范大学,2009.[TONG Xiufang.The pollen and charcoal record of Lake Taibai in Hubei Province reveal the climate change and human activities in the past 1 500 years[D].Nanjing: Nanjing Normal University,2009.] [8]罗运利,陈怀成,吴国瑄,等.南海最近3个冰期旋回中的天然火与气候——ODP1144孔深海沉积中的炭屑记录[J].中国科学(D辑:地球科学),2001,31(10):854-860.[LUO Yunli,CHEN Huaicheng,WU Guoxuan,et al.Records of natural fire and climate history du ring the last three glacial-interglacial cycles around the South China Sea:Charcoal record from the ODP1114[J].Scientia Sinica (Terrae),2001,31(10):854-860.] [9]李小强,周新郢,尚雪,等.黄土炭屑分级统计方法及其在火演化研究中的意义[J].湖泊科学,2006,18(5):540-544.[LI Xiaoqiang,ZHOU Xinying,SHANG Xue,et al.Different(kPa/℃)size method of charcoal analysis in loess and its significance in the study of fire variation[J].Journal of Lake Sciences,2006,18(5):540-544.] [10]谭志海,黄春长,庞奖励,等.陇东黄土高原北部全新世野火历史的木炭屑记录[J].第四纪研究,2008,28(4):733-738.[TAN Zhihai,HUANG Chunchang,PANG Jiangli,et al.Charcoal recorded Holocene fire history in the northern part of the Longdong Loess Plateau[J].Quaternary Sciences,2008,28(4):733-738.] [11]张红艳.南洛河流域更新世黄土沉积揭示的古人类生存环境变迁[D].南京:南京大学,2013.[ZHANG Hongyan.Pleistocene loess deposits reveal paleoenvironment of the hominins lived in the South Luo River region[D].Nanjing: Nanjing University,2013.] [12]MIAO Y F,JIN H L,CUI J X.Human activity accelerating the rapid desertification of the Mu Us Sandy Lands,North China[J].Scientific Reports,2016,6:23003. [13]MIAO Y F,ZHANG D J,CAI X M,et al.Holocene fire on the northeast Tibetan Plateau in relation to climate change and human activity[J].Quaternary International,2017,443:124-131. [14]曹艳峰,黄春长,韩军青,等.黄土高原东西部全新世剖面炭屑记录的火环境变化[J].地理与地理信息科学,2007,23(1):92-96.[CAO Yanfeng,HUANG Chunchang,HAN Junqing,et al.Changes of fire environment recorded by charcoal hided in Holocene profile in the eastern and western Loess Plateau[J].Geography and Geo-information Science,2007,23(1):92-96.] [15]MIAO Y F,WU F L,WARNY S,et al.Miocene fire intensification linked to continuous aridification on the Tibetan Plateau[J].Geology,2019,47(4):303-307. [16]MA T,ZHENG Z,MAN M L,et al.Holocene fire and forest histories in relation to climate change and agriculture development in southeastern China[J].Quaternary International,2018,488:30-40. [17]MIAO Y F,FANG X M,SONG C H,et al.Late Cenozoic fire enhancement response to aridification in mid-latitude Asia:Evidence 〖JP2〗from microcharcoal records[J].Quaternary Science Reviews,2016,〖JP〗139:53-66. [18]TAN Z H,HAN Y M,CAO J J,et al.The linkages with fires,vegetation composition and human activity in response to climate changes in the Chinese Loess Plateau during the Holocene[J].Quaternary International,2018,488:18-29. [19]TAN Z H,MAO L J,HAN Y M,et al.Black carbon and charcoal records of fire and human land use over the past Cheek 11 300 years at the Tongguan Kiln archaeological site,China[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2018,504:162-169. [20]王春玥.MIS-2早期冀东地区古环境变化特征与古人类活动[D].石家庄:河北师范大学, 2018.[WANG Chunyue.Environmental changes and human activities during the Early MIS-2 period in the northeast past of North China Plain[D].Shijiazhuang: Hebei Normal University,2018.] [21]陆岸青,李珍,李杰,等.越南红河流域沉积物的镜下碳屑分析实验室处理方法对比研究[J].第四纪研究,2009,29(4):825-830.[LU Anqing,LI Zhen,LI Jie,et al.Comparative experiments of extravting charcoals from sediment with microscope in the Red River Basin,Vietnam[J].Quaternary Sciences,2009,29(4):825-830.] [22]张健平,吕厚远.现代植物炭屑形态的初步分析及其古环境意义[J].第四纪研究,2006,26(5):857-863.[ZHANG Jianping,LV Houyuan.Prelminary study of charcoal morphology and its environmental significance[J].Quaternary Sciences,2006,26(5):857-863.] [23]李宜垠,侯树芳,赵鹏飞.微炭屑的几种统计方法比较及其对人类活动的指示意义[J].第四纪研究, 2010, 30(2):356-363.[LI Yiyin,HOU Shufang,ZHAO Pengfei.Comparison of different quantification methods for microfossil charcoal concentration and the implication for human activities[J].Quaternary Sciences,2010,30(2):356-363.] [24]刘东生.