Abstract
"Rock moisture" (exchangeable water stored in weathered bedrock beneath the soil) is a key and yet overlooked component in hydrologic cycles. It can be partitioned to free water and capillary-bound water. Determining dynamic partitioning of rock moisture is crucial for conceptualizing critical zone functions and climate and hydrologic modeling. However, the quantification of rock moisture partitioning is challenging, especially in rocks with complex pore structures and weathering patterns. Laboratory nuclear magnetic resonance (NMR) measurements are performed on heterogeneous bedrock samples from a merokarst vadose zone to quantify the dynamics of rock moisture partitioning during the drying process. By fitting a multi-Gaussian function, NMR T-2 distributions are autodecomposed into multiple T-2 peaks representing different pore sizes and environments. This spectral analysis enables us to track the change of position, width, and area of peaks at any given saturation stage, shedding light on water depletion rates and patterns, water residence time, and partitioning and redistribution of the water in drying rocks. The changes in T-2 peaks associated with drying among our samples show strong correspondence with mineralogy, and T-2 -T-2 measurements indicate that rock moisture depletion and redistribution are closely related to the pore structures. Limestone with wellconnected macropores shows a sequential water loss from large to small pores, whereas limestone with poorly connected macropores simultaneously loses water from all pore sizes. The T-2 peak decomposition analysis can be extended to the field scale to track rock moisture partitioning in the pore network. This capability has implications for documenting critical zone processes. including quantifying water storage dynamics, estimating plant available water, and monitoring weathering processes.
Original language | English |
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Article number | WB131 |
Number of pages | 17 |
Journal | Geophysics |
Volume | 86 |
Issue number | 5 |
DOIs | |
Publication status | Published - 2021 |
Austrian Fields of Science 2012
- 105906 Environmental geosciences
Keywords
- PORE-SIZE DISTRIBUTIONS
- NMR RELAXATION
- DISSOLUTION KINETICS
- CARBONATE ROCKS
- SOIL-MOISTURE
- KONZA PRAIRIE
- TIME
- DOLOMITE
- EXCHANGE
- H-1-NMR