Insights into tension‐mediated and antecedent water effects on soil water isotopic composition

IF 2.5 3区 地球科学 Q3 ENVIRONMENTAL SCIENCES
Paulina Deseano Diaz, Thai Nong, Nicolas Brüggemann, Maren Dubbert, Mathieu Javaux, Natalie Orlowski, Harry Vereecken, Youri Rothfuss
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Abstract

Abstract Using isotopic spike experiments, we investigated the existence and magnitude of soil‐mediated isotopic effects and of the interaction between isotopically distinct soil water pools, both associated in isotopic mismatches between water extracted from soil and soil water taken up by the roots. For this, we applied and compared four established techniques commonly used for the extraction of water (vapor) from soil, three of them relying on destructive soil sampling (cryogenic vacuum distillation, centrifugation, and direct water vapor equilibration), and one being a nondestructive in situ online technique. We observed an almost complete mixing of sequentially added, isotopically distinct water samples to a pure quartz sand (memory effect). The isotopic composition of water held at high soil tension in the pure quartz sand (pF = 2) as well as in a sandy soil (pF = 1.8 and 3) deviated considerably from that of the added water (tension effect). However, we could attribute this deviation not exclusively to a soil‐mediated effect but also to methodological shortcomings during our experiments. Finally, we found the following decreasing trend in precision as well as in accuracy of the used water extraction methods: in situ online > centrifugation > direct water vapor equilibration > cryogenic vacuum distillation. The investigation of isotopic fractionation of soil water due to physicochemical processes in soil can be facilitated if the experimental techniques used do not involve isotopic fractionation. In addition, methodological uncertainties and inaccuracies can be minimized by method standardization, increasing the potential of water stable isotopic monitoring in ecohydrological studies.
对土壤水同位素组成的张力介导和先前水效应的见解
摘要利用同位素尖刺实验,我们研究了土壤介导的同位素效应的存在和程度,以及同位素不同的土壤水池之间的相互作用,这两者都与土壤中提取的水和根系吸收的土壤水的同位素不匹配有关。为此,我们应用并比较了四种常用的从土壤中提取水(蒸汽)的现有技术,其中三种依赖于破坏性土壤取样(低温真空蒸馏、离心和直接水蒸气平衡),另一种是无损原位在线技术。我们观察到顺序添加的同位素不同的水样几乎完全混合到纯石英砂中(记忆效应)。在高土壤张力条件下,纯石英砂(pF = 2)和砂质土(pF = 1.8和3)中保持的水的同位素组成与添加水(张力效应)的同位素组成有很大的偏离。然而,我们可以将这种偏差不完全归因于土壤介导效应,也归因于我们实验中方法上的缺陷。最后,我们发现常用的水提取方法的精密度和准确度都呈下降趋势:原位在线>离心祝辞直接水蒸气平衡;低温真空蒸馏。如果所使用的实验技术不涉及同位素分馏,则可以方便地对土壤中物理化学过程引起的土壤水的同位素分馏进行研究。此外,方法的不确定性和不准确性可以通过方法标准化最小化,增加水稳定同位素监测在生态水文研究中的潜力。
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来源期刊
Vadose Zone Journal
Vadose Zone Journal 环境科学-环境科学
CiteScore
5.60
自引率
7.10%
发文量
61
审稿时长
3.8 months
期刊介绍: Vadose Zone Journal is a unique publication outlet for interdisciplinary research and assessment of the vadose zone, the portion of the Critical Zone that comprises the Earth’s critical living surface down to groundwater. It is a peer-reviewed, international journal publishing reviews, original research, and special sections across a wide range of disciplines. Vadose Zone Journal reports fundamental and applied research from disciplinary and multidisciplinary investigations, including assessment and policy analyses, of the mostly unsaturated zone between the soil surface and the groundwater table. The goal is to disseminate information to facilitate science-based decision-making and sustainable management of the vadose zone. Examples of topic areas suitable for VZJ are variably saturated fluid flow, heat and solute transport in granular and fractured media, flow processes in the capillary fringe at or near the water table, water table management, regional and global climate change impacts on the vadose zone, carbon sequestration, design and performance of waste disposal facilities, long-term stewardship of contaminated sites in the vadose zone, biogeochemical transformation processes, microbial processes in shallow and deep formations, bioremediation, and the fate and transport of radionuclides, inorganic and organic chemicals, colloids, viruses, and microorganisms. Articles in VZJ also address yet-to-be-resolved issues, such as how to quantify heterogeneity of subsurface processes and properties, and how to couple physical, chemical, and biological processes across a range of spatial scales from the molecular to the global.
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