黄土与环境[M].北京:科学出版社,1985.[LIU Dongsheng.Loess and the environment[M].Beijing:Science Press,1985.] [25]周斌.晚新生代以来灵台黄土剖面元素碳记录与气候环境变化[D].广州:中国科学院研究生院(广州地球化学研究所),2005.[ZHOU Bin.The record of elemental carbon in the Loess of Lingtai Section since the Late Cenozoic and the environment and climate change[D].Guangzhou: Guangzhou Institute of Geochemistry,Chinese Academy of Sciences,2005.] [26]孙东怀.晚新生代黄土高原风尘序列的磁性地层与古气候记录[D].西安:中国科学院研究生院(地球环境研究所),1997.[SUN Donghuai.Magnetostratigraphy and paleoclimate records of Late Cenozoic eolian sequence in the Loess Plateau of China[D].Xi’an:Institute of Earth Environment,Chinese Academy of Sciences,1997.] [27]DING Z L,DERBYSHIRE E,YANG S L,et al.Stacked 2.6-Ma grain size record from the Chinese loess based on five sections and correlation with the deep-sea δ18O record[J].Paleoceanography,2002,17(3):1033,doi:10.1029/2001PA000725. [28]HORN S,HORN R,ROGERBYRNE.An automated charcoal scanner for paleoecological studies[J].Geoscience & Man,1992,16(1):7-12. [29]CLARK R L.Point count estimation of charcoal in pollen preparations and thin sections[J].Pollen Et Spores,1982,24:523-535. [30]CLARK J S.Particle motion and the theory of charcoal analysis:Source area,transport,deposition,and sampling[J].Quaternary Research,1988,30(1):67-80. [31]DANIAU A L,GONI M F S,MARTINEZ P,et al.Orbital-scale climate forcing of grassland burning in southern Africa[J].Proceedings of the National Academy of Sciences of the United States of America,2013,110(13):5069-5073. [32]CRAWFORD A J,BELCHER C M.Charcoal morphometry for paleoecological analysis: The effects of fuel type and transportation on morphological parameters[J].Applications in Plant Sciences,2014,2(8):1400004. [33]UMBANHOWAR C E,MCGRATH M J.Experimental production and analysis of microscopic charcoal from wood,leaves and grasses[J].Holocene,1998,8(3):341-346. [34]黄春长,庞奖励,黄萍,等.关中盆地西部黄土台塬全新世气候事件研究[J].干旱区地理,2002,25(1):10-15.[HUANG Chunchang,PANG Jiangli,HUANG Ping,et al.Holocene climatic events on the loess tableland in the western Guanzhong Basin,China[J].Arid Land Geography,2002,25(1):10-15.] [35]刘浩,贾佳,路彩晨,等.则克台黄土粒度组分分离及其记录的末次冰期气候波动[J].干旱区地理,2018,41(6):1260-1269.[LIU Hao,JIA Jia,LU Caichen,et al.Multicomponents separation of loess grain size in Zeketai and the recorded climate fluctuation during the last glacial period[J].Arid Land Geography,2018,41(6):1260-1269.] [36]翟新伟,李富强,吴松.会宁剖面黄土粒度记录的MIS3阶段气候变化研究[J].干旱区地理,2013,36(5):773-780.[ZHAI Xinwei,LI Fuqiang,WU Song.Huining MIS3 stage climate change based on the loess grain size record[J].Arid Land Geography,2013,36(5):773-780.] [37]DANIAU A L,GO I M F S,DUPRAT J.Last glacial fire regime variability in western France inferred from microcharcoal preserved in core MD04-2845,Bay of Biscay[J].Quaternary Research,2009,71(3):385-396. [38]WANG X,PENG P A,DING Z L.Black carbon records in Chinese Loess Plateau over the last two glacial cycles and implications for paleofires[J].Palaeogeography Palaeoclimatology Palaeoecology,2005,223(1):9-19. [39]DANIAU A L,HARRISON S P,BARTLEIN P J.Fire regimes during the Last Glacial[J].Quaternary Science Reviews,2010,29(21):2918-2930. [40]DANIAU A L,S-NCHEZ-GO I M F,BEAUFORT L,et al.Dansgaard-Oeschger climatic variability revealed by fire emissions in southwestern Iberia[J].Quaternary Science Reviews,2007,26(9):1369-1383. [41]周斌,沈承德,孙彦敏,等.370 ka以来灵台黄土剖面元素碳记录及其对气候环境变化的响应[J].科学通报,2006,51(10):1211-1217.[ZHOU Bin,SHEN Chengde,SUN Yanmin,et al.A biomass burning record from the Lingtai loess section during the last 370 ka and implication for climate and environment[J].Chinese Science Bulletin,2006,51(10):1211-1217.] [42]刘俊峰,苏英.甘肃平凉地区约80万年以来的植被与气候变迁[J].地理研究,1994,13(4):90-97.[LIU Junfeng,SU Ying.The changes of vegetation and climate in Pingliang region,Gansu Province since about 800 000 YR B P[J].Geographical Research,1994,13(4):90-97.]
Options
Outlines

/