Rock-magnetic characteristics and mechanisms of the Titel loess-paleosol sequence in northern Serbia since late Middle Pleistocene
Tóm tắt
Từ khóa
Tài liệu tham khảo
An Z, Kukla G J, Porter S C, Xiao J. 1991. Magnetic susceptibility evidence of monsoon variation on the loess plateau of central China during the last 130,000 years. Quat Res, 36: 29–36
An Z, Wu G, Li J, Sun Y, Liu Y, Zhou W, Cai Y, Duan A, Li L, Mao J, Cheng H, Shi Z, Tan L, Yan H, Ao H, Chang H, Feng J. 2015. Global monsoon dynamics and climate change. Annu Rev Earth Planet Sci, 43: 29–77
Antoine P, Rousseau D D, Degeai J P, Moine O, Lagroix F, Kreutzer S, Fuchs M, Hatté C, Gauthier C, Svoboda J, Lisá L. 2013. High-resolution record of the environmental response to climatic variations during the Last Interglacial-Glacial cycle in Central Europe: The loess-palaeosol sequence of Dolní Věstonice (Czech Republic). Quat Sci Rev, 67: 17–38
Barrón V, Torrent J, de Grave E. 2003. Hydromaghemite, an intermediate in the hydrothermal transformation of 2-line ferrihydrite into hematite. Am Mineral, 88: 1679–1688
Basarin B, Buggle B, Hambach U, Marković S B, Dhand K O, Kovačević A, Stevens T, Guo Z, Lukić T. 2014. Time-scale and astronomical forcing of Serbian loess-paleosol sequences. Glob Planet Change, 122: 89–106
Baumgart P, Hambach U, Meszner S, Faust D. 2013. An environmental magnetic fingerprint of periglacial loess: Records of Late Pleistocene loess-palaeosol sequences from Eastern Germany. Quat Int, 296: 82–93
Begét J E, Hawkins D B. 1989. Influence of orbital parameters on Pleistocene loess deposition in central Alaska. Nature, 337: 151–153
Berger G W, Pillans B J, Tonkin P J. 2001. Luminescence chronology of loess-paleosol sequences from Canterbury, South Island, New Zealand. New Zealand J Geol Geophys, 44: 501–516
Bidegain J C, Jurado S, Chaparro M A E, Gómez Samus M, Zicarelli S, Parodi A V. 2013. Magnetostratigraphy and environmental magnetism in a Pleistocene sedimentary sequence, Marcos Paz, Argentina. Environ Earth Sci, 69: 749–763
Bokhorst M P, Beets C J, Markovic S B, Gerasimenko N P, Matviishina Z N, Frechen M. 2009. Pedo-chemical climate proxies in Late Pleistocene Serbian-Ukranian loess sequences. Quat Int, 198: 113–123
Bokhorst M P, Vandenberghe J, Sümegi P, Lanczont M, Gerasimenko N P, Matviishina Z N, Markovic S B, Frechen M. 2011. Atmospheric circulation patterns in central and eastern Europe during the Weichselian Pleniglacial inferred from loess grain-size records. Quat Int, 234: 62–74
Buggle B, Hambach U, Kehl M, Marković S B, Zöller L, Glaser B. 2013. The progressive evolution of a continental climate in southeast-central European lowlands during the Middle Pleistocene recorded in loess paleosol sequences. Geology, 41: 771–774
Buggle B, Hambach U, Müller K, Zöller L, Marković S B, Glaser B. 2014. Iron mineralogical proxies and Quaternary climate change in SE-European loess-paleosol sequences. Catena, 117: 4–22
Chen Q, Liu X M, Heller F, Hirt A M, Lü B, Guo X L, Mao X G, Chen J S, Zhao G Y, Feng H, Guo H. 2012. Susceptibility variations of multiple origins of loess from the Ily Basin (NW China). Chin Sci Bull, 57: 1844–1855
Chen T, Xu H, Xie Q, Chen J, Ji J, Lu H. 2005. Characteristics and genesis of maghemite in Chinese loess and paleosols: Mechanism for magnetic susceptibility enhancement in paleosols. Earth Planet Sci Lett, 240: 790–802
