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jgrb57063-fig-0010-m.gif (icon)
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[11.35 KB]
14 Dec 2024, 12:27
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Conceptual model of possible unloading-induced degassing process related to loading/unloading of a snow-load. (a) Pre-winter (e.g., January–May): minimal snow-load present on the volcano. (b) Early winter (e.g., June–July): snow-load begins to accumulate, inducing a positive pressure change. (c) Late-winter (e.g., July–September): maximum snow-load present on the volcano. (d) Spring (e.g., September–November): snow-load begins to melt, with pressures decreasing in the subsurface. |
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jgrb57063-fig-0010-m.jpg
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[501.89 KB]
14 Dec 2024, 12:27
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Conceptual model of possible unloading-induced degassing process related to loading/unloading of a snow-load. (a) Pre-winter (e.g., January–May): minimal snow-load present on the volcano. (b) Early winter (e.g., June–July): snow-load begins to accumulate, inducing a positive pressure change. (c) Late-winter (e.g., July–September): maximum snow-load present on the volcano. (d) Spring (e.g., September–November): snow-load begins to melt, with pressures decreasing in the subsurface. |
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jgrb57063-fig-0010-m.jpg (icon-180)
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[13.11 KB]
14 Dec 2024, 12:27
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Conceptual model of possible unloading-induced degassing process related to loading/unloading of a snow-load. (a) Pre-winter (e.g., January–May): minimal snow-load present on the volcano. (b) Early winter (e.g., June–July): snow-load begins to accumulate, inducing a positive pressure change. (c) Late-winter (e.g., July–September): maximum snow-load present on the volcano. (d) Spring (e.g., September–November): snow-load begins to melt, with pressures decreasing in the subsurface. |
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jgrb57063-fig-0010-m
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