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Water Research: Evidence for Groundwater and Surface Marine Water Contamination by Waste Disposal Wells in Florida Keys by J. Paul, J. Rose, et al.

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John H. Paula, Corresponding Author Contact Information, Joan B. Rose*a, Sunny C. Jianga, Xingting Zhoua, Pamela Cochrana, Christina Kellogga, Jordan B. Kanga, Dale Griffina, Samual Farrah*b and Jerzy Lukasikb
a University of South Florida, St Petersburg, FL 33701, U.S.A.
b University of Florida, Gainesville, FL, U.S.A.
 Water Research Volume 31, Issue 6, June 1997, Pages 1448-1454 

ABSTRACT

Injection wells (Class V disposal wells) are a major method for domestic wastewater disposal in coastal environments around Florida, and particularly the Florida keys, where there are nearly 700 in operation.

A recent report published in the June issue of Water Research by researchers at the University of South Florida indicates that wastewater disposed by these practices can rapidly contaminate groundwater and surface marine waters.

These investigators, led by Drs. John H. Paul and Joan B. Rose, used harmless bacterial viruses as a tracer for the movement of wastewater from a recently permitted class V disposal well in the Middle Keys.

This well meets current DEP requirements, which means that the well was drilled to 90 feet and cased with PCV pipe to 60 feet. Within 8 hours of addition of the tracer, it was detected in the groundwater, and within 36 hours it was detected in Florida Bay.

By 53 hours, the tracer appeared in a canal on the other side of US1, on its way to Hawk Channel and the Atlantic Ocean.

A second experiment performed last fall indicated that the tracer could move from the waste disposal well to the same canal in less than 8 hours, if strong North winds associated with a cold front occurred at the same time.

The meaning of these results is that wastewater from injection wells can rapidly make its way to the subsurface. This could cause potentially serious health problems for bathers in canals and coastal waters around the Florida Keys.

Disease causing microorganisms could be transmitted from wastewater to these waters where they could potentially infect bathers, windsurfers, jetski operators and other participants in recreational water-contact activities.

A second reason for concern is the transport of nutrients (inorganic and organic) into marine waters. These act like fertilizers which cause algal growth and water quality deterioration.

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University of North Carolina: Indo Pacific Reefs Disappearing More Rapidly Than Expected

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http://marine.unc.edu/announce_seminars/news/UNC%20Marine%20Research%20Garner%20Press%20Coverage/

Indo-Pacific Coral Reefs Disappearing more rapidly than expected. 

UNC News Release
8 p.m. ET, Tuesday, Aug. 7, 2007

Indo-Pacific coral reefs disappearing more rapidly than expected

CHAPEL HILL – Corals in the central and western Pacific ocean are dying faster than previously thought, University of North Carolina at Chapel Hill researchers have found. Nearly 600 square miles of reef have disappeared per year since the late 1960s, twice the rate of rainforest loss.

The reefs are disappearing at a rate of one percent per year, a decline that began decades earlier than expected, the researchers discovered. Historically, coral cover, a measure of reef health, hovered around 50 percent. Today, only about 2 percent of reefs in the Indo-Pacific have coral cover close to the historical baseline

“We have already lost half of the world’s reef-building corals,” said John Bruno, lead study author and associate professor of marine ecology and conservation in the department of marine sciences in UNC-Chapel Hill’s College of Arts and Sciences.

The results were published Aug. 8, 2007, in the online journal PLoS One. The study provides the first regional-scale and long-term analysis of coral loss in the region, where relatively little was known about patterns of reef loss.

The Indo-Pacific contains 75 percent of the world’s coral reefs and has the highest coral diversity in the world. High coral cover reefs in the Indo-Pacific ocean were common until a few decades ago, the researchers found.

Bruno and Elizabeth Selig, a graduate student in the College of Arts and Sciences’ curriculum in ecology, compiled and analyzed a database of 6,000 quantitative surveys performed between 1968 and 2004 of more than 2,600 Indo-Pacific coral reefs. The surveys tallied coral cover, a measure of the ocean floor area covered by living corals. Scientists rely on coral cover as a key indicator of reef habitat quality and quantity, similar to measuring an area covered by tree canopy as a gauge of tropical forest loss.

Coral cover declined from 40 percent in the early 1980s to approximately 20 percent by 2003, the researchers found. But for Bruno and Selig, one of the most surprising results was that coral cover was similar between reefs maintained by conservationists and unprotected reefs. This consistent pattern of decline across the entire Indo-Pacific indicates that coral loss is a global phenomenon, likely due in part to large-scale stressors such as climate change. But for Bruno and Selig, one of the most surprising results was that coral loss was just as extensive on some of regions most intensely managed reefs.

The results of the study have significant implications for policy makers and resource managers searching for ways to reverse coral loss. “We can do a far better job of developing technologies and implementing smart policies that will offset climate change,” Bruno said. “We can also work on mitigating the effects of other stressors to corals including nutrient pollution and destructive fishing practices.”

Although reefs cover less than one percent of the ocean globally, they play an integral role in coastal communities, Bruno said. They provide economic benefits through fisheries and tourism and serve invaluable services like buffering from storms. When corals die, these benefits quickly disappear. Coral disease, predators, rising ocean temperatures due to climate change, nutrient pollution, destructive fishing practices and sediment run-off from coastal development can all destroy reef communities.

“Indo-Pacific reefs have played an important economic and cultural role in the region for hundreds of years and their continued decline could mean the loss of millions of dollars in fisheries and tourism,It’s like when everything in the forest is gone except for little twigs,a few lone trees” Selig said.

The research was funded by a grant by the National Science Foundation and the Environmental Protection Agency’s Science to Achieve Results program.

Note: Bruno can be reached at (919) 360-7651 or jbruno@unc.edu. Selig can be reached at (919) 619-6797 or eselig@unc.edu.

UNC News Services contact: Becky Oskin, (919) 962-8596 or becky_oskin@unc.edu