Cheng H, Edwards R L, Broecker W S, Denton G H, Kong X G, Wang Y J, Zhang R, Wang X F. 2009. Ice age terminations. Science, 326: 248–252
Cheng H, Edwards R L, Sinha A, Spötl C, Yi L, Chen S, Kelly M, Kathayat G, Wang X, Li X, Kong X, Wang Y, Ning Y, Zhang H. 2016. The Asian monsoon over the past 640,000 years and ice age terminations. Nature, 534: 640–646
Cheng H, Zhang H, Cai Y, Shi Z, Yi L, Deng C, Hao Q, Peng Y, Sinha A, Li H, Zhao J, Tian Y, Baker J, Perez-Mejías C. 2021. Orbital-scale Asian summer monsoon variations: Paradox and exploration. Sci China Earth Sci, 64: 529–544
Chlachula J, Rutter N W, Evans M E. 1997. A late Quaternary loess-paleosol record at Kurtak, southern Siberia. Can J Earth Sci, 34: 679–686
Clemens S C, Prell W L, Sun Y. 2010. Orbital-scale timing and mechanisms driving Late Pleistocene Indo-Asian summer monsoons: Reinterpreting cave speleothem δ18O. Paleoceanography, 25: PA4207
Dearing J A, Bird P M, Dann R J L, Benjamin S F. 1997. Secondary ferrimagnetic minerals in Welsh soils: A comparison of mineral magnetic detection methods and implications for mineral formation. Geophys J Int, 130: 727–736
Deng C, Zhu R, Verosub K L, Singer M J, Yuan B. 2000. Paleoclimatic significance of the temperature-dependent susceptibility of Holocene loess along a NW-SE transect in the Chinese loess plateau. Geophys Res Lett, 27: 3715–3718
Deng C, Zhu R, Jackson M J, Verosub K L, Singer M J. 2001. Variability of the temperature-dependent susceptibility of the Holocene eolian deposits in the Chinese Loess Plateau: A pedogenesis indicator. Phys Chem Earth Part A-Solid Earth Geodesy, 26: 873–878
Deng C L, Liu Q S, Pan Y X, Zhu R X. 2007. Environmental magnetism of Chinese loess-paleosol sequences (in Chinese). Quat Sci, 27: 193–209
Dunlop D J. 2002. Theory and application of the Day plot (Mrs/Ms versus Hcr/Hc) 1. Theoretical curves and tests using titanomagnetite data. J Geophys Res, 107: 2056
Feng Z D, Wang H B, Olson C G. 2004. Pedogenic factors affecting magnetic susceptibility of the last interglacial palaeosol S1 in the Chinese Loess Plateau. Earth Surf Proc Land, 29: 1389–1402
Guo X L, Liu X M, Li P Y, Lü B, Guo H, Chen Q, Liu Z, Ma M M. 2013. The magnetic mechanism of paleosol S5 in the Baoji section of the southern Chinese Loess Plateau. Quat Int, 306: 129–136
Guo Z T, Ruddiman W F, Hao Q Z, Wu H B, Qiao Y S, Zhu R X, Peng S Z, Wei J J, Yuan B Y, Liu T S. 2002. Onset of Asian desertification by 22 Myr ago inferred from loess deposits in China. Nature, 416: 159–163
Haase D, Fink J, Haase G, Ruske R, Pécsi M, Richter H, Altermann M, Jäger K D. 2007. Loess in Europe—Its spatial distribution based on a European Loess Map, scale 1:2,500,000. Quat Sci Rev, 26: 1301–1312
Hao Q, Wang L, Oldfield F, Peng S, Qin L, Song Y, Xu B, Qiao Y, Bloemendal J, Guo Z. 2012. Delayed build-up of Arctic ice sheets during 400,000-year minima in insolation variability. Nature, 490: 393–396
Heller F, Liu T S. 1982. Magnetostratigraphical dating of loess deposits in China. Nature, 300: 431–433
Hesse P P, Humphreys G S, Smith B L, Campbell J, Peterson E K. 2003. Age of loess deposits in the Central Tablelands of New South Wales. Soil Res, 41: 1115–1131
