 |
|
Troubled waters: Low Apalachicola River flow may hurt gulf fisheries
June 22, 2009TALLAHASSEE, Fla. -- Reductions in the flow of the Apalachicola River have far-reaching effects that could prove detrimental to grouper and other reef fish populations in the northeastern Gulf of Mexico, according to a new Florida State University study that may provide new ammunition for states engaged in a nearly two-decade water war.
The Florida State researchers found that in years with low river flow, the concentration of phytoplankton -- the microscopic plant-like organisms that feed into the food chain -- decreased over a large area of the continental shelf. This is significant because scientists have hypothesized that year-to-year changes in the phytoplankton can alter the availability of food for the very young fish larvae, according to research scientist Steven Morey of the Center for Ocean-Atmospheric Prediction Studies (COAPS) at Florida State.
Though much of the scientific research examining the consequences of low-flow conditions, primarily caused by extended drought in recent years, has focused on the Apalachicola River and the estuary system of Apalachicola Bay, the Florida State researchers instead examined the effect of unusually low and high flows over the wide western Florida continental shelf. A number of important reef fish, such as grouper, spawn on the outer shelf edge and use the inner shelf areas as nursery habitat.
"This work shows that variations in the river flow can have implications on marine ecosystems over a much broader geographic region, namely much of the continental shelf extending out several hundred miles," Morey said. "This now suggests that there might be a link between the river flow variations and offshore fisheries."
Morey, Dmitry Dukhovskoy, also of COAPS, and Mark Bourassa, an associate professor of meteorology at FSU, examined the seasonal and year-to-year variability of the river flow caused by changes in precipitation over the watershed encompassing much of western Georgia and parts of eastern Alabama and the Florida Panhandle. The researchers used satellite ocean color data and computer models of ocean circulation to identify a region extending about 125 miles offshore of Apalachicola Bay in which the changes in ocean color, which is indicative of the abundance of phytoplankton and other organic material in the water, is linked to changes in the river flow.
The researchers outlined their findings in an article, "Connectivity of the Apalachicola River flow variability and the physical and bio-optical oceanic properties of the northern West Florida Shelf," published in the journal Continental Shelf Research.
The findings broaden the environmental considerations of managed flow reductions in the Apalachicola-Chattahoochee-Flint (ACF) river system. The Apalachicola River, the final leg of the river system, has been the focus of a nearly 20-year legal battle between Florida, Georgia and Alabama, known as the Tri-State Water War. At the heart of the dispute is Georgia's desire to divert water from the ACF river system to the burgeoning population of the Atlanta metropolitan area, and Florida and Alabama's contention that this flow reduction could have negative consequences for the downstream river environment.
The Apalachicola River is considered a "hot spot" of ecological biodiversity, and Apalachicola Bay supports extensive finfish and shellfish communities dependent on the regular flow of freshwater from the river. The river is a source of nutrients that can contribute to the abundance of phytoplankton, which are consumed by small zooplankton, thus feeding the marine food web in the region. The strongest connection between the river flow rate and the offshore water properties is seen during the late winter and early spring months, which coincide with the spawning period of several reef fish species.
"It is possible that if the natural flow of the river is reduced by water being diverted to reservoirs upstream, it could reduce the natural nutrient supply to the local food web," Morey said. "That could potentially result in a reduction of food available for larger plankton, like fish larvae."
The study sheds some light on potential effects of climate change scenarios altering precipitation patterns over the southeastern United States, Morey said, but further study is needed to determine if the proposed man-made flow reductions at the center of the water wars will have a significant impact on the offshore marine systems, especially during abnormally dry years.
Florida State University
"This work shows that variations in the river flow can have implications on marine ecosystems over a much broader geographic region, namely much of the continental shelf extending out several hundred miles," Morey said. "This now suggests that there might be a link between the river flow variations and offshore fisheries."
Morey, Dmitry Dukhovskoy, also of COAPS, and Mark Bourassa, an associate professor of meteorology at FSU, examined the seasonal and year-to-year variability of the river flow caused by changes in precipitation over the watershed encompassing much of western Georgia and parts of eastern Alabama and the Florida Panhandle. The researchers used satellite ocean color data and computer models of ocean circulation to identify a region extending about 125 miles offshore of Apalachicola Bay in which the changes in ocean color, which is indicative of the abundance of phytoplankton and other organic material in the water, is linked to changes in the river flow.
The researchers outlined their findings in an article, "Connectivity of the Apalachicola River flow variability and the physical and bio-optical oceanic properties of the northern West Florida Shelf," published in the journal Continental Shelf Research.
The findings broaden the environmental considerations of managed flow reductions in the Apalachicola-Chattahoochee-Flint (ACF) river system. The Apalachicola River, the final leg of the river system, has been the focus of a nearly 20-year legal battle between Florida, Georgia and Alabama, known as the Tri-State Water War. At the heart of the dispute is Georgia's desire to divert water from the ACF river system to the burgeoning population of the Atlanta metropolitan area, and Florida and Alabama's contention that this flow reduction could have negative consequences for the downstream river environment.
The Apalachicola River is considered a "hot spot" of ecological biodiversity, and Apalachicola Bay supports extensive finfish and shellfish communities dependent on the regular flow of freshwater from the river. The river is a source of nutrients that can contribute to the abundance of phytoplankton, which are consumed by small zooplankton, thus feeding the marine food web in the region. The strongest connection between the river flow rate and the offshore water properties is seen during the late winter and early spring months, which coincide with the spawning period of several reef fish species.
