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Rock-magnetic proxies of climate change in the loess-palaeosol sequences of the western Loess Plateau of China (1995)

Hunt, Christopher P. ; Banerjee, Subir K. ; Han, Jiamao ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Geophysical journal international 123 (1995), S. 0

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ISSN: 1365-246X

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Results of the first detailed study of the climate proxy record in the loess-palaeosol sequence at Xining-one of the few palaeoclimate sites in the currently arid western Loess Plateau of China-illustrate the importance of making many types of rock-magnetic measurements other than susceptibility. A multiparameter approach yielded confirmation that here, as elsewhere in the Loess Plateau, the susceptibility enhancement in palaeosols was caused primarily by ultrafine magnetite and maghaemite. Nevertheless, magnetic enhancement was caused not exclusively by changes in relative grain size, but also by variations in concentration and mineralogy of the magnetic fraction.The effects of concentration variations were removed through normalization of susceptibility and anhysteretic remanence with saturation magnetization and saturation remanence, respectively. the resulting signal was ascribed more confidently to variation in magnetic grain size, which in turn was interpreted as a better proxy of pedogenesis than simple susceptibility. Variations in magnetic mineralogy were also determined to constrain interpretations further. the data were then used to discuss climate history at Xining. Finally, results from Xining were compared with other western sites and contrasted with eastern sites.In summary: (1) data is presented from a new Loess Plateau site which also appears to yield a global climate signal; (2) a demonstration is made of a more rock-magnetically robust way to separate concentration, composition and grain-size controls on susceptibility and other magnetic parameters; and (3) models are provided for inter-regional comparisons of palaeoclimate proxy records.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-246X.1995.tb06672.x

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Detrital Remanence, Inclination Errors, and Anhysteretic Remanence Anisotropy: Quantitative Model and Experimental Results (1991)

Jackson, Michael J. ; Banerjee, Subir K. ; Marvin, James A. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Geophysical journal international 104 (1991), S. 0

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ISSN: 1365-246X

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: We suggest that inclination errors in detrital remanent magnetization (DRM) may be recognized and corrected by measurement of the anisotropy of anhysteretic remanent magnetization (ARM). ARM anisotropy reflects directional variations in the remanence capacity of relatively fine-grained magnetic particles in rocks or sediments, generally the same particles that carry the stable component of DRM. Relative vertical and horizontal DRM magnitudes are controlled by this directional remanence capacity, as well as by the alignment efficiency of the particle magnetic moments, which in turn is governed by the relative intensities of the vertical and horizontal components of the ambient magnetic field. Thus the respective vertical and horizontal components of palaeointensity, and therefore palaeofield inclination, may be obtained by normalizing the measured DRM components by parallel ARM intensities.Synthetic sediments containing silica, kaolin, and sized magnetite powders have previously been found to acquire experimental DRM with an inclination error that is a direct function of kaolin concentration. Further experiments have now shown that ARM anisotropy in the synthetic sediments is also a direct function of kaolin content, and thus a correlation exists between DRM inclination errors and ARM anisotropy. Multiplying the measured DRM vector by the inverse of the ARM anisotropy matrix yields an improved estimate of the actual laboratory depositional field in all cases. For samples with acicular 0.5 μm magnetite, this procedure reduces a mean inclination error of over 5° to less than 0.5°. Samples with subequant magnetite of slightly larger grain size (0.75 μm) exhibit similar ARM anisotropy (∼10 per cent), but somewhat larger inclination errors (∼10°). We interpret this in terms of stronger horizontal alignment but weaker particle anisotropies for the larger, more equant magnetites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-246X.1991.tb02496.x

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