Magnetic Anisotropy and the Paleosecular Variation Record in Stalagmites from Njirak Cave, East Java: The Effect of Detrital Magnetite Emplaced in Small Cavities by Flooding Events

S. Bijaksana, S. Zulaikah, J. Hodych
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Abstract

Magnetic anisotropy and remanence were measured for 33 samples from the axis of two stalagmites from Njirak Cave in East Java. All 33 samples were stepwise demagnetized with alternating fields, but only 16 were stable enough to yield reliable characteristic remanence directions. These directions differ, especially in declination, from the present Earth’s field direction and agree for samples of about the same age from both stalagmites, suggesting that the Earth’s field at Njirak Cave maintained a declination averaging 23° and an inclination averaging −23° for most of the past 2,500 years. Anisotropy of magnetic susceptibility is high, averaging 5.8%. The minimum susceptibility axes are nearly horizontal with scattered declinations; whereas the maximum susceptibility axes tend to be steeply inclined (average inclination is 51°). This implies that the long axes of the mainly multi-domain magnetite grains tend to be steeply inclined (rather than horizontal, as expected if the magnetite were in horizontal detrital layers). We suggest that this is due to the magnetite being in flood-emplaced detritus adhering to the steeply-inclined sides of small (2 to 5 mm) cavities that cut across and are sealed off by the stalagmites’ horizontal calcite growth layers. Steeply inclined maximum susceptibility axes should help detect such stalagmites, whose quality of paleosecular variation record may be lowered by magnetite-bearing cavities.
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东爪哇Njirak洞石笋磁性各向异性与古长期变化记录:洪水事件对小洞内碎屑磁铁矿的影响
对东爪哇Njirak洞2根石笋轴线上33个样品的磁性各向异性和磁性剩余物进行了测定。所有33个样品都用交变磁场逐步退磁,但只有16个样品足够稳定,可以产生可靠的特征剩余物方向。这些方向与现在的地球磁场方向不同,特别是在赤纬上,并且与来自两个石笋的大约相同年龄的样品一致,这表明在过去2500年的大部分时间里,Njirak洞穴的地球磁场保持着平均23°的赤纬和平均- 23°的倾角。磁化率各向异性高,平均为5.8%。最小磁化率轴几乎是水平的,有分散的赤纬;而最大磁化率轴倾向于陡倾斜(平均倾角为51°)。这意味着主要多域磁铁矿颗粒的长轴倾向于陡峭倾斜(而不是水平,如果磁铁矿位于水平碎屑层中)。我们认为,这是由于磁铁矿存在于洪水淹没的碎屑中,附着在小的(2至5毫米)腔体的陡峭倾斜侧面上,这些腔体被石笋的水平方解石生长层切断并封闭。陡峭倾斜的最大磁化率轴有助于探测此类石笋,其古长期变化记录的质量可能因含磁铁矿空洞而降低。
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