"It is possible that if the natural flow of the river is reduced by water being diverted to reservoirs upstream, it could reduce the natural nutrient supply to the local food web," Morey said. "That could potentially result in a reduction of food available for larger plankton, like fish larvae."
The study sheds some light on potential effects of climate change scenarios altering precipitation patterns over the southeastern United States, Morey said, but further study is needed to determine if the proposed man-made flow reductions at the center of the water wars will have a significant impact on the offshore marine systems, especially during abnormally dry years.
Florida State University
Storm Killers: LSU's Earth Scan Lab Tracks Cold Water Upwellings in Gulf
Complex interactions between the ocean and overlying atmosphere cause hurricanes to form, and also have a tremendous amount of influence on the path, intensity and duration of a hurricane or tropical weather event.
NOAA Forecast Predicts Large
A team of NOAA-supported scientists from the Louisiana Universities Marine Consortium, Louisiana State University, and the University of Michigan is forecasting that the "dead zone" off the coast of Louisiana and Texas in the Gulf of Mexico this summer could be one of the largest on record.
NOAA and Louisiana scientists predict largest Gulf of Mexico 'dead zone' on record
NOAA-supported scientists from the Louisiana Universities Marine Consortium and Louisiana State University are forecasting that the "dead zone" off the coast of Louisiana and Texas in the Gulf of Mexico this summer could be the largest on record.
More Gulf Fisheries Current Events and Gulf Fisheries News Articles
 |
The Great Gulf: Fishermen, Scientists, and the Struggle to Revive the World's Greatest Fishery by David Dobbs (Author) For hundreds of years, the New England cod fishery was one of the most productive in the world, with higher average annual landings than any comparable ocean area. But in the late 1980s, fish catches dropped precipitously, as the cod, flounder and other species that had long dominated the region seemed to lose their ability to recover from the massive annual harvests. Even today, with fishing sharply restricted, populations have not recovered. Largely overlooked in this disaster is the intriguing human and scientific puzzle that lies at its heart: an anguished, seemingly inexplicable conflict between government scientists and fishermen over how fish populations are assessed, which has led to bitter disputes and has crippled efforts to agree on catch restrictions. In The Great Gulf,... |
|
Red snapper ecology and fisheries in the U.S. Gulf Mexico. (American Fisheries S by Ed. by William F. Patterson III et al. (Author) | |
 |
Fishes of the Gulf of Maine (Fishery bulletin) by Henry Bigelow (Author), William C. Schroeder (Author) Originally published in 1953 (Fishery Bulletin #74), this is a reprint of the first revision of this classic. The "Gulf of Maine" is defined as an area from the Nantucket Shoals and Cape Cod in the west to Cape Sable in the east. The aim of the book was to provide a handbook for the easy identification of the fishes that occur in the Gulf of Maine, with summaries of what is known about the distribution and relative abundance together with information on the life history of each species. The authors used the 150-fathom boundary as the arbitrary offshore boundary, because this will exclude almost all "deep-sea" fishes which are numerous in the basin of the open Atlantic. Combining information gleaned from the literature as well as surveys from a large number of cruises, the... |
|
The reproductive cycle of the thorny skate (Amblyraja radiata) in the western Gulf of Maine.: An article from: Fishery Bulletin by James A. Sulikowski (Author), Jeff Kneebone (Author), Scott Elzey (Author), Joe Jurek (Author), Patrick D. Danley (Author), W. Hunting Howell (Author), Paul C.W. Tsang (Author) This digital document is an article from Fishery Bulletin, published by Thomson Gale on July 1, 2005. The length of the article is 4864 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: The reproductive cycle of the thorny skate (Amblyraja radiata) in the western Gulf of Maine. Author: James A. Sulikowski Publication: Fishery Bulletin (Magazine/Journal) Date: July 1, 2005 Publisher: Thomson Gale Volume: 103 Issue: 3 Page: 536(8) Distributed by Thomson... | |
|
From Year to Year: Interannual Variability of the Environment and Fisheries of the Gulf of Alaska and the Eastern Bering Sea by Warren S. Wooster (Editor) | |
|
Report to the Government of Ceylon on the pearl oyster fisheries of the Gulf of Manaar by W. A Herdman (Author) | |
|
Age and growth estimates of the thorny skate (Amblyraja radiata) in the western Gulf of Maine.: An article from: Fishery Bulletin by James A. Sulikowski (Author), Jeff Kneebone (Author), Scott Elzey (Author), Joe Jurek (Author), Patrick D. Danley (Author), W. Huntting Howell (Author), Paul C.W. Tsang (Author) This digital document is an article from Fishery Bulletin, published by National Marine Fisheries Service on January 1, 2005. The length of the article is 5309 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Age and growth estimates of the thorny skate (Amblyraja radiata) in the western Gulf of Maine. Author: James A. Sulikowski Publication: Fishery Bulletin (Refereed) Date: January 1, 2005 Publisher: National Marine Fisheries Service Volume: 103 Issue: 1 Page: 161(8) Distributed by Thomson... | |
|
Preliminary report on the feeding habits of tunas in the Gulf of Guinea (U.S. Fish and Wildlife Service. Special scientific report--fisheries) by Paul N Sund (Author) | |
|
Red Snapper Ecology and Fisheries in the U.S. Gulf of Mexico by American Fisheries Society (Other Contributor) | |
|
Chemical Oceanography in the Gulf of St Lawrence (Canadian Bulletin of Fisheries & Aquatic Sciences) by Fisheries and Oceans (Canada) (Author), Peter M. Strain (Editor) |
| © 2009 BrightSurf.com |