Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes
Increasing global temperatures are causing widespread changes in the Arctic, including permafrost thawing and altered freshwater inputs and trace metal and carbon fluxes into the ocean and atmosphere. Changes in the permafrost active layer thickness can affect subsurface water flow-paths and water-r...
| Published in: | Geochimica et Cosmochimica Acta |
|---|---|
| Main Authors: | , , , , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Elsevier
2018
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| Subjects: | |
| Online Access: | https://eprints.bbk.ac.uk/id/eprint/26026/ https://eprints.bbk.ac.uk/id/eprint/26026/1/Revised_Lena%20River%20d7Li%20permafrost%20final.pdf https://doi.org/10.1016/j.gca.2018.10.024 |
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ftbirkbeckcoll:oai:eprints.bbk.ac.uk.oai2:26026 |
|---|---|
| record_format |
openpolar |
| institution |
Open Polar |
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BIROn - Birkbeck Institutional Research Online (Birkbeck University of London) |
| op_collection_id |
ftbirkbeckcoll |
| language |
English |
| topic |
Earth and Planetary Sciences |
| spellingShingle |
Earth and Planetary Sciences Murphy, M. Porcelli, D. Pogge von Strandmann, Philip A.E. Hirst, C. Kutscher, L. Katchinoff, J. Morth, C. Maximov, T. Andersson, P. Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| topic_facet |
Earth and Planetary Sciences |
| description |
Increasing global temperatures are causing widespread changes in the Arctic, including permafrost thawing and altered freshwater inputs and trace metal and carbon fluxes into the ocean and atmosphere. Changes in the permafrost active layer thickness can affect subsurface water flow-paths and water-rock interaction times, and hence weathering processes. Riverine lithium isotope ratios (reported as δ7Li) are tracers of silicate weathering that are unaffected by biological uptake, redox, carbonate weathering and primary lithology. Here we use Li isotopes to examine silicate weathering processes in one of the largest Russian Arctic rivers: the Lena River in eastern Siberia. The Lena River watershed is a large multi-lithological catchment, underlain by continuous permafrost. An extensive dataset of dissolved Li isotopic compositions of waters from the Lena River main channel, two main tributaries (the Aldan and Viliui Rivers) and a range of smaller sub-tributaries are presented from the post-spring flood/early-summer period at the onset of active layer development and enhanced water-rock interactions. The Lena River main channel (average δ7Lidiss ∼ 19‰) has a slightly lower isotopic composition than the mean global average of 23‰ (Huh et al., 1998a). The greatest range of [Li] and δ7Lidiss are observed in catchments draining the south-facing slopes of the Verkhoyansk Mountain Range. South-facing slopes in high-latitude, permafrost-dominated regions are typically characterised by increased summer insolation and higher daytime temperatures relative to other slope aspects. The increased solar radiation on south-facing catchments promotes repeated freeze-thaw cycles, and contributes to more rapid melting of snow cover, warmer soils, and increased active layer thaw depths. The greater variability in δ7Li and [Li] in the south-facing rivers likely reflect the greater infiltration of melt water and enhanced water-rock interactions within the active layer. A similar magnitude of isotopic fractionation is observed between the low-lying regions of the Central Siberian Plateau (and catchments draining into the Viliui River), and catchments draining the Verkhoyansk Mountain Range into the Aldan River. This is in contrast to global rivers in non-permafrost terrains that drain high elevations or areas of rapid uplift, where high degrees of physical erosion promote dissolution of freshly exposed primary rock typically yielding low δ7Lidiss, and low-lying regions exhibit high riverine δ7Li values resulting from greater water-rock interaction and formation of secondary mineral that fractionates Li isotopes. Overall, the range of Li concentrations and δ7Lidiss observed within the Lena River catchment are comparable to global rivers located in temperate and tropical regions. This suggests that cryogenic weathering features specific to permafrost regions (such as the continual exposure of fresh primary minerals due to seasonal freeze-thaw cycles, frost shattering and salt weathering), and climate (temperature and runoff), are not a dominant control on δ7Li variations. Despite vastly different climatic and weathering regimes, the same range of riverine δ7Li values globally suggests that the same processes govern Li geochemistry – that is, the balance between primary silicate mineral dissolution and the formation (or exchange with) secondary minerals. This has implications for the use of δ7Li as a palaeo-weathering tracer for interpreting changes in past weathering regimes. |
| format |
Article in Journal/Newspaper |
| author |
Murphy, M. Porcelli, D. Pogge von Strandmann, Philip A.E. Hirst, C. Kutscher, L. Katchinoff, J. Morth, C. Maximov, T. Andersson, P. |
| author_facet |
Murphy, M. Porcelli, D. Pogge von Strandmann, Philip A.E. Hirst, C. Kutscher, L. Katchinoff, J. Morth, C. Maximov, T. Andersson, P. |
| author_sort |
Murphy, M. |
| title |
Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| title_short |
Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| title_full |
Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| title_fullStr |
Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| title_full_unstemmed |
Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes |
| title_sort |
tracing silicate weathering processes in the permafrost-dominated lena river watershed using lithium isotopes |
| publisher |
Elsevier |
| publishDate |
2018 |
| url |
https://eprints.bbk.ac.uk/id/eprint/26026/ https://eprints.bbk.ac.uk/id/eprint/26026/1/Revised_Lena%20River%20d7Li%20permafrost%20final.pdf https://doi.org/10.1016/j.gca.2018.10.024 |
