Sources of and processes controlling CO2 emissions change with the size of streams and rivers

Hotchkiss, Erin R.; Hall, Robert O.; Sponseller, Ryan A.; Butman, David; Klaminder, Jonatan; Laudon, Hjalmar; Rosvall, Martin; Karlsson, Jan

doi:10.1038/ngeo2507

Cited by 522 publications

(639 citation statements)

References 29 publications

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“…9). Such a pattern has been previously reported for CO 2 in US rivers (Butman and Raymond, 2011), and might be interpreted as resulting from decreasing input of CO 2 rich groundwater with increasing Strahler order (Hotchkiss et al, 2015). However, this is inconsistent with the decreasing pattern of CH 4 with Strahler order since groundwater in the Meuse basin has low CH 4 concentrations (Fig.…”

Section: Tablesupporting

confidence: 53%

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Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Borges

Darchambeau

Lambert

et al. 2018

Science of The Total Environment

172

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• Large data-set of CO 2 , CH 4 , and N 2 O in the surface waters of the Meuse River We report a data-set of CO 2 , CH 4 , and N 2 O concentrations in the surface waters of the Meuse river network in Belgium, obtained during four surveys covering 50 stations (summer 2013 and late winter 2013, 2014 and 2015), from yearly cycles in four rivers of variable size and catchment land cover, and from 111 groundwater samples. Surface waters of the Meuse river network were over-saturated in CO 2 , CH 4 , N 2 O with respect to atmospheric equilibrium, acting as sources of these greenhouse gases to the atmosphere, although the dissolved gases also showed marked seasonal and spatial variations. Seasonal variations were related to changes in freshwater discharge following the hydrological cycle, with highest concentrations of CO 2 , CH 4 , N 2 O during low water owing to a longer water residence time and lower currents (i.e. lower gas transfer velocities), both contributing to the accumulation of gases in the water column, combined with higher temperatures favourable to microbial processes. Inter-annual differences of discharge also led to differences in CH 4 and N 2 O that were higher in years with prolonged low water periods. Spatial variations were mostly due to differences in land cover over the catchments, with systems dominated by agriculture (croplands and pastures) having higher CO 2 , CH 4 , N 2 O levels than forested systems. This seemed to be related to higher levels of dissolved and particulate organic matter, as well as dissolved inorganic nitrogen in agriculture dominated systems compared to forested ones. Groundwater had very low CH 4 concentrations in the shallow and unconfined aquifers (mostly fractured limestones) of the Contents lists available at ScienceDirectScience of the Total Environment j o u r n a l h o m e p a g e : w w w . e l s e v i e r . c o m / l o c a t e / s c i t o t e n vMeuse basin, hence, should not contribute significantly to the high CH 4 levels in surface riverine waters. Owing to high dissolved concentrations, groundwater could potentially transfer important quantities of CO 2 and N 2 O to surface waters of the Meuse basin, although this hypothesis remains to be tested.

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Section: Tablesupporting

confidence: 53%

“…Groundwater can be a source of GHGs to riverine systems in particular in lower order streams and headwaters (Johnson et al, 2008;Hotchkiss et al, 2015). The comparison of CO 2 and CH 4 in groundwater and riverine waters of the Meuse basin (Fig.…”

Section: Tablementioning

confidence: 99%

Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Borges

Darchambeau

Lambert

et al. 2018

Science of The Total Environment

172

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“…In addition to soil respiration, mineral weathering also contributes to DIC in stream water. The relative importance of soil respiration and weathering varies depending on geology and the presence of wetlands in the area (Hotchkiss et al, 2015;Lauerwald et al, 2013;Jones et al, 2003). In the present study, 16 % of the catchment areas contained carbonate bedrock.…”

Section: Controlling Factors For Aquatic C-exportmentioning

confidence: 53%

Regional-scale lateral carbon transport and CO<sub>2</sub> evasion in temperate stream catchments

et al. 2017

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Abstract. Inland waters play an important role in regional to global-scale carbon cycling by transporting, processing and emitting substantial amounts of carbon, which originate mainly from their catchments. In this study, we analyzed the relationship between terrestrial net primary production (NPP) and the rate at which carbon is exported from the catchments in a temperate stream network. The analysis included more than 200 catchment areas in southwest Germany, ranging in size from 0.8 to 889 km 2 for which CO 2 evasion from stream surfaces and downstream transport with stream discharge were estimated from water quality monitoring data, while NPP in the catchments was obtained from a global data set based on remote sensing. We found that on average 13.9 g C m −2 yr −1 (corresponding to 2.7 % of terrestrial NPP) are exported from the catchments by streams and rivers, in which both CO 2 evasion and downstream transport contributed about equally to this flux. The average carbon fluxes in the catchments of the study area resembled global and large-scale zonal mean values in many respects, including NPP, stream evasion and the carbon export per catchment area in the fluvial network. A review of existing studies on aquatic-terrestrial coupling in the carbon cycle suggests that the carbon export per catchment area varies in a relatively narrow range, despite a broad range of different spatial scales and hydrological characteristics of the study regions.

