کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
4733430 | 1357024 | 2011 | 12 صفحه PDF | دانلود رایگان |
![عکس صفحه اول مقاله: Textures of syntaxial quartz veins synthesized by hydrothermal experiments Textures of syntaxial quartz veins synthesized by hydrothermal experiments](/preview/png/4733430.png)
Syntaxial quartz veins were synthesized by hydrothermal flow-through experiments using rock blocks (metachert, sandstone, and granite) containing slits. Based on analyses of vein textures using birefringence imaging microscopy, we identified two stages of crystal growth. During stage 1, quartz grain growth occurs without an increase in grain width. During stage 2, quartz grains develop facets and grow preferentially parallel to the c-axis orientation, and the aspect ratio of quartz grains shifts toward ∼2.9. Competitive growth occurs significantly at stage 2, and the transition from stage 1–2 occurs at a critical distance from the vein wall, being approximately equal to the host-rock grain size. Crystal growth in the slits produce various textures controlled by the ratio of slit aperture (H) to host-rock grain size (d). In high H/d cracks, elongate–blocky texture develops by grain impingement during stage 2, whereas in low H/d cracks, crystals that bridge the crack form without competitive growth by grain impingement at stage 1. Heterogeneous structures of fracture porosity are produced during syntaxial vein formation, due to the anisotropy in the growth rate of quartz. Such “incompletely sealed” cracks may act as important fluid pathways and as weak planes in the upper crust.
► Syntaxial quartz veins were synthesized by hydrothermal flow-through experiments.
► The nature of competitive growth was analyzed using a birefringence imaging microscope.
► Two successive growth stages, with and without competitive growth, were observed.
► The ratio of crack aperture to host-rock grain size is critical for vein textures.
► Heterogeneous fracture porosities are produced during syntaxial vein formation.
Journal: Journal of Structural Geology - Volume 33, Issue 12, December 2011, Pages 1764–1775