Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida
Cable, Jaye E. ; Martin, Jonathan B. ; Swarzenski, Peter W. ; Lindenberg, Mary K. ; Steward, Joel
Oxford, UK : Blackwell Publishing Ltd
Published 2004
Oxford, UK : Blackwell Publishing Ltd
Published 2004
| ISSN: |
1745-6584
|
|---|---|
| Source: |
Blackwell Publishing Journal Backfiles 1879-2005
|
| Topics: |
Energy, Environment Protection, Nuclear Power Engineering
Geosciences
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| Notes: |
Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment.
|
| Type of Medium: |
Electronic Resource
|
| URL: |
| _version_ | 1798290515824738304 |
|---|---|
| autor | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel |
| autorsonst | Lindenberg, Mary K. Steward, Joel |
| book_url | http://dx.doi.org/10.1111/j.1745-6584.2004.tb02640.x |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLZ242807984 |
| insertion_date | 2012-04-27 |
| issn | 1745-6584 |
| journal_name | Ground water |
| materialart | 1 |
| notes | Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment. |
| package_name | Blackwell Publishing |
| publikationsjahr_anzeige | 2004 |
| publikationsjahr_facette | 2004 |
| publikationsjahr_intervall | 7999:2000-2004 |
| publikationsjahr_sort | 2004 |
| publikationsort | Oxford, UK |
| publisher | Blackwell Publishing Ltd |
| reference | 42 (2004), S. 0 |
| search_space | articles |
| shingle_author_1 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel |
| shingle_author_2 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel |
| shingle_author_3 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel |
| shingle_author_4 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel |
| shingle_catch_all_1 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida Blackwell Publishing Ltd Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment. 1745-6584 17456584 |
| shingle_catch_all_2 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida Blackwell Publishing Ltd Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment. 1745-6584 17456584 |
| shingle_catch_all_3 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida Blackwell Publishing Ltd Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment. 1745-6584 17456584 |
| shingle_catch_all_4 | Cable, Jaye E. Martin, Jonathan B. Swarzenski, Peter W. Lindenberg, Mary K. Steward, Joel Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida Blackwell Publishing Ltd Ground water sources can be a significant portion of a local water budget in estuarine environments, particularly in areas with high recharge rates, transmissive aquifers, and permeable marine sediments. However, field measurements of ground water discharge are often incongruent with ground water flow modeling results, leaving many scientists unsure which estimates are accurate. In this study, we find that both measurements and model results are reasonable. The difference between estimates apparently results from the sources of water being measured and not the techniques themselves. In two locations in the Indian River Lagoon estuarine system, we found seepage meter rates similar to rates calculated from the geochemical tracers 222Rn and 226Ra. Ground water discharge rates ranged from 4 to 9 cm/d using seepage meters and 3 to 20 cm/d using 222Rn and 226Ra. In contrast, in comparisons to other studies where finite element ground water flow modeling was used, much lower ground water discharge rates of ∼0.05 to 0.15 cm/d were estimated. These low rates probably represent discharge of meteoric ground water from land-recharged aquifers, while the much higher rates measured with seepage meters, 222Rn, and 226Ra likely include an additional source of surface waters that regularly flush shallow (〈 1 m depth) sediments. This resultant total flow of mixed land-recharged water and recirculated surface waters contributes to the total biogeochemical loading in this shallow estuarine environment. 1745-6584 17456584 |
| shingle_title_1 | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| shingle_title_2 | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| shingle_title_3 | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| shingle_title_4 | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| sigel_instance_filter | dkfz geomar wilbert ipn albert |
| source_archive | Blackwell Publishing Journal Backfiles 1879-2005 |
| timestamp | 2024-05-06T08:17:58.283Z |
| titel | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| titel_suche | Advection Within Shallow Pore Waters of a Coastal Lagoon, Florida |
| topic | ZP TE-TZ |
| uid | nat_lic_papers_NLZ242807984 |