Thoma Michael, Frentress Jay, Tagliavini Massimo, Scandellari Francesca
a Faculty of Science and Technology , Free University of Bozen-Bolzano, Bozen , Italy.
Isotopes Environ Health Stud. 2018 Aug;54(4):403-417. doi: 10.1080/10256016.2018.1437034. Epub 2018 Feb 15.
We used pore water samplers (PWS) to sample for isotope analysis (1) only water, (2) soil under laboratory conditions, and (3) soil in the field comparing the results with cryogenic extraction (CE). In (1) and (2), no significant differences between source and water extracted with PWS were detected with a mean absolute difference (MAD) always lower than 2 ‰ for δH and 1 ‰ for δO. In (2), CE water was more enriched than PWS-extracted water, with a MAD respect to source water of roughly 8 ‰ for δH and 4 ‰ for δO. In (3), PWS water was enriched relative to CE water by 3 ‰ for δH and 0.9 ‰ for δO. The latter result may be due to the distinct water portions sampled by the two methods. Large pores, easily sampled by PWS, likely retain recent, and enriched, summer precipitation while small pores, only sampled by CE, possibly retain isotopically depleted water from previous winter precipitation or irrigation inputs. Accuracy and precision were greater for PWS relative to CE. PWS is therefore suggested as viable tool to extract soil water for stable isotope analysis, particularly for soils used in this study (sandy and silty loams).
我们使用孔隙水采样器(PWS)进行采样以进行同位素分析,采样对象包括:(1)仅水;(2)实验室条件下的土壤;(3)田间土壤,并将结果与低温萃取法(CE)进行比较。在(1)和(2)中,未检测到源水与用PWS提取的水之间存在显著差异,δH的平均绝对差值(MAD)始终低于2‰,δO的平均绝对差值低于1‰。在(2)中,CE水比PWS提取的水更富集,相对于源水,δH的MAD约为8‰,δO的MAD约为4‰。在(3)中,PWS水相对于CE水,δH富集3‰,δO富集0.9‰。后一结果可能是由于两种方法采样的水部分不同。PWS容易采样的大孔隙可能保留了近期的、富集的夏季降水,而仅由CE采样的小孔隙可能保留了来自前一个冬季降水或灌溉输入的同位素贫化水。相对于CE,PWS的准确性和精密度更高。因此,建议使用PWS作为提取土壤水进行稳定同位素分析的可行工具,特别是对于本研究中使用的土壤(砂壤土和粉质壤土)。