Jiang Z, Liu Q, Roberts A P, Barrón V, Torrent J, Zhang Q. 2018. A new model for transformation of ferrihydrite to hematite in soils and sediments. Geology, 46: 987–990
Jin C, Liu Q. 2011. Remagnetization mechanism and a new age model for L9 in Chinese loess. Phys Earth Planet Inter, 187: 261–275
Jordanova D, Petersen N. 1999. Palaeoclimatic record from a loess-soil profile in northeastern Bulgaria-I. Rock magnetic properties. Geophys J Int, 138: 520–532
Jordanova D, Hus J, Evlogiev J, Geeraerts R. 2008. Palaeomagnetism of the loess/palaeosol sequence in Viatovo (NE Bulgaria) in the Danube basin. Phys Earth Planet Inter, 167: 71–83
King J, Banerjee S K, Marvin J, Özdemir Ö. 1982. A comparison of different magnetic methods for determining the relative grain size of magnetite in natural materials: Some results from lake sediments. Earth Planet Sci Lett, 59: 404–419
Kukla G, Heller F, Liu X M, Xu T C, Liu T S, An Z S. 1988. Pleistocene climates in China dated by magnetic susceptibility. Geology, 16: 811–814
Kukla G, An Z. 1989. Loess stratigraphy in central China. Palaeogeogr Palaeoclimatol Palaeoecol, 72: 203–225
Liu Q S, Jackson M J, Yu Y J, Chen F H, Deng C L, Zhu R X. 2004a. Grain size distribution of pedogenic magnetic particles in Chinese loess/paleosols. Geophys Res Lett, 31: L22603
Liu Q, Jackson M J, Banerjee S K, Maher B A, Deng C, Pan Y, Zhu R. 2004b. Mechanism of the magnetic susceptibility enhancements of the Chinese loess. J Geophys Res, 109: B12107
Liu T, Zhang S, Han J. 1986. Stratigraphy and paleoenvironmental changes in the loess of central China. Quat Sci Rev, 5: 489–495
Liu T S. 1985. Loess and the Environment. Beijing: China Ocean Press. 481
Liu X, Xu T, Liu T. 1988. The Chinese loess in Xifeng, II. A study of anisotropy of magnetic susceptibility of loess from Xifeng. Geophys J Int, 92: 349–353
Liu X M, Hesse P, Rolph T, Begét J E. 1999a. Properties of magnetic mineralogy of Alaskan loess: Evidence for pedogenesis. Quat Int, 62: 93–102
Liu X M, Hesse P, Rolph T. 1999b. Origin of maghaemite in Chinese loess deposits: Aeolian or pedogenic? Phys Earth Planet Inter, 112: 191–201
Liu X M, Liu T S, Hesse P, Xia D S, Chlachula J, Wang G. 2008. Two pedogenic models for paleoclimatic records of magnetic susceptibility from Chinese and Siberian loess. Sci China Ser D-Earth Sci, 51: 284–293
Liu X M, Liu Z, Lü B, Markovic S B, Chen J S, Guo H, Ma M M, Zhao G Y, Feng H. 2013. The magnetic properties of Serbian loess and its environmental significance. Chin Sci Bull, 58: 353–363
Liu X M, Shaw J, Liu T S, Heller F, Yuan B Y. 1992. Magnetic mineralogy of Chinese loess and its significance. Geophys J Int, 108: 301–308
Liu X M, Xia D S, Liu T S, Ding Z L, Chen F H, Begét J E. 2007. Discussion on two models of paleoclimatic records of magnetic susceptibility of Alaskan and Chinese loess (in Chinese). Quat Sci, 27: 210–220
Lu H, Sun D. 2000. Pathways of dust input to the Chinese Loess Plateau during the last glacial and interglacial periods. Catena, 40: 251–261
Ma L, Li Y, Liu X, Sun Y. 2017. Registration of Precession Signal in the Last Interglacial Paleosol (S1) on the Chinese Loess Plateau. Geochem Geophys Geosyst, 18: 3964–3975
Ma M, Liu X, Hesse P P, Lü B, Guo X, Chen J. 2013a. Magnetic properties of loess deposits in Australia and their environmental significance. Quat Int, 296: 198–205
