Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/the-air-coastal-sea-chemical-exchange-a-case-study-on-the-new-jersey-PQPdMi6Y5h
References (36)
-
S. Hsu, G. Wong, G. Gong, F. Shiah, Yi-Tang Huang, S. Kao, F. Tsai, S. Lung, F. Lin, I. Lin, C. Hung, C. Tseng (2010)
Sources, solubility, and dry deposition of aerosol trace elements over the East China SeaMarine Chemistry, 120
-
R. Mason, N. Lawson, K. Sullivan (1997)
Atmospheric deposition to the Chesapeake Bay watershed : Regional and local sourcesAtmospheric Environment, 31
-
Guojie Xu, Yuan Gao (2015)
Characterization of marine aerosols and precipitation through shipboard observations on the transect between 31° N–32° S in the West PacificAtmospheric Pollution Research, 6
-
W. Fitzgerald, R. Mason, G. Vandal (1991)
Atmospheric cycling and air-water exchange of mercury over mid-continental lacustrine regionsWater Air & Soil Pollution, 56
-
T. Jickells, A. Knap, T. Church (1984)
Trace metals in Bermuda rainwaterJournal of Geophysical Research, 89
-
Lisa Sabin, K. Schiff (2008)
Dry atmospheric deposition rates of metals along a coastal transect in southern CaliforniaAtmospheric Environment, 42
-
J. Scudlark, K. Conko, T. Church (1994)
Atmospheric wet deposition of trace elements to chesapeake bay: CBAD study year 1 resultsAtmospheric Environment, 28
-
R. Moffet, H. Furutani, T. Rödel, T. Henn, P. Sprau, A. Laskin, M. Uematsu, M. Gilles (2012)
Iron speciation and mixing in single aerosol particles from the Asian continental outflowJournal of Geophysical Research, 117
-
M. Sakata, K. Marumoto, M. Narukawa, Kazuo Asakura (2006)
Regional variations in wet and dry deposition fluxes of trace elements in JapanAtmospheric Environment, 40
-
Yuan Gao, Guojie Xu, Jianqiong Zhan, Jiexia Zhang, Wei Li, Qi Lin, Liqi Chen, Hongmei Lin (2013)
Spatial and particle size distributions of atmospheric dissolvable iron in aerosols and its input to the Southern Ocean and coastal East AntarcticaJournal of Geophysical Research: Atmospheres, 118
-
Y. Gao, E. Nelson, M. Field, Q. Ding, H. Li, R. Sherrell, C. Gigliotti, D. Ry, T. Glenn, S. Eisenreich (2002)
Characterization of atmospheric trace elements on PM2.5 particulate matter over the New York-New Jersey harbor estuaryAtmospheric Environment, 36
-
H. Paerl (1997)
Coastal eutrophication and harmful algal blooms: Importance of atmospheric deposition and groundwater as “new” nitrogen and other nutrient sourcesLimnology and Oceanography, 42
-
G. Carney (1977)
Marine pollutionNature, 265
-
J. Barringer, Z. Szabó, L. Kauffman, T. Barringer, P. Stackelberg, T. Ivahnenko, S. Rajagopalan, D. Krabbenhoft (2005)
Mercury concentrations in water from an unconfined aquifer system, New Jersey coastal plain.The Science of the total environment, 346 1-3
-
R. Mason, D. Heyes, Auja Sveinsdottir (2006)
Methylmercury Concentrations in Fish from Tidal Waters of The Chesapeake BayArchives of Environmental Contamination and Toxicology, 51
-
K. Conko, K. Rice, M. Kennedy (2004)
Atmospheric wet deposition of trace elements to a suburban environment, Reston, Virginia, USAAtmospheric Environment, 38
-
J. Baker, D. Poster, C. Clark, T. Church, J. Scudlard, J. Ondov, R. Dickhut, G. Cutter (1997)
Loadings of Atmospheric Trace Elements and Organic Contaminants to the Chesapeake Bay | NIST -
J. Cochran, D. Hirschberg, J. Wang, C. Dere (1998)
Atmospheric Deposition of Metals to Coastal Waters (Long Island Sound, New York U.S.A.): Evidence from Saltmarsh DepositsEstuarine Coastal and Shelf Science, 46
-
Yunliang Zhao, Yuan Gao (2008)
Mass size distributions of water-soluble inorganic and organic ions in size-segregated aerosols over metropolitan Newark in the US east coastAtmospheric Environment, 42
-
Y. Gaoa, E. Nelsonb, M. Fielda, Q. Dinga, H. Lia, R. Sherrella, C. Gigliottib, D. Ryb, T. Glennb, S. Eisenreichb (2002)
Characterization of atmospheric trace elements on PM 2 . 5 particulate matter over the New York – New Jersey harbor estuary -
JE Baker, DL Poster, CA Clark, TM Church, JR Scudlark, JM Ondov, RM Dickhut, G Cutter (1997)
Atmospheric deposition of contaminants to the Great Lakes and coastal waters -
Guebuem Kim, J. Scudlark, T. Church (2000)
Atmospheric wet deposition of trace elements to Chesapeake and Delaware BaysAtmospheric Environment, 34
-
Fei Song, Yuan Gao (2009)
Chemical characteristics of precipitation at metropolitan Newark in the US East Coast.Atmospheric Environment, 43
-
D. Golomb, D. Ryan, N. Eby, J. Underhill, S. Zemba (1997)
Atmospheric deposition of toxics onto Massachusetts Bay—I. MetalsAtmospheric Environment, 31
