Influence of Major Storm Events on the Quantity and Composition of Particulate Organic Matter and the Phytoplankton Community in a Subtropical Estuary, Texas

Reyna, N. E.; Hardison, Amber K.; Liu, Zhanfei

doi:10.3389/fmars.2017.00043

Cited by 21 publications

(22 citation statements)

References 58 publications

(98 reference statements)

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“…), which was in favor of CO 2 production. In flooding season, non‐thermal effect dramatically increased (Table 4) air–water CO 2 flux at CW, whereas CO 2 degassing was maintained at similar level or even decreased in other part of this estuary, due presumably to nutrient‐enhanced primary production (Reyna et al ).…”

Section: Discussionmentioning

confidence: 98%

Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary

Yao

2017

Limnology & Oceanography

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Globally, estuaries are considered important CO 2 sources to the atmosphere. However, estuarine water carbonate chemistry and CO 2 flux studies have focused on temperate and high latitude regions, leaving a significant data gap in subtropical estuaries. In this study, we examined water column carbonate system and airwater CO 2 flux in the Mission-Aransas Estuary, a subtropical semiarid estuary in the 21 and 2132.5 6 256.8 lmol kg 21 , TA was 2497.6 6 172.1 lmolÁkg 21 and 2333.4 6 283.1 lmol kg 21 , pCO 2 was 477 6 94 latm and 529 6 251 latm, and CO 2 flux was 28.3 6 18.0 mmol CÁm 22 Ád 21 and 51.6 6 83.9 mmolÁCÁm 22 Ád 21 in the drought and flooding period, respectively. Integrated annual air-water CO 2 flux during our studied period was estimated to be 12.4 6 3.3 molÁCÁm 22 Áyr 21 , indicating that this estuary was a net CO 2 source. High wind speed, warm climate, riverine input, and estuarine biogeochemical processes all contributed to the high CO 2 efflux despite the modest pCO 2 levels year round.

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Section: Discussionmentioning

confidence: 98%

Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary

Yao

2017

Limnology & Oceanography

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“…Overall, DOM at high-flow appears to contain relatively higher percentages of aromatic structures, which may represent a recalcitrant nature under certain conditions, but can be very reactive when conditions change. Therefore, the high-flow events can relocate a large amount of terrestrial photo-active DOM to coastal region, where it could be rapidly utilized by microbes and further fuel primary production in brackish water (e.g., Liu et al, 2011;Mooney and McClelland, 2012;Bruesewitz et al, 2013;Reyna et al, 2017). High flow DOM also seems to contain a fraction of highly bioavailable DOM in the form of hydrolyzable amino acids, which can further supply labile substrates to estuaries and bays.…”

Section: Impact Of Storm Events On Riverine Dommentioning

confidence: 99%

“…Besides the direct impact on the landfall area (e.g., Han et al, 2018), high-flow events after hurricane could subsequently change the hydrology and water quality in subtropical regions (e.g., Nesbit and Mitsch, 2018). Characterized by a semiarid climate and sporadic rainfalls, South Texas is known for very intense precipitation events cropping up within relatively short period of time (Bomar, 1983(Bomar, , 2017Mooney and McClelland, 2012;Bruesewitz et al, 2013;Reyna et al, 2017). For instance, Hurricane Harvey, a category four major hurricane that made landfall near University of Texas Marine Science Institute (UTMSI) on August 25, 2017, caused unprecedented flooding in nearby areas.…”

Section: Introductionmentioning

confidence: 99%

Molecular Level Analysis Reveals Changes in Chemical Composition of Dissolved Organic Matter From South Texas Rivers After High Flow Events

Liu

2019

Front. Mar. Sci.

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“…Elevated summer temperatures often result in summer evaporation exceeding local annual precipitation [18,45,47]. However, warm summer waters from the Gulf of Mexico and El Niño Southern Oscillation (ENSO) events promote storms, leading to flash flooding and freshets in coastal bays [14,18,21,22,45,48,49]. This typically baseflow, yet wide-ranging set of riverine conditions, when combined with tidal forces, provided an ideal test case for the new tidal rating curve method.…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, long-term discharge records aid in predictions of hyporheic exchange rates that control groundwater inputs of nitrogen (N) in these costal environments; understanding such exchange rates will further inform management and policy surrounding TMDLs [19,20]. Complete long-term tidal volumetric discharge records also inform increasingly precise relationships between terrestrial physical parameters and downstream ecology and biota over a range of timescales, from flashy, short-term event timescales to longer global climate trends [11,14,16,21,22].…”

Section: Introductionmentioning

confidence: 99%

An expanded rating curve model to estimate river discharge during tidal influences across the progressive-mixed-standing wave systems

Jones

Hardison²,

Hodges

et al. 2019

PLoS ONE

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Empirically quantifying tidally-influenced river discharge is typically laborious, expensive, and subject to more uncertainty than estimation of upstream river discharge. The tidal stage-discharge relationship is not monotonic nor necessarily single-valued, so conventional stage-based river rating curves fail in the tidal zone. Herein, we propose an expanded rating curve method incorporating stage-rate-of-change to estimate river discharge under tidal influences across progressive, mixed, and standing waves. This simple and inexpensive method requires (1) stage from a pressure transducer, (2) flow direction from a tilt current meter, and (3) a series of ADP surveys at different flow rates for model calibration. The method was validated using excerpts from 12 tidal USGS gauging stations during baseflow conditions. USGS gauging stations model discharge using a different more complex and expensive method. Comparison of new and previous models resulted in good R2 correlations (min 0.62, mean 0.87 with S.D. 0.10, max 0.97). The method for modeling tidally-influenced discharge during baseflow conditions was applied de novo to eight intertidal stations in the Mission and Aransas Rivers, Texas, USA. In these same rivers, the model was further expanded to identify and estimate tidally-influenced stormflow discharges. The Mission and Aransas examples illustrated the potential scientific and management utility of the applied tidal rating curve method for isolating transient tidal influences and quantifying baseflow and storm discharges to sensitive coastal waters.

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Influence of Major Storm Events on the Quantity and Composition of Particulate Organic Matter and the Phytoplankton Community in a Subtropical Estuary, Texas

Cited by 21 publications

References 58 publications

Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary

Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary

Molecular Level Analysis Reveals Changes in Chemical Composition of Dissolved Organic Matter From South Texas Rivers After High Flow Events

An expanded rating curve model to estimate river discharge during tidal influences across the progressive-mixed-standing wave systems

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Influence of Major Storm Events on the Quantity and Composition of Particulate Organic Matter and the Phytoplankton Community in a Subtropical Estuary, Texas

Cited by 21 publications

References 58 publications

Responses of carbonate system and CO2 flux to extended drought and intense flooding in a semiarid subtropical estuary

Responses of carbonate system and CO2 flux to extended drought and intense flooding in a semiarid subtropical estuary

Molecular Level Analysis Reveals Changes in Chemical Composition of Dissolved Organic Matter From South Texas Rivers After High Flow Events

An expanded rating curve model to estimate river discharge during tidal influences across the progressive-mixed-standing wave systems

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Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary

Responses of carbonate system and CO₂ flux to extended drought and intense flooding in a semiarid subtropical estuary