Terrestrial loads of dissolved organic matter drive inter-annual carbon flux in subtropical lakes during times of drought

Chiu, Chih-Yu; Jones, John R.; Rusak, James A.; Lin, Hao-Chi; Nakayama, Keisuke; Kratz, Timothy K.; Liu, Wen-Cheng; Tang, Sen-Lin; Tsai, Jeng-Wei

https://hdl.handle.net/20.500.14094/90007023

このアイテムのアクセス数:65件（2025-05-11 12:31 集計）

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メタデータID	90007023
アクセス権	open access
出版タイプ	Version of Record
タイトル	Terrestrial loads of dissolved organic matter drive inter-annual carbon flux in subtropical lakes during times of drought
著者	Chiu, Chih-Yu ; Jones, John R. ; Rusak, James A. ; Lin, Hao-Chi ; Nakayama, Keisuke ; Kratz, Timothy K. ; Liu, Wen-Cheng ; Tang, Sen-Lin ; Tsai, Jeng-Wei
著者名 Chiu, Chih-Yu
著者名 Jones, John R.
著者名 Rusak, James A.
著者名 Lin, Hao-Chi
著者ID A0044 研究者ID 1000060271649 KUID https://kuid-rm-web.ofc.kobe-u.ac.jp/search/detail?systemId=c5a2042377aa64d0520e17560c007669 著者名 Nakayama, Keisuke 中山, 恵介ナカヤマ, ケイスケ所属機関名工学研究科
著者名 Kratz, Timothy K.
著者名 Liu, Wen-Cheng
著者名 Tang, Sen-Lin
著者名 Tsai, Jeng-Wei
言語	English (英語)
収録物名	Science of the Total Environment
巻(号)	717
ページ	137052-137052
出版者	Elsevier B.V.
刊行日	2020-05-15
公開日	2020-04-15
抄録	Lentic ecosystems are important agents of local and global carbon cycling, but their contribution varies along gradients of dissolved organic matter (DOM) and productivity. We investigated how contrasting summer and autumn precipitation can shape annual and inter-annual variation in ecosystem carbon (C) flux (gross primary production (GPP), ecosystem respiration (ER), and CO2 efflux) in two subtropical lakes differing substantially in trophic state and water color. Instrumented buoys recorded time series of free-water DO, terrestrial DOM (tDOM), chlorophyll a, water temperature profiles, and meteorological measurements over five years (2009-2011 and 2014-2015). Reduced precipitation caused immediate and prolonged effects on C flux in both lakes. During the drought year (2014) GPP and ER declined by 60 to 80% and both lakes were either CO2 sinks or neutral. In the subsequent wet year (2015), GPP and ER increased by 40 to 110%, and both lakes shifted to strong net CO2 emitters. Higher ecosystem R resulted from larger GPP while higher tDOM contributed to a dramatic increase in dissolved inorganic carbon, which intensified CO2 emission in both lakes. C flux was more responsive in the clear mesotrophic lake, declining by approximately 40% in the cumulative GPP and ER, and increasing by >400% in CO2 efflux whereas changes in the oligotrophic colored lake were more modest (approximately 30% and 300% for metabolic declines and efflux increases, respectively). Temporal variation and magnitude of C flux were governed by tDOM-mediated changes in epilimnetic nutrient levels and hypolimnetic light availability. This study demonstrated terrestrial loads of DOM strongly influence the inter-annual response and sensitivity of ecosystem C flux to variation in inter-annual precipitation. Our findings have important implications for predicting the trend, magnitude, duration, and sensitivity of the response of C flux in subtropical lakes/reservoirs to future changes in precipitation patterns under altered climatic conditions.
キーワード	Terrestrial DOM
	Carbon flux
	Rainy season
	Subtropical lake
	Trophic status
カテゴリ	工学研究科
カテゴリ	学術雑誌論文
権利	© 2020 The Authors. Published by Elsevier B.V.
権利	This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/BY-NC-ND/4.0/).
関連情報	DOI https://doi.org/10.1016/j.scitotenv.2020.137052

資源タイプ	journal article
ISSN	0048-9697　OPACで所蔵を検索　 CiNiiで学外所蔵を検索
eISSN	1879-1026　OPACで所蔵を検索　 CiNiiで学外所蔵を検索

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