-
Zhonghua Wu, Ming Han, Z. Lin, J. Ondov (1994)
Chesapeake bay atmospheric deposition study, year 1: Sources and dry deposition of selected elements in aerosol particlesAtmospheric Environment, 28
-
L. Xia, Yuan Gao (2010)
Chemical composition and size distributions of coastal aerosols observed on the US East CoastMarine Chemistry, 119
-
J. Galloway, J. Thornton, S. Norton, H. Volchok, R. Mclean (1982)
Trace metals in atmospheric deposition: A review and assessmentAtmospheric Environment, 16
-
S. Slinn, W. Slinn (1980)
Predictions for particle deposition on natural watersAtmospheric Environment, 14
-
T. Churc, J. Tramontano, J. Scudlark, T. Jickells, J. Tokos, A. Knap, J. Galloway (1984)
THE WET DEPOSITION OF TRACE METALS TO THE WESTERN ATLANTIC OCEAN AT THE MID-ATLANTIC COAST AND ON BERMUDAAtmospheric Environment, 18
-
J. Yu, Xiao-Feng Huang, Jinhui Xu, Min Hu (2005)
When aerosol sulfate goes up, so does oxalate: implication for the formation mechanisms of oxalate.Environmental science & technology, 39 1
-
Fei Song, Yuan Gao (2011)
Size distributions of trace elements associated with ambient particular matter in the affinity of a major highway in the New Jersey–New York metropolitan areaAtmospheric Environment, 45
-
F. Morel, N. Price (2003)
The Biogeochemical Cycles of Trace Metals in the OceansScience, 300
-
L. Spokes, T. Jickells, K. Jarvis (2001)
Atmospheric inputs of trace metals to the northeast Atlantic Ocean: the importance of southeasterly flowMarine Chemistry, 76
-
R. Duce, P. Liss, J. Merrill, E. Atlas, P. Buat-Ménard, B. Hicks, John Miller, J. Prospero, R. Arimoto, T. Church, W. Ellis, J. Galloway, L. Hansen, T. Jickells, A. Knap, K. Reinhardt, B. Schneider, A. Soudine, J. Tokos, S. Tsunogai, R. Wollast, Mingyu Zhou (1991)
The atmospheric input of trace species to the world oceanGlobal Biogeochemical Cycles, 5
-
S. Pike, S. Moran (2001)
Trace elements in aerosol and precipitation at New Castle, NH, USAAtmospheric Environment, 35
-
(2001)
Watershed contributions of nutrients and other nonpoint source contaminants to the Barnegat Bay—Little Egg Harbor Estuary
- Publisher
- Springer Journals
- Copyright
- Copyright © 2016 by Springer Science+Business Media Dordrecht
- Subject
- Earth Sciences; Geochemistry; Hydrology/Water Resources; Hydrogeology
- ISSN
- 1380-6165
- eISSN
- 1573-1421
- DOI
- 10.1007/s10498-015-9285-8
- Publisher site
- See Article on Publisher Site
Abstract
The coastal marine atmosphere adjacent to large urban and industrial centers is in general strongly impacted by pollution emissions, resulting in high loading of pollutants in the ambient air. Among the airborne substances are certain trace elements from a variety of emission sources that can serve as micronutrients to marine organisms in coastal waters. High concentrations of such elements in coastal air can result in enhanced air-to-sea deposition fluxes to coastal waters. They could also be transported over the open ocean, affecting the composition of the remote marine atmosphere and then ocean ecosystems. To provide better understanding of the extent of air-to-sea deposition processes on the New Jersey coast, a heavily polluted coastal region on the US East Coast, a synthesis of observation data was carried out for selected trace elements, including Fe, Cd, Cr and Cu, derived from measurements of both size-segregated and bulk aerosol particles, as well as precipitation around the New Jersey coast. The atmospheric input of Hg was also estimated based on measurement data. Results indicated that the total deposition fluxes of most trace elements were higher in Northern coastal NJ compared to Southern coastal NJ, reflecting the differences in the source strengths of these element emissions between the two coastal regions. Dry deposition processes were more significant for common dust-derived elements, particularly Fe and Al, compared with their wet deposition fluxes. However, the processes of precipitation scavenging appeared to be more important for the elements that were often enriched in fine particles including Zn, Cu, Pb and Ni. The removal of Hg from the ambient air was overwhelmingly dominated by atmospheric wet deposition. In the future, atmospheric measurements at more sites on the NJ coast should be performed simultaneously to reduce the spatial and temporal uncertainties associated with atmospheric deposition fluxes estimated in this study.
Journal
Aquatic Geochemistry – Springer Journals
Published: Jan 14, 2016