Samer Elshehawi, A. E. Vilches, O. Aleksans, M. Pakalne, L. Wołejko, P. Schot, A. Grootjans
{"title":"Natural isotopes support groundwater origin as a driver of mire type and biodiversity in Slitere National Park, Latvia","authors":"Samer Elshehawi, A. E. Vilches, O. Aleksans, M. Pakalne, L. Wołejko, P. Schot, A. Grootjans","doi":"10.19189/MAP.2019.SNPG.394","DOIUrl":null,"url":null,"abstract":"Slitere National Park in Latvia is home to rich fens with many endangered and threatened plant species. This study aims to address how the hydrological systems affect vegetation biodiversity (cf. Wolejko et al. 2019) in the mire systems of the National Park: the base-rich inter-dune mires and extremely base-rich calcareous fens. Groundwater samples from these areas were collected for measurements of ion composition and natural isotopes of C, H and O. Also, we simulated groundwater flow paths from the highest local topographical point (a nearby sandy plateau) to the sea, and calculated the residence times of these groundwater flows. The results show that the inter-dune mires are supplied by a mixture of local and regional groundwater systems. The groundwater supply at one of the inter-dune mires was dominated by local groundwater flow from adjacent dunes, but we also detected a small input of calcareous water. This dominance of local groundwater may have resulted from the presence of drainage ditches and a small stream that drains into the Baltic Sea. In contrast, the extremely base-rich fens were found to be solely dependent on regional groundwater which is likely to discharge at the plateau foothills due to the presence of fault structures. Thus, the mires in Slitere National Park are not as undisturbed as was previously believed. Drainage may have affected the original hydrological flow paths. Further research on the extent of these changes is recommended to preserve the endangered species and high biodiversity of these fens. Also, in order to trace the origin of groundwater flows, further investigation into the larger landscape beyond the plateau might be required.","PeriodicalId":48721,"journal":{"name":"Mires and Peat","volume":"26 1","pages":"01"},"PeriodicalIF":1.5000,"publicationDate":"2020-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Mires and Peat","FirstCategoryId":"93","ListUrlMain":"https://doi.org/10.19189/MAP.2019.SNPG.394","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}
引用次数: 1
Abstract
Slitere National Park in Latvia is home to rich fens with many endangered and threatened plant species. This study aims to address how the hydrological systems affect vegetation biodiversity (cf. Wolejko et al. 2019) in the mire systems of the National Park: the base-rich inter-dune mires and extremely base-rich calcareous fens. Groundwater samples from these areas were collected for measurements of ion composition and natural isotopes of C, H and O. Also, we simulated groundwater flow paths from the highest local topographical point (a nearby sandy plateau) to the sea, and calculated the residence times of these groundwater flows. The results show that the inter-dune mires are supplied by a mixture of local and regional groundwater systems. The groundwater supply at one of the inter-dune mires was dominated by local groundwater flow from adjacent dunes, but we also detected a small input of calcareous water. This dominance of local groundwater may have resulted from the presence of drainage ditches and a small stream that drains into the Baltic Sea. In contrast, the extremely base-rich fens were found to be solely dependent on regional groundwater which is likely to discharge at the plateau foothills due to the presence of fault structures. Thus, the mires in Slitere National Park are not as undisturbed as was previously believed. Drainage may have affected the original hydrological flow paths. Further research on the extent of these changes is recommended to preserve the endangered species and high biodiversity of these fens. Also, in order to trace the origin of groundwater flows, further investigation into the larger landscape beyond the plateau might be required.
拉脱维亚的斯利特尔国家公园拥有丰富的沼泽,有许多濒危和受威胁的植物物种。本研究旨在解决水文系统如何影响国家公园沼泽系统中的植被生物多样性(cf. Wolejko et al. 2019):富含碱性的沙丘间沼泽和极其丰富的钙质沼泽。采集了这些地区的地下水样本,测量了这些地区的离子组成和C、H、o的天然同位素,并模拟了地下水从当地最高地形点(附近的沙质高原)到海洋的流动路径,计算了这些地下水流动的停留时间。结果表明,沙丘间水坑是由局部和区域地下水系统共同供给的。其中一个沙丘间矿坑的地下水供应主要来自邻近沙丘的当地地下水,但我们也发现了少量钙质水的输入。当地地下水占主导地位可能是由于存在排水沟和一条流入波罗的海的小溪。相比之下,发现极富碱性的沼泽完全依赖于区域地下水,由于断层结构的存在,地下水很可能在高原山麓排出。因此,斯利特尔国家公园的泥潭并不像以前认为的那样不受干扰。排水可能影响了原来的水文流动路径。建议进一步研究这些变化的程度,以保护这些濒危物种和这些沼泽的高度生物多样性。此外,为了追踪地下水流动的起源,可能需要对高原以外的更大景观进行进一步调查。
期刊介绍:
Mires and Peat is a peer-reviewed internet journal focusing specifically on mires, peatlands and peat. As a truly “free-to-users” publication (i.e. NO CHARGES to authors OR readers), it is immediately accessible to readers and potential authors worldwide. It is published jointly by the International Peatland Society (IPS) and the International Mire Conservation Group (IMCG).
Mires and Peat is indexed by Thomson Reuters Web of Science (2017 Impact Factors: 1.326 [two-year] and 1.638 [five-year]), Elsevier Scopus, EBSCO Environment Complete, CABI Abstracts, CSA Proquest (including their Aquatic Science and Fisheries Abstracts ASFA, Ecology, Entomology, Animal Behavior, Aqualine and Pollution databases) and Directory of Open Access Journals (DOAJ). Mires and Peat also participates in the CABI Full Text Repository, and subscribes to the Portico E-journal Preservation Service (LTPA).
Mires and Peat publishes high-quality research papers on all aspects of peatland science, technology and wise use, including:
ecology, hydrology, survey, inventory, classification, functions and values of mires and peatlands;
scientific, economic and human aspects of the management of peatlands for agriculture, forestry, nature conservation, environmental protection, peat extraction, industrial development and other purposes;
biological, physical and chemical characteristics of peat; and
climate change and peatlands.
Short communications and review articles on these and related topics will also be considered; and suggestions for special issues of the Journal based on the proceedings of conferences, seminars, symposia and workshops will be welcomed. The submission of material by authors and from countries whose work would otherwise be inaccessible to the international community is particularly encouraged.