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Long-term changes in organic matter and mercury transport to lakes in the sporadic discontinuous permafrost zone related to peat subsidence - Limnology and Oceanography - Korosi, McDonald, Coleman, Palmer, Smol, Simpson, Blais


Metadata
File Identifier: {38F735F6-5515-44AD-8196-535026D0BE3D}
Metadata Language: en
Responsible Party:
Organisation Name: CIMP
Role: Point Of Contact
Contact Info:
E-Mail Address: donnamarie_ouellette@gov.nt.ca
Metadata Date: 2017-11-15
Metadata Standard Name: ISO 19139/19115 Metadata for Datasets
Metadata Standard Version: 2003
Data Identification
Abstract: Permafrost-supported peatlands near the southern limit of permafrost are experiencing dramatic landscape changes as a result of recent climate warming, which have the potential to impact aquatic ecosystems through changes in terrestrial run-off. Our objectives were to determine how terrestrial organic matter inputs to aquatic ecosystems in the southern Northwest Territories (Canada) changed as a result of peat subsidence, and whether terrestrial organic matter can be linked to sedimentary mercury. To accomplish this, we analyzed lipid biomarkers, lignin-derived phenols, and other geochemical proxies in sediment cores from two lakes (KAK-1 and TAH-7) affected by recent peat subsidence. Both lakes experienced substantial shifts in organic matter proxies through time, but the trajectory of change differed, reflecting local heterogeneity in hydrological setting and other environmental factors. In KAK-1, recent peat subsidence corresponded to a decrease in lignin-derived phenol yield, increased inferred lignin oxidation, and d15N depletion. In TAH-7, peat subsidence was likely initiated by a local forest fire, and resulted in an increase in the n-alkanol ratio C30/(C301C28) (consistent with a warmer, wetter climate), lignin-derived phenol yield (mainly syringyls), and d13C depletion. In TAH-7, total mercury inputs were positively correlated to terrestrial carbon inputs, suggesting allochthonous carbon is an important vector for mercury transport to the lake. In both lakes, an increase in the C23/(C231C29) n-alkane ratio was observed and suggests increased organic matter input from Sphagnum mosses. Our results demonstrate how terrestrial landscape changes occurring as a result of peat subsidence can influence carbon accumulation in aquatic ecosystems in discontinuous permafrost zones.
Language: en
Citation:
Contact Info:
Title: Long-term changes in organic matter and mercury transport to lakes in the sporadic discontinuous permafrost zone related to peat subsidence - Limnology and Oceanography - Korosi, McDonald, Coleman, Palmer, Smol, Simpson, Blais
Date:
Date: 2017-11-15
Date Type: Publication Date
Topic Category: Environment and Conservation
Keyword Collection:
Keyword: Limnology
Keyword: oceanography
Keyword: permafrost
Keyword: mercury
Keyword: Great slave lake
Keyword: taiga plains
Spatial Extent:
West Bounding Longitude: -121.5051
East Bounding Longitude: -117.721
North Bounding Latitude: 61.3513
South Bounding Latitude: 59.5357
Distribution
Transfer Options:
URL: https://nwtdiscoveryportal.enr.gov.nt.ca/geoportaldocuments/Korosi%20et%20al%202015%20L%26O.pdf
Distributor:
Distributor Contact:
Organisation Name: Cumulative Impact Monitoring Program (CIMP)
Role: Point Of Contact
/geoportal/rest/document?f=html&id=%7BD10610A1-FF6B-4380-9AC1-5A273944FDC5%7D
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