Ma M, Liu X, Pillans B J, Hu S, Lü B, Liu H. 2013b. Magnetic properties of Dashing Rocks loess at Timaru, South Island, New Zealand. Geophys J Int, 195: 75–85
Maher B A. 2016. Palaeoclimatic records of the loess/palaeosol sequences of the Chinese Loess Plateau. Quat Sci Rev, 154: 23–84
Maher B A, Thompson R. 1992. Paleoclimatic significance of the mineral magnetic record of the Chinese loess and paleosols. Quat Res, 37: 155–170
Maher B A, Thompson R. 2012. Oxygen isotopes from Chinese caves: records not of monsoon rainfall but of circulation regime. J Quat Sci, 27: 615–624
Maher B A, Thompson R, Zhou L P. 1994. Spatial and temporal reconstructions of changes in the Asian palaeomonsoon: A new mineral magnetic approach. Earth Planet Sci Lett, 125: 461–471
Marković S B, Bokhorst M P, Vandenberghe J, McCoy W D, Oches E A, Hambach U, Gaudenyi T, Jovanović M, Zöller L, Stevens T, Machalett B. 2008. Late Pleistocene loess-palaeosol sequences in the Vojvodina region, north Serbia. J Quat Sci, 23: 73–84
Marković S B, Hambach U, Stevens T, Kukla G J, Heller F, McCoy W D, Oches E A, Buggle B, Zöller L. 2011. The last million years recorded at the Stari Slankamen (Northern Serbia) loess-palaeosol sequence: Revised chronostratigraphy and long-term environmental trends. Quat Sci Rev, 30: 1142–1154
Marković S B, Hambach U, Stevens T, Jovanović M, O’Hara-Dhand K, Basarin B, Lu H, Smalley I, Buggle B, Zech M, Svirčev Z, Sümegi P, Milojković N, Zöller L. 2012. Loess in the Vojvodina region (Northern Serbia): An essential link between European and Asian Pleistocene environments. Netherlands J Geosci, 91: 173–188
Marković S B, Stevens T, Kukla G J, Hambach U, Fitzsimmons K E, Gibbard P, Buggle B, Zech M, Guo Z, Hao Q, Wu H, O’Hara Dhand K, Smalley I J, Újvári G, Sümegi P, Timar-Gabor A, Veres D, Sirocko F, Vasiljević D A, Jary Z, Svensson A, Jović V, Lehmkuhl F, Kovács J, Svirčev Z. 2015. Danube loess stratigraphy—Towards a pan-European loess stratigraphic model. Earth-Sci Rev, 148: 228–258
Mishima T, Torii M, Fukusawa H, Ono Y, Fang X M, Pan B T, Li J J. 2001. Magnetic grain-size distribution of the enhanced component in the loess-palaeosol sequences in the western Loess Plateau of China. Geophys J Int, 145: 499–504
Obreht I, Zeeden C, Hambach U, Veres D, Marković S B, Bösken J, Svirčev Z, Bačević N, Gavrilov M B, Lehmkuhl F. 2016. Tracing the influence of Mediterranean climate on Southeastern Europe during the past 350,000 years. Sci Rep, 6: 36334
Oches E A, Banerjee S K. 1996. Rock-magnetic proxies of climate change from loess-paleosol sediments of the Czech Republic. Stud Geophys Geod, 40: 287–300
Perić Z, Adolphi E L, Stevens T, Újvári G, Zeeden C, Buylaert J P, Marković S B, Hambach U, Fischer P, Schmidt C, Schulte P, Lu H, Yi S, Lehmkuhl F, Obreht I, Veres D, Thiel C, Frechen M, Jain M, Vött A, Zöller L, Gavrilov M B. 2019. Quartz OSL dating of late quaternary Chinese and Serbian loess: A cross Eurasian comparison of dust mass accumulation rates. Quat Int, 502: 30–44
Roberts A P, Tauxe L, Heslop D, Zhao X, Jiang Z. 2018. A critical appraisal of the “Day” Diagram. J Geophys Res-Solid Earth, 123: 2618–2644