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“…Although the river continuum concept has been useful in explaining gradual longitudinal variations in CO 2 from headwater streams to lowland rivers corresponding to the changing balance between autotrophy and heterotrophy (Borges and Abril, 2012;Koehler et al, 2012;Catalán et al, 2016;Hotchkiss et al, 2015), it has been increasingly recognized that rivers are often divided into discrete 450 segments such as reaches impounded by dams (Ward and Stanford, 1983;Poole, 2002) and eutrophic reaches receiving wastewater (Garnier and Billen, 2007;Yoon et al, 2017;Park et al, 2018). Previous studies of DOM biodegradation have often assumed a selective degradation of labile components of riverine organic matter along the continuum with minimal to low levels of anthropogenic perturbations (Koehler et al, 2012;Weyhenmeyer et al, 2012;Catalán et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Longitudinal discontinuities in riverine greenhouse gas dynamics generated by dams and urban wastewater

Jin¹,

Yoon²,

Begum³

et al. 2018

Preprint

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Abstract.Riverine emissions of CO 2 and other greenhouse gases (GHGs) represent crucial, but poorly constrained components of the global GHG budgets. Three major GHGs -CO 2 , CH 4 , and N 2 O -have rarely been measured simultaneously in river systems modified by human activities, adding uncertainties to the estimates of global riverine GHG emissions. Measurements of C isotopes in dissolved organic carbon (DOC), CO 2 , and CH 4 were combined with basin-wide surveys of three GHGs in the Han 15 River, South Korea to investigate the effects of dams and urban water pollution as primary controls on GHG dynamics in the highly human-impacted river basin with a population >25 million. Monthly monitoring and two-season comparison were conducted at 6 and 15 sites, respectively, to measure surface water concentrations of three GHGs, along with DOC and its optical properties. The basin-wide surveys were complemented with a boat cruise along the lower reach and synoptic samplings along a polluted tributary delivering effluents from a large wastewater treatment plant (WWTP) to the lower reach. The basin-20 wide surveys of three GHGs revealed distinct increases in the concentrations of three gases along the lower reach receiving urban tributaries enriched in GHGs and DOC. Compared to the spatial patterns of GHGs observed in the upper and lower reaches, the levels of pCO 2 were consistently lower across the impounded middle reach, whereas concentrations of CH 4 and N 2 O were relatively high in some impoundment-affected sites. Similar levels and temporal variations in three GHGs at the WWTP effluents and the receiving tributary indicated a disproportionate contribution of the WWTP to the tributary exports of 25 DOC and GHGs. Measurements of δ 13 C in surface water CO 2 and CH 4 sampled during the cruise along the lower reach, combined with δ 13 C and Δ 14 C in dissolved organic matter (DOM) sampled across the basin, implied that longitudinal decreases in Δ 14 C in DOM mighte be associated with wastewater-derived, old DOM in urban tributaries, which, together with enhanced photosynthesis and CH 4 oxidation in the eutrophic lower reach, appear to constrain downstream changes in δ 13 C in CO 2 and CH 4 . The overall results suggest that dams and urban wastewater may create longitudinal discontinuities in riverine metabolic 30 processes leading to large spatial variations in three GHGs. Further research is required to evaluate the relative contributions Biogeosciences Discuss., https://doi

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Sources of and processes controlling CO2 emissions change with the size of streams and rivers

Cited by 522 publications

References 29 publications

Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Regional-scale lateral carbon transport and CO<sub>2</sub> evasion in temperate stream catchments

Longitudinal discontinuities in riverine greenhouse gas dynamics generated by dams and urban wastewater

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Sources of and processes controlling CO2 emissions change with the size of streams and rivers

Cited by 522 publications

References 29 publications

Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Effects of agricultural land use on fluvial carbon dioxide, methane and nitrous oxide concentrations in a large European river, the Meuse (Belgium)

Regional-scale lateral carbon transport and CO&lt;sub&gt;2&lt;/sub&gt; evasion in temperate stream catchments

Longitudinal discontinuities in riverine greenhouse gas dynamics generated by dams and urban wastewater

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Regional-scale lateral carbon transport and CO<sub>2</sub> evasion in temperate stream catchments