Hampson
George R.
Hampson
George R.
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Working PaperBiological assessment for a blue mussel ocean aquaculture experiment in Rhode Island Sound(Woods Hole Oceanographic Institution, 1998-04) Hoagland, Porter ; Kite-Powell, Hauke L. ; Paul, Walter ; Hampson, George R.This report assesses the potential biological impacts on certain protected species of the deployment of a longline for growing blue mussels (Mytilus edulis) in Rhode Island Sound. The proposed project is a scientific research experiment designed to test the feasibility of offshore aquaculture from engineering, biological, and economic perspectives. The proposed project is small in scale, limited in duration, and located in an area of the ocean that is known to be only a minor, nonessential habitat for the protected species of concern. Of crucial significance to the relevant protected species and to the project, the project's geographic location is not believed to be critical habitat in even the broadest sense of the term. The project does not involve feeding mussels or treating the mussels with any type of pharmaceuticals. The project relies upon a set of spat from naturally occurring stocks in the region. As a result, the project principal investigators believe that the potential for adverse effects on individuals or stocks of protected species or on their environment is extremely small.
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Technical ReportThe West Falmouth oil spill : persistence of the pollution eight months after the accident(Woods Hole Oceanographic Institution, 1970-09) Blumer, M. ; Sass, J. ; Souza, G. ; Sanders, Howard L. ; Grassle, J. Frederick ; Hampson, George R.A spill of 650,000-700,000 liters of #2 fuel oil has contaminated the coastal areas of Buzzards Bay, Mass. The present report summarizes the results of our continuing chemical and biological study which were available at the end of May 1970, more than eight months after the accident. The effects of environmental exposure on the composition of the oil are discussed; many analytical parameters are sufficiently stable to permit continued correlation of the oil remaining in sediments and organisms with the fuel oil involved in the spill. Oil from the spill is still present in the sediments, inshore and offshore and in the shellfish. A further spread of the pollution to more distant offshore regions has occurred during midwinter; as a result, the pollution now covers a much larger area than immediately after the accident. The first stages of biological (presumably bacterial) degradation of the