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ENVELOPE(129.546,129.546,63.447,63.447) ENVELOPE(133.400,133.400,67.544,67.544) |
| geographic |
Aldan Arctic Verkhoyansk |
| geographic_facet |
Aldan Arctic Verkhoyansk |
| genre |
Active layer thickness Arctic lena river permafrost Siberia |
| genre_facet |
Active layer thickness Arctic lena river permafrost Siberia |
| op_relation |
https://eprints.bbk.ac.uk/id/eprint/26026/1/Revised_Lena%20River%20d7Li%20permafrost%20final.pdf Murphy, M. and Porcelli, D. and Pogge von Strandmann, Philip A.E. and Hirst, C. and Kutscher, L. and Katchinoff, J. and Morth, C. and Maximov, T. and Andersson, P. (2018) Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes. Geochimica et Cosmochimica Acta 245 , pp. 154-171. ISSN 0016-7037. |
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cc_by_nc_nd_4 |
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CC-BY-NC-ND |
| op_doi |
https://doi.org/10.1016/j.gca.2018.10.024 |
| container_title |
Geochimica et Cosmochimica Acta |
| container_volume |
245 |
| container_start_page |
154 |
| op_container_end_page |
171 |
| _version_ |
1766338978545401856 |
| spelling |
ftbirkbeckcoll:oai:eprints.bbk.ac.uk.oai2:26026 2023-05-15T13:03:32+02:00 Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes Murphy, M. Porcelli, D. Pogge von Strandmann, Philip A.E. Hirst, C. Kutscher, L. Katchinoff, J. Morth, C. Maximov, T. Andersson, P. 2018-10-31 text https://eprints.bbk.ac.uk/id/eprint/26026/ https://eprints.bbk.ac.uk/id/eprint/26026/1/Revised_Lena%20River%20d7Li%20permafrost%20final.pdf https://doi.org/10.1016/j.gca.2018.10.024 en eng Elsevier https://eprints.bbk.ac.uk/id/eprint/26026/1/Revised_Lena%20River%20d7Li%20permafrost%20final.pdf Murphy, M. and Porcelli, D. and Pogge von Strandmann, Philip A.E. and Hirst, C. and Kutscher, L. and Katchinoff, J. and Morth, C. and Maximov, T. and Andersson, P. (2018) Tracing silicate weathering processes in the permafrost-dominated Lena River watershed using lithium isotopes. Geochimica et Cosmochimica Acta 245 , pp. 154-171. ISSN 0016-7037. cc_by_nc_nd_4 CC-BY-NC-ND Earth and Planetary Sciences Article PeerReviewed 2018 ftbirkbeckcoll https://doi.org/10.1016/j.gca.2018.10.024 2022-01-09T09:04:28Z Increasing global temperatures are causing widespread changes in the Arctic, including permafrost thawing and altered freshwater inputs and trace metal and carbon fluxes into the ocean and atmosphere. Changes in the permafrost active layer thickness can affect subsurface water flow-paths and water-rock interaction times, and hence weathering processes. Riverine lithium isotope ratios (reported as δ7Li) are tracers of silicate weathering that are unaffected by biological uptake, redox, carbonate weathering and primary lithology. Here we use Li isotopes to examine silicate weathering processes in one of the largest Russian Arctic rivers: the Lena River in eastern Siberia. The Lena River watershed is a large multi-lithological catchment, underlain by continuous permafrost. An extensive dataset of dissolved Li isotopic compositions of waters from the Lena River main channel, two main tributaries (the Aldan and Viliui Rivers) and a range of smaller sub-tributaries are presented from the post-spring flood/early-summer period at the onset of active layer development and enhanced water-rock interactions. The Lena River main channel (average δ7Lidiss ∼ 19‰) has a slightly lower isotopic composition than the mean global average of 23‰ (Huh et al., 1998a). The greatest range of [Li] and δ7Lidiss are observed in catchments draining the south-facing slopes of the Verkhoyansk Mountain Range. South-facing slopes in high-latitude, permafrost-dominated regions are typically characterised by increased summer insolation and higher daytime temperatures relative to other slope aspects. The increased solar radiation on south-facing catchments promotes repeated freeze-thaw cycles, and contributes to more rapid melting of snow cover, warmer soils, and increased active layer thaw depths. The greater variability in δ7Li and [Li] in the south-facing rivers likely reflect the greater infiltration of melt water and enhanced water-rock interactions within the active layer. A similar magnitude of isotopic fractionation is observed between the low-lying regions of the Central Siberian Plateau (and catchments draining into the Viliui River), and catchments draining the Verkhoyansk Mountain Range into the Aldan River. This is in contrast to global rivers in non-permafrost terrains that drain high elevations or areas of rapid uplift, where high degrees of physical erosion promote dissolution of freshly exposed primary rock typically yielding low δ7Lidiss, and low-lying regions exhibit high riverine δ7Li values resulting from greater water-rock interaction and formation of secondary mineral that fractionates Li isotopes. Overall, the range of Li concentrations and δ7Lidiss observed within the Lena River catchment are comparable to global rivers located in temperate and tropical regions. This suggests that cryogenic weathering features specific to permafrost regions (such as the continual exposure of fresh primary minerals due to seasonal freeze-thaw cycles, frost shattering and salt weathering), and climate (temperature and runoff), are not a dominant control on δ7Li variations. Despite vastly different climatic and weathering regimes, the same range of riverine δ7Li values globally suggests that the same processes govern Li geochemistry – that is, the balance between primary silicate mineral dissolution and the formation (or exchange with) secondary minerals. This has implications for the use of δ7Li as a palaeo-weathering tracer for interpreting changes in past weathering regimes. Article in Journal/Newspaper Active layer thickness Arctic lena river permafrost Siberia BIROn - Birkbeck Institutional Research Online (Birkbeck University of London) Aldan ENVELOPE(129.546,129.546,63.447,63.447) Arctic Verkhoyansk ENVELOPE(133.400,133.400,67.544,67.544) Geochimica et Cosmochimica Acta 245 154 171 |