气候变化领域集成服务门户(CCPortal): Numerical modelling of permafrost spring discharge and open-system pingo formation induced by basal permafrost aggradation

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DOI	10.5194/tc-14-4627-2020
	Numerical modelling of permafrost spring discharge and open-system pingo formation induced by basal permafrost aggradation
	Hornum M.T.; Hodson A.J.; Jessen S.; Bense V.; Senger K.
发表日期	2020
ISSN	19940416
起始页码	4627
结束页码	4651
卷号	14 期号:12
英文摘要	In the high Arctic valley of Adventdalen, Svalbard, sub-permafrost groundwater feeds several pingo springs distributed along the valley axis. The driving mechanism for groundwater discharge and associated pingo formation is enigmatic because wet-based glaciers are not present in the adjacent highlands and the presence of continuous permafrost seems to preclude recharge of the sub-permafrost groundwater system by either a subglacial source or a precipitation surplus. Since the pingo springs enable methane that has accumulated underneath the permafrost to escape directly to the atmosphere, our limited understanding of the groundwater system brings significant uncertainty to predictions of how methane emissions will respond to changing climate. We address this problem with a new conceptual model for open-system pingo formation wherein pingo growth is sustained by sub-permafrost pressure effects, as related to the expansion of water upon freezing, during millennial-scale basal permafrost aggradation. We test the viability of this mechanism for generating groundwater flow with decoupled heat (one-dimensional transient) and groundwater (three-dimensional steady state) transport modelling experiments. Our results suggest that the conceptual model represents a feasible mechanism for the formation of open-system pingos in lower Adventdalen and elsewhere. We also explore the potential for additional pressurisation and find that methane production and methane clathrate formation and dissolution deserve particular attention on account of their likely effects upon the hydraulic pressure. Our model simulations also suggest that the generally low-permeability hydrogeological units cause groundwater residence times to exceed the duration of the Holocene. The likelihood of such pre-Holocene groundwater ages is supported by the geochemistry of the pingo springs which demonstrates an unexpected seaward freshening of groundwater potentially caused by a palaeo-subglacial meltwater "wedge"from the Weichselian. Whereas permafrost thickness (and age) progressively increases inland, accordingly, the sub-permafrost meltwater wedge thins, and less unfrozen freshwater is available for mixing. Our observations imply that millennial-scale permafrost aggradation deserves more attention as a possible driver of sustained flow of sub-permafrost groundwater and methane to the surface because, although the hydrological system in Adventdalen at first appears unusual, it is likely that similar systems have developed in other uplifted valleys throughout the Arctic. © 2020 Author(s).
英文关键词	aggradation; clathrate; geochemistry; groundwater flow; meltwater; methane; numerical model; permafrost; spring (hydrology); Adventdalen; Arctic; Spitsbergen; Svalbard; Svalbard; Svalbard and Jan Mayen
语种	英语
来源期刊	Cryosphere
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/202106
作者单位	Department of Arctic Geology, The University Centre in Svalbard (UNIS), Longyearbyen, 9171, Norway; Department of Geosciences and Natural Resource Management, University of Copenhagen, Copenhagen K, 1350, Denmark; Center for Permafrost, University of Copenhagen, Copenhagen K, 1350, Denmark; Department of Environmental Sciences, Western Norway University of Applied Sciences, Sogndal, 6856, Norway; Department of Environmental Sciences, Wageningen University, Wageningen, 6708PB, Netherlands
推荐引用方式 GB/T 7714	Hornum M.T.,Hodson A.J.,Jessen S.,et al. Numerical modelling of permafrost spring discharge and open-system pingo formation induced by basal permafrost aggradation[J],2020,14(12).
APA	Hornum M.T.,Hodson A.J.,Jessen S.,Bense V.,&Senger K..(2020).Numerical modelling of permafrost spring discharge and open-system pingo formation induced by basal permafrost aggradation.Cryosphere,14(12).
MLA	Hornum M.T.,et al."Numerical modelling of permafrost spring discharge and open-system pingo formation induced by basal permafrost aggradation".Cryosphere 14.12(2020).