Global Controls on DOC Reaction Versus Export in Watersheds: A Damköhler Number Analysis

Liu, Shaoda; Maavara, Taylor; Brinkerhoff, Craig; Raymond, P. A.

doi:10.1029/2021gb007278

Cited by 20 publications

(17 citation statements)

References 93 publications

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“…We found that in terms of unit area, small catchments (e.g., RB and RT) and especially mountainous catchments (RB) are very efficient DOC exporters (Mattsson et al 2005;Ågren et al 2007;Hilton et al 2011). This is in line with Liu et al (2022), who found that small river networks are DOC export-dominated systems, while very large river networks (stream order 7-9) are DOC reaction-oriented systems.…”

Section: Precipitation Gradient-and Catchment Type-controlled Dischargesupporting

confidence: 86%

“…9). The effect of in-stream DOC degradation leading to an increase in the proportion of DIC (or CO 2 ) was suggested to be negligible for catchments in cold (boreal) areas with a low residence time of water in the system (Wallin et al 2010;Liu et al 2022). DOC in our rivers is predominantly coloured and refractory, typical for such boreal landscapes, and thus less prone for rapid photochemical or microbial degradation, so that within river losses of DOC had no major influence here.…”

Section: Precipitation Gradient-and Catchment Type-controlled Dischargementioning

confidence: 81%

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Sensitivity of river catchments to discharge-controlled dissolved carbon export: a study of eight catchments in southern Patagonia

Pérez-Rodríguez

Biester

2022

Biogeochemistry

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Understanding the role of catchment sensitivity to dissolved carbon export to aquatic systems is crucial to predict future changes in carbon fluxes under changing climatic conditions. We present 1-year variations in dissolved organic (DOC) and inorganic carbon (DIC) concentrations and fluxes in eight river catchments differing in size (3–300 km2), morphology (steep to flat), and vegetation cover (grassland, forest and peatland) along a precipitation gradient in southern Patagonia, Chile. The results show large differences between catchments in terms of river DOC (2–47 mg L−1; 1–44 tons km−2 year−1) and DIC (0.1–38 mg L−1; 1–5 tons km−2 year−1) concentrations and fluxes in response to changes in discharge. Small and steep catchments hosting organic rich forest soils and peatlands were the most sensitive and showed the highest and fastest DOC release if evaluated on a per unit area basis. Here, rain events caused a rapid exponential increase in DOC release, while DIC export decreased exponentially. A negative correlation between DOC and DIC reveals the minor importance of DIC production through mineralization of DOC in most catchments. Catchments hosting large peatlands had low sensitivity to discharged controlled DOC release attributed to their high hydrological buffer capacity. Similarly, flat and relatively dry Patagonian steppe catchments have comparatively low sensitivity but have short-term high release of DOC accumulated during dry periods. In conclusion, morphology, rather than catchment size or vegetation cover, was found to show the major influence on sensitivity to DOC release.

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Section: Precipitation Gradient-and Catchment Type-controlled Dischargesupporting

confidence: 86%

Section: Precipitation Gradient-and Catchment Type-controlled Dischargementioning

confidence: 81%

Sensitivity of river catchments to discharge-controlled dissolved carbon export: a study of eight catchments in southern Patagonia

Pérez-Rodríguez

Biester

2022

Biogeochemistry

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“…was not found to be as important in regulating the trend in C DOC (see Figure S14). This finding contradicts with what was previously hypothesized (Liu, Maavara, et al, 2022;Xu & Xu, 2022) but is in agreement with results by Gommet et al (2022) for the European river network. The regional analysis of the relationship between temperature and C DOC also indicates that temperature is only weakly and positively related to C DOC for most basins (Figure S23).…”

Section: Decadal Trendscontrasting

confidence: 82%

Increasing riverine export of dissolved organic carbon from China

Yan

Lauerwald

Wang

et al. 2023

Global Change Biology

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River transport of dissolved organic carbon (DOC) to the ocean is a crucial but poorly quantified regional carbon cycle component. Large uncertainties remaining on the riverine DOC export from China, as well as its trend and drivers of change, have challenged the reconciliation between atmosphere-based and land-based estimates of China's land carbon sink. Here, we harmonized a large database of riverine in-situ measurements and applied a random forest model, to quantify riverine DOC fluxes (F DOC ) and DOC concentrations (C DOC ) in rivers across China. This study proposes the first DOC modeling effort capable of reproducing well the magnitude of riverine C DOC and F DOC , as well as its trends, on a monthly scale and with a much wider spatial distribution over China compared to previous studies that mainly focused on annual-scale estimates and large rivers. Results show that over the period 2001-2015, the average C DOC was 2.25 ± 0.45 mg/L and average F DOC was 4.04 ± 1.02 Tg/year. Simultaneously, we found a significant increase in F DOC (+0.044 Tg/year 2 , p = .01), but little change in C DOC (−0.001 mg/L/year, p > .10). Although the trend in C DOC is not significant at the country scale, it is significantly increasing in the Yangtze River Basin and Huaihe River Basin (0.005 and 0.013 mg/L/year, p < .05) while significantly decreasing in the Yellow River Basin and Southwest Rivers Basin (−0.043 and −0.014 mg/L/year, p = .01). Changes in hydrology, play a stronger role than direct impacts of anthropogenic activities in determining the spatio-temporal variability of F DOC and C DOC across China. However, and in contrast with other basins, the significant increase in C DOC in the Yangtze River Basin and Huaihe River Basin is attributable to direct anthropogenic activities. Given the dominance of hydrology in driving F DOC , the increase in F DOC is likely to continue under the projected increase in river discharge over China resulting from a future wetter climate.

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“…Nutrient removal rate is depending on both nutrient uptake velocity and hydrological parameters, such as stream depth and retention time. Values of

vf

for nutrients are often considered constant in small headwater streams (Liu et al, 2022) and we assumed that the errors in stream nutrient removal caused by varied nutrient

vf

were ignorable in the YRC (Table 3) (Ensign & Doyle, 2006; Mulholland et al, 2008; Wollheim et al, 2006).…”

Section: Discussionmentioning

confidence: 99%

Modelling stream nutrient source and yield by coupling hydrological processes and nutrient budgets from an experimental headwater catchment with orchard expansion in the Changjiang River Delta area

Zhang

Wang

et al. 2022

Hydrological Processes

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Although watershed nutrient exports have been well studied and modelled, the dynamic changes in the contributions of individual nutrient sources to reservoirs are less certain under changing land use and climate. The intensification of agriculture has led to expansion in plantation areas and the corresponding increased use of chemical and organic fertilisers in many headwater catchments in recent decades in China. Nutrient yields are potentially substantial because of the expansion of agricultural ecosystems. Here, in combination with biogeochemical nutrient budgets, we developed a synthesis model to quantify daily nutrient yields in terms of dissolved inorganic nitrogen (DIN), dissolved organic nitrogen (DON), dissolved inorganic phosphorus (DIP) and dissolved organic phosphorus (DOP). We also identified their

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Global Controls on DOC Reaction Versus Export in Watersheds: A Damköhler Number Analysis

Cited by 20 publications

References 93 publications

Sensitivity of river catchments to discharge-controlled dissolved carbon export: a study of eight catchments in southern Patagonia

Sensitivity of river catchments to discharge-controlled dissolved carbon export: a study of eight catchments in southern Patagonia

Increasing riverine export of dissolved organic carbon from China

Modelling stream nutrient source and yield by coupling hydrological processes and nutrient budgets from an experimental headwater catchment with orchard expansion in the Changjiang River Delta area

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