Response of aquatic ammonia-oxidizing archaea to thermal stratification and nutrient levels since the Last Glacial Maximum in the deep Lake Fuxian, southwestern China
Response of aquatic ammonia-oxidizing archaea to thermal stratification and nutrient levels since the Last Glacial Maximum in the deep Lake Fuxian, southwestern China
Ammonia-oxidizing archaea (AOA) are the critical nitrifier in lake ecosystems and participate in the global nitrogen cycle. However, the response of aquatic AOA to long-term climate change remains unclear. Here, we obtained a continuous sediment record from a deep, oligotrophic lake (Lake Fuxian, China) and reconstructed changes in AOA productivity over the past 26 thousand years (cal ka BP) using a multi-proxy approach. AOA productivity (estimated using diagnostic archaeal lipids) was low during the Last Glacial Maximum (LGM) before peaking during the cold-dry Heinrich event 1 (H1, 17.7 – 15.9 cal ka BP). As the Indian Summer Monsoon (ISM) intensified and the climate became warmer and wetter, aquatic AOA productivity progressively declined. We show that a combination of factors modulates millennial-scale AOA productivity. In particular, low lake levels under cold-dry climate conditions strengthen lake mixing and nutrient upwelling, promoting AOA productivity; in contrast, high lake levels during warm-humid climate conditions weaken upwelling, resulting in reduced AOA blooms. Changes in terrestrial nutrient availability also exert a secondary control on aquatic primary production and by extension, AOA productivity. We also show that anthropogenic human activities can potentially alter AOA productivity levels due to climate and land-use change.
Ammonia-oxidizing archaea, Nutrient, Paleoecology, Paleolimnology, Productivity, Thermal stratification
Zheng, Pingbo
fe943e2f-e09d-466c-95e0-4f039a6720a6
Yang, Huan
4f1a9440-bb30-430b-b594-c30aee5021b5
Inglis, Gordon
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Shen, Caiming
2952f59e-be57-4504-8f11-85d2c03e8dbc
Zhang, Hucai
f1a83cb4-baf7-40cf-8148-14ece2511412
Sun, Huiling
c1cc1637-5ffb-46a7-bde6-acf9c1bf3ce9
1 August 2024
Zheng, Pingbo
fe943e2f-e09d-466c-95e0-4f039a6720a6
Yang, Huan
4f1a9440-bb30-430b-b594-c30aee5021b5
Inglis, Gordon
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Shen, Caiming
2952f59e-be57-4504-8f11-85d2c03e8dbc
Zhang, Hucai
f1a83cb4-baf7-40cf-8148-14ece2511412
Sun, Huiling
c1cc1637-5ffb-46a7-bde6-acf9c1bf3ce9
Zheng, Pingbo, Yang, Huan, Inglis, Gordon, Shen, Caiming, Zhang, Hucai and Sun, Huiling
(2024)
Response of aquatic ammonia-oxidizing archaea to thermal stratification and nutrient levels since the Last Glacial Maximum in the deep Lake Fuxian, southwestern China.
Quaternary Science Reviews, 337, [108789].
(doi:10.1016/j.quascirev.2024.108789).
Abstract
Ammonia-oxidizing archaea (AOA) are the critical nitrifier in lake ecosystems and participate in the global nitrogen cycle. However, the response of aquatic AOA to long-term climate change remains unclear. Here, we obtained a continuous sediment record from a deep, oligotrophic lake (Lake Fuxian, China) and reconstructed changes in AOA productivity over the past 26 thousand years (cal ka BP) using a multi-proxy approach. AOA productivity (estimated using diagnostic archaeal lipids) was low during the Last Glacial Maximum (LGM) before peaking during the cold-dry Heinrich event 1 (H1, 17.7 – 15.9 cal ka BP). As the Indian Summer Monsoon (ISM) intensified and the climate became warmer and wetter, aquatic AOA productivity progressively declined. We show that a combination of factors modulates millennial-scale AOA productivity. In particular, low lake levels under cold-dry climate conditions strengthen lake mixing and nutrient upwelling, promoting AOA productivity; in contrast, high lake levels during warm-humid climate conditions weaken upwelling, resulting in reduced AOA blooms. Changes in terrestrial nutrient availability also exert a secondary control on aquatic primary production and by extension, AOA productivity. We also show that anthropogenic human activities can potentially alter AOA productivity levels due to climate and land-use change.
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Accepted/In Press date: 18 June 2024
e-pub ahead of print date: 29 June 2024
Published date: 1 August 2024
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© 2024 Elsevier Ltd
Keywords:
Ammonia-oxidizing archaea, Nutrient, Paleoecology, Paleolimnology, Productivity, Thermal stratification
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Local EPrints ID: 491639
URI: http://eprints.soton.ac.uk/id/eprint/491639
ISSN: 0277-3791
PURE UUID: c39bfbe4-5e20-49ee-9211-1a4fd5c4cb80
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Date deposited: 03 Jul 2024 09:23
Last modified: 16 Jul 2024 01:58
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Contributors
Author:
Pingbo Zheng
Author:
Huan Yang
Author:
Caiming Shen
Author:
Hucai Zhang
Author:
Huiling Sun
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