Sümegi P, Gulyás S, Molnár D, Sümegi B P, Almond P C, Vandenberghe J, Zhou L, Pál-Molnár E, Törőcsik T, Hao Q, Smalley I, Molnár M, Marsi I. 2018. New chronology of the best developed loess/paleosol sequence of Hungary capturing the past 1.1 Ma: Implications for correlation and proposed pan-Eurasian stratigraphic schemes. Quat Sci Rev, 191: 144–166
Song Y, Guo Z, Marković S, Hambach U, Deng C, Chang L, Wu J, Hao Q. 2018. Magnetic stratigraphy of the Danube loess: A composite Titel-Stari Slankamen loess section over the last one million years in Vojvodina, Serbia. J Asian Earth Sci, 155: 68–80
Song Y G, Shi Z T, Fang X M, Nie J S, Naoto I, Qiang X K, Wang X L. 2010. Loess magnetic properties in the Ili Basin and their correlation with the Chinese Loess Plateau. Sci China Earth Sci, 53: 419–431
Sun D H, Su R X, Chen F H, Yuan B Y, David R. 2001. Composition, susceptibility and input flux of present aeolian dust over loess plateau of China (in Chinese). Acta Geogr Sin, 56: 171–180
Sun J, Ding Z, Xia X, Sun M, Windley B F. 2017. Detrital zircon evidence for the ternary sources of the Chinese Loess Plateau. J Asian Earth Sci, 155: 21–34
Sun Y, Chen J, Clemens S C, Liu Q, Ji J, Tada R. 2006. East Asian monsoon variability over the last seven glacial cycles recorded by a loess sequence from the northwestern Chinese Loess Plateau. Geochem Geophys Geosyst, 7: Q12Q02
Tite M S, Linington R E. 1975. Effect of climate on the magnetic susceptibility of soils. Nature, 256: 565–566
Torrent J, Barrón V, Liu Q. 2006. Magnetic enhancement is linked to and precedes hematite formation in aerobic soil. Geophys Res Lett, 33: L02401
Tošić I, Gavrilov M B, Marković S B, Ruman A, Putniković S. 2018. Seasonal prevailing surface winds in Northern Serbia. Theor Appl Climatol, 131: 1273–1284
Valaee M, Ayoubi S, Khormali F, Lu S G, Karimzadeh H R. 2016. Using magnetic susceptibility to discriminate between soil moisture regimes in selected loess and loess-like soils in northern Iran. J Appl Geophys, 127: 23–30
Wacha L, Rolf C, Hambach U, Frechen M, Galović L, Duchoslav M. 2017. The Last Glacial aeolian record of the Island of Susak (Croatia) as seen from a high-resolution grain-size and rock magnetic analysis. Quat Int, 494: 211–224
Wang X, Yang Z, Løvlie R, Sun Z, Pei J. 2006. Environmental magnetism and paleoclimatic interpretation of the Sanmenxia loess-paleosol sequence in the southeastern extremity of the Chinese Loess Plateau. Chin Sci Bull, 51: 2755–2762
Wang Y, Cheng H, Edwards R L, Kong X, Shao X, Chen S, Wu J, Jiang X, Wang X, An Z. 2008. Millennial- and orbital-scale changes in the East Asian monsoon over the past 224,000 years. Nature, 451: 1090–1093
Xia D S, Chen F H, Ma J Y, Jin M, Wang X M, Jia J, Wei H T, Liu X B. 2010. Magnetic characteristics of loess in the Ili area and their environmental implication (in Chinese). Quat Sci, 30: 902–910
Xie Q Q, Chen T H, Xu X C, Qing C S, Xu H F, Sun Y B, Ji J F. 2009. Transformation relationship among different magnetic minerals within loess-paleosol sediments of the Chinese Loess Plateau. Sci China Ser D-Earth Sci, 52: 313–322
Zhao G Y, Liu X M, Chen Q, Lü B, Niu H W, Liu Z, Li P Y. 2013. Paleoclimatic evolution of Holocene loess and discussion of the sensitivity of magnetic susceptibility and median diameter. Quat Int, 296: 160–167
Zhou L P, Oldfield F, Wintle A G, Robinson S G, Wang J T. 1990. Partly pedogenic origin of magnetic variations in Chinese loess. Nature, 346: 737–739