项目编号: | 1447035
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项目名称: | Evaluating the scatter of Detrital Remanent Magnetizations and its effects on relative paleointensity estimates. |
作者: | Dario Bilardello
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承担单位: | University of Minnesota-Twin Cities
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批准年: | 2014
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开始日期: | 2015-06-15
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结束日期: | 2018-05-31
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资助金额: | USD100000
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资助来源: | US-NSF
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项目类别: | Continuing grant
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国家: | US
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语种: | 英语
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特色学科分类: | Geosciences - Earth Sciences
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英文关键词: | magnetization
; relative paleointensity
; rpi estimate
; scatter
; estimate
; magnetic anisotropy
; geomagnetic field
; particle scatter
; detrital remanent magnetization
; magnetization intensity
; anisotropy-corrected magnetization
; variable scatter
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英文摘要: | Records of the geomagnetic field are derived from both igneous and sedimentary rocks, together with certain archeological artifacts. Sedimentary rock sequences are continuous through time, and provide a better picture of the magnetic field's evolution, but bear the limiting disadvantage of only providing relative, rather than absoltute, geomagnetic intensity records. Additionally, sediments are subject to biases, which affect the final distributions of the magnetic particles and the recorded magnetization. While valid correction techniques exist to obviate for notable sediment magnetic-recording biases, to date these are not used to further correct the relative paleointensity records. Conducting a series of deposition experiments in laboratory-controlled magnetic fields, and correcting for the known biases has the potential of improving estimates of relative paleointensity. These improvements would significantly contribute to our understanding of the evolution of the geomagnetic field, and therefore the history of the geodynamo and the formation of the earths interior.
Despite the vast amount of research, detrital remanent magnetization (DRM) probably remains the most poorly understood type of magnetic remanence. The importance of sedimentary records in paleomagnetism warrants a sustained effort in fully understanding how sediments acquire their magnetization and how accurately they record the geomagnetic field. The efficiency of DRM is limiting in providing records of magnetic field intensity: the variable scatter of individual magnetic particle directions results in a mean vector that maintains the average orientation of the ambient field but often not its inclination; importantly, the resultant vector length is dependent on the scatter, greatly affecting relative paleointensity (RPI) estimates. Magnetic anisotropy provides a useful measurement of the scatter of particle distributions: through measurements of magnetic anisotropy obtained from deposition experiments conducted in controlled magnetic fields, the effect of the ambient field direction and intensity on particle scatter will be evaluated. Magnetic anisotropy will be used to correct for misalignment biases by restoring the distribution of directions and inclinations. In turn, this allows restoring the intensity of magnetization, permitting a novel approach of investigating RPI. Two approaches are proposed: the first utilizes the anisotropy-corrected magnetizations to provide RPI estimates, while the second will instead utilize the corrected mean resultant vector of each group of experiments as a proxy for the magnetization intensity. The expectation is that the corrected magnetizations and resultant vectors yield more consistent RPI estimates, owing to the field-strength and field-inclination dependence on the inclination error. The resultant vector approach, if successful, would provide a simplified, more applicable means of providing RPI estimates. |
资源类型: | 项目
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标识符: | http://119.78.100.158/handle/2HF3EXSE/94366
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Appears in Collections: | 影响、适应和脆弱性 气候减缓与适应
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Recommended Citation: |
Dario Bilardello. Evaluating the scatter of Detrital Remanent Magnetizations and its effects on relative paleointensity estimates.. 2014-01-01.
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