M. R. Hall scite author profile

Abstract. A retrospective analysis revealed that water quality in the coastal bays of Maryland (USA) has been declining over the past decade, as evidenced by increases in total nitrogenous nutrients and in outbreaks of brown tides caused by the pelagophyte Aureococcus anophagefferns. However, the increases in total nitrogen are not a function of increases in inorganic nitrogen, but rather a function of increases in dissolved organic nitrogen (DON). A near-decadal record (1996)(1997)(1998)(1999)(2000)(2001)(2002)(2003)(2004) demonstrates that an approximate doubling of DON over this time period correlates with a similar increase in total chlorophyll and an even larger increase in the proportion of chlorophyll that is composed of brown tide. Additionally, on an annual basis overall chlorophyll levels and strength of the brown-tide blooms were related to the DON availability that developed during the prior months. Aureococcus anophagefferens is a harmful algal bloom species that preferentially uses DON for its nutrition over inorganic nitrogen forms and thus is a symptom of organic rather than inorganic nitrogen-based eutrophication. These results demonstrate that long-term changes in nutrient quantity and composition have occurred in the coastal bays of Maryland during the past decade and that total phytoplankton biomass, as well as the proliferation of brown tide, are related to these changes. Whether these changes are evidence of a long-term trajectory or represent a shortterm anomaly will be revealed in future monitoring.

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First Direct Measurement of Mg22(α,p)Al
Randhawa¹,
Ayyad²,
Mittig³
et al. 2020
Phys. Rev. Lett.
21
3
47
0
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Type-I x-ray bursts can reveal the properties of an accreting neutron star system when compared with astrophysics model calculations. However, model results are sensitive to a handful of uncertain nuclear reaction rates, such as 22 Mgðα;pÞ. We report the first direct measurement of 22 Mgðα;pÞ, performed with the Active Target Time Projection Chamber. The corresponding astrophysical reaction rate is orders of magnitude larger than determined from a previous indirect measurement in a broad temperature range. Our new measurement suggests a less-compact neutron star in the source GS1826-24.

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Linking Water Quality to Living Resources in a Mid‐atlantic Lagoon System, Usa

Wazniak

Hall

Carruthers

et al. 2007

Ecological Applications

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Abstract. The mid-Atlantic coastal bays are shallow coastal lagoons, separated from the Atlantic Ocean by barrier sand islands with oceanic exchanges restricted to narrow inlets. The relatively poor flushing of these lagoon systems makes them susceptible to eutrophication resulting from anthropogenic nutrient loadings. An intensive water quality and seagrass monitoring program was initiated to track ecological changes in the Maryland and Virginia coastal bays. The purpose of this study was to analyze existing monitoring data to determine status and trends in eutrophication and to determine any associations between water quality and living resources. Analysis of monitoring program data revealed several trends: (1) decadal decreases in nutrient and chlorophyll concentrations, followed by recently increasing trends; (2) decadal increases in seagrass coverage, followed by a recent period of no change; (3) blooms of macroalgae and brown tide microalgae; and (4) exceedance of water quality thresholds: chlorophyll a (15 lg/L), total nitrogen (0.65 mg/L or 46 lmol/L), total phosphorus (0.037 mg/L or 1.2 lmol/L), and dissolved oxygen (5 mg/L) in many areas within the Maryland coastal bays. The water quality thresholds were based on habitat requirements for living resources (seagrass and fish) and used to calculate a water quality index, which was used to compare the bay segments. Strong gradients in water quality were correlated to changes in seagrass coverage between segments. These factors indicate that these coastal bays are in a state of transition, with a suite of metrics indicating degrading conditions. Continued monitoring and intensified management will be required to avert exacerbation of the observed eutrophication trends. Coastal lagoons worldwide are experiencing similar degrading trends due to increasing human pressures, and assessing status and trends relative to biologically relevant thresholds can assist in determining monitoring and management priorities and goals.

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M. R. Hall

Direct Reaction Measurements Using GODDESS

Revalidation of the isobaric multiplet mass equation for theA=20quintet

Seasonal and Interannual Trends in Nitrogen and Brown Tide in Maryland's Coastal Bays

First Direct Measurement of Mg22(α,p)Al
Randhawa¹,
Ayyad²,
Mittig³
et al. 2020
Phys. Rev. Lett.
21
3
47
0
View full text Add to dashboard Cite

Linking Water Quality to Living Resources in a Mid‐atlantic Lagoon System, Usa

Contact Info

Product

Resources

About

M. R. Hall

Direct Reaction Measurements Using GODDESS

Revalidation of the isobaric multiplet mass equation for theA=20quintet

Seasonal and Interannual Trends in Nitrogen and Brown Tide in Maryland's Coastal Bays

First Direct Measurement of Mg22(α,p)AlRandhawa1, Ayyad2, Mittig3 et al. 2020Phys. Rev. Lett.213470View full textAdd to dashboardCite

Linking Water Quality to Living Resources in a Mid‐atlantic Lagoon System, Usa

Contact Info

Product

Resources

About

First Direct Measurement of Mg22(α,p)Al
Randhawa¹,
Ayyad²,
Mittig³
et al. 2020
Phys. Rev. Lett.
21
3
47
0
View full text Add to dashboard Cite