SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4365516793> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W4365516793 abstract "Boreal peatlands are considered sinks for atmospheric mercury (Hg) and are important sources of methylmercury (MeHg) to downstream ecosystems. Climate change-driven increases in average annual temperature in coming decades will be amplified at higher latitudes and will modify many biogeochemical processes in high boreal and subarctic peatlands that are important landscape features in these regions. Changes in water quality are an important issue for Northern ecosystems and fish consumers, and the directionality of changes in mercury levels due to climate warming presents considerable uncertainty. Peatlands are key landscape hotspots for MeHg production, however, the impact of climate warming on Hg cycling in boreal peatlands is not well studied. We use a multi-year field-based warming experiment (2 years passive, 1 year active ground warming) across two boreal peatland types (moss and sedge dominated) to explore the effects of ground warming on inorganic Hg (IHg) release, net MeHg production, and biogeochemical controls on both of these processes including the availability of sulfate (SO 4 2− ) and dissolved organic matter (DOM) quality and concentration. There were higher porewater IHg and MeHg concentrations under active ground warming conditions in both peatlands, likely related to both increased microbial metabolism, and changes in biogeochemical conditions that favor Hg methylation. Both SO 4 2− (electron acceptor) and bioaccessible DOM (electron donor) are nutrients for sulfate-reducing bacteria which are dominant Hg methylators in freshwater environments, and increases in SO 4 2− and/or bioaccessible DOM concentrations under warming played an important role in the observed changes in net MeHg production. Warming increased SO 4 2− concentrations in the sedge-dominated but not in the moss-dominated fen likely because of a larger pool of groundwater derived SO 4 2− in the sedge-dominated site. Warming increased DOM concentration in both peatland sites through enhanced decomposition of peat and increased release of root exudates from vascular plants, and the balance of these processes varied by peatland type and degree of warming. Experimentally increased ground temperatures increased microbial metabolism, organic matter turnover, and the availability of IHg all of which resulted in increases in porewater MeHg, indicating that climate-driven ground warming will increase MeHg production in northern peatlands in the future." @default.
W4365516793 created "2023-04-15" @default.
W4365516793 creator A5034034951 @default.
W4365516793 creator A5060422683 @default.
W4365516793 creator A5076593996 @default.
W4365516793 date "2023-04-14" @default.
W4365516793 modified "2023-09-26" @default.
W4365516793 title "Ground warming releases inorganic mercury and increases net methylmercury production in two boreal peatland types" @default.
W4365516793 cites W1585484287 @default.
W4365516793 cites W1670370105 @default.
W4365516793 cites W1807802713 @default.
W4365516793 cites W1844339509 @default.
W4365516793 cites W1965054150 @default.
W4365516793 cites W1970801056 @default.
W4365516793 cites W1992079661 @default.
W4365516793 cites W1992163774 @default.
W4365516793 cites W2002575476 @default.
W4365516793 cites W2004144746 @default.
W4365516793 cites W2005567399 @default.
W4365516793 cites W2009225674 @default.
W4365516793 cites W2017967452 @default.
W4365516793 cites W2018727681 @default.
W4365516793 cites W2022283619 @default.
W4365516793 cites W2026166957 @default.
W4365516793 cites W2026400688 @default.
W4365516793 cites W2037237998 @default.
W4365516793 cites W2040330912 @default.
W4365516793 cites W2046957231 @default.
W4365516793 cites W2048849454 @default.
W4365516793 cites W2071858655 @default.
W4365516793 cites W2075096919 @default.
W4365516793 cites W2075734548 @default.
W4365516793 cites W2080491461 @default.
W4365516793 cites W2081566726 @default.
W4365516793 cites W2096904209 @default.
W4365516793 cites W2099149608 @default.
W4365516793 cites W2109920192 @default.
W4365516793 cites W2117602099 @default.
W4365516793 cites W2118891570 @default.
W4365516793 cites W2130608530 @default.
W4365516793 cites W2165068952 @default.
W4365516793 cites W2165258753 @default.
W4365516793 cites W2165751990 @default.
W4365516793 cites W2166608740 @default.
W4365516793 cites W2321866408 @default.
W4365516793 cites W2323128186 @default.
W4365516793 cites W2344850143 @default.
W4365516793 cites W2346641494 @default.
W4365516793 cites W2593255432 @default.
W4365516793 cites W2594149070 @default.
W4365516793 cites W2761248330 @default.
W4365516793 cites W2794893962 @default.
W4365516793 cites W2906162581 @default.
W4365516793 cites W2990939743 @default.
W4365516793 cites W3001350845 @default.
W4365516793 cites W3001998153 @default.
W4365516793 cites W3015799679 @default.
W4365516793 cites W3022454814 @default.
W4365516793 cites W3028464620 @default.
W4365516793 cites W3033715355 @default.
W4365516793 cites W3085159238 @default.
W4365516793 cites W3095303556 @default.
W4365516793 cites W3206967124 @default.
W4365516793 cites W4243039599 @default.
W4365516793 cites W647743169 @default.
W4365516793 doi "https://doi.org/10.3389/fenvs.2023.1100443" @default.
W4365516793 hasPublicationYear "2023" @default.
W4365516793 type Work @default.
W4365516793 citedByCount "0" @default.
W4365516793 crossrefType "journal-article" @default.
W4365516793 hasAuthorship W4365516793A5034034951 @default.
W4365516793 hasAuthorship W4365516793A5060422683 @default.
W4365516793 hasAuthorship W4365516793A5076593996 @default.
W4365516793 hasBestOaLocation W43655167931 @default.
W4365516793 hasConcept C100537666 @default.
W4365516793 hasConcept C107872376 @default.
W4365516793 hasConcept C110872660 @default.
W4365516793 hasConcept C185592680 @default.
W4365516793 hasConcept C18903297 @default.
W4365516793 hasConcept C199360897 @default.
W4365516793 hasConcept C2777777548 @default.
W4365516793 hasConcept C2780373914 @default.
W4365516793 hasConcept C39432304 @default.
W4365516793 hasConcept C41008148 @default.
W4365516793 hasConcept C53657456 @default.
W4365516793 hasConcept C71572567 @default.
W4365516793 hasConcept C71915725 @default.
W4365516793 hasConcept C81447805 @default.
W4365516793 hasConcept C86803240 @default.
W4365516793 hasConceptScore W4365516793C100537666 @default.
W4365516793 hasConceptScore W4365516793C107872376 @default.
W4365516793 hasConceptScore W4365516793C110872660 @default.
W4365516793 hasConceptScore W4365516793C185592680 @default.
W4365516793 hasConceptScore W4365516793C18903297 @default.
W4365516793 hasConceptScore W4365516793C199360897 @default.
W4365516793 hasConceptScore W4365516793C2777777548 @default.
W4365516793 hasConceptScore W4365516793C2780373914 @default.
W4365516793 hasConceptScore W4365516793C39432304 @default.
W4365516793 hasConceptScore W4365516793C41008148 @default.
W4365516793 hasConceptScore W4365516793C53657456 @default.