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Intermittent rivers and ephemeral streams (IRES) may represent over half the global stream network, but their contribution to respiration and carbon dioxide (CO2) emissions is largely undetermined. In particular, little is known about the variability and drivers of respiration in IRES sediments upon rewetting, which could result in large pulses of CO2. We present a global study examining sediments from 200 dry IRES reaches spanning multiple biomes. Results from standardized assays show that mean respiration increased 32-fold to 66-fold upon sediment rewetting. Structural equation modeling indicates that this response was driven by sediment texture and organic matter quantity and quality, which, in turn, were influenced by climate, land use, and riparian plant cover. Our estimates suggest that respiration pulses resulting from rewetting of IRES sediments could contribute significantly to annual CO2 emissions from the global stream network, with a single respiration pulse potentially increasing emission by 0.2–0.7%. As the spatial and temporal extent of IRES increases globally, our results highlight the importance of recognizing the influence of wetting-drying cycles on respiration and CO2 emissions in stream networks.

Sediment Respiration Pulses in Intermittent Rivers and Ephemeral Streams

von Schiller D.;Datry T.;Corti R.;Foulquier A.;Tockner K.;Marce R.;Garcia-Baquero G.;Odriozola I.;Obrador B.;Elosegi A.;Mendoza-Lera C.;Gessner M. O.;Stubbington R.;Albarino R.;Allen D. C.;Altermatt F.;Arce M. I.;Arnon S.;Banas D.;Banegas-Medina A.;Beller E.;Blanchette M. L.;Blanco-Libreros J. F.;Blessing J.;Boechat I. G.;Boersma K. S.;Bogan M. T.;Bonada N.;Bond N. R.;Brintrup K.;Bruder A.;Burrows R. M.;Cancellario T.;Carlson S. M.;Cauvy-Fraunie S.;Cid N.;Danger M.;de Freitas Terra B.;Dehedin A.;De Girolamo A. M.;del Campo R.;Diaz-Villanueva V.;Duerdoth C. P.;Dyer F.;Faye E.;Febria C.;Figueroa R.;Four B.;Gafny S.;Gomez R.;Gomez-Gener L.;Graca M. A. S.;Guareschi S.;Gucker B.;Hoppeler F.;Hwan J. L.;Kubheka S.;Laini A.;Langhans S. D.;Leigh C.;Little C. J.;Lorenz S.;Marshall J.;Martin E. J.;McIntosh A.;Meyer E. I.;Milisa M.;Mlambo M. C.;Moleon M.;Morais M.;Negus P.;Niyogi D.;Papatheodoulou A.;Pardo I.;Paril P.;Pesic V.;Piscart C.;Polasek M.;Rodriguez-Lozano P.;Rolls R. J.;Sanchez-Montoya M. M.;Savic A.;Shumilova O.;Steward A.;Taleb A.;Uzan A.;Vander Vorste R.;Waltham N.;Woelfle-Erskine C.;Zak D.;Zarfl C.;Zoppini A.

2019-01-01

Abstract

Intermittent rivers and ephemeral streams (IRES) may represent over half the global stream network, but their contribution to respiration and carbon dioxide (CO2) emissions is largely undetermined. In particular, little is known about the variability and drivers of respiration in IRES sediments upon rewetting, which could result in large pulses of CO2. We present a global study examining sediments from 200 dry IRES reaches spanning multiple biomes. Results from standardized assays show that mean respiration increased 32-fold to 66-fold upon sediment rewetting. Structural equation modeling indicates that this response was driven by sediment texture and organic matter quantity and quality, which, in turn, were influenced by climate, land use, and riparian plant cover. Our estimates suggest that respiration pulses resulting from rewetting of IRES sediments could contribute significantly to annual CO2 emissions from the global stream network, with a single respiration pulse potentially increasing emission by 0.2–0.7%. As the spatial and temporal extent of IRES increases globally, our results highlight the importance of recognizing the influence of wetting-drying cycles on respiration and CO2 emissions in stream networks.

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno
	
			2019
		
	Titolo rivista
	
			GLOBAL BIOGEOCHEMICAL CYCLES
		
	N. Volume
	
			33
		
	Fascicolo
	
			10
		
	Pagine (da)
	
			1251
		
	Pagine (a)
	
			1263
		
	DOI
	
			https://dx.doi.org/10.1029/2019GB006276
		
	Parole Chiave
	
			CO; 2; intermittent; respiration; river; stream; temporary
		
	Tutti gli autori
	
			von Schiller D.; Datry T.; Corti R.; Foulquier A.; Tockner K.; Marce R.; Garcia-Baquero G.; Odriozola I.; Obrador B.; Elosegi A.; Mendoza-Lera C.; Gessner M.O.; Stubbington R.; Albarino R.; Allen D.C.; Altermatt F.; Arce M.I.; Arnon S.; Banas D.; Banegas-Medina A.; Beller E.; Blanchette M.L.; Blanco-Libreros J.F.; Blessing J.; Boechat I.G.; Boersma K.S.; Bogan M.T.; Bonada N.; Bond N.R.; Brintrup K.; Bruder A.; Burrows R.M.; Cancellario T.; Carlson S.M.; Cauvy-Fraunie S.; Cid N.; Danger M.; de Freitas Terra B.; Dehedin A.; De Girolamo A.M.; del Campo R.; Diaz-Villanueva V.; Duerdoth C.P.; Dyer F.; Faye E.; Febria C.; Figueroa R.; Four B.; Gafny S.; Gomez R.; Gomez-Gener L.; Graca M.A.S.; Guareschi S.; Gucker B.; Hoppeler F.; Hwan J.L.; Kubheka S.; Laini A.; Langhans S.D.; Leigh C.; Little C.J.; Lorenz S.; Marshall J.; Martin E.J.; McIntosh A.; Meyer E.I.; Milisa M.; Mlambo M.C.; Moleon M.; Morais M.; Negus P.; Niyogi D.; Papatheodoulou A.; Pardo I.; Paril P.; Pesic V.; Piscart C.; Polasek M.; Rodriguez-Lozano P.; Rolls R.J.; Sanchez-Montoya M.M.; Savic A.; Shumilova O.; Steward A.; Taleb A.; Uzan A.; Vander Vorste R.; Waltham N.; Woelfle-Erskine C.; Zak D.; Zarfl C.; Zoppini A.
		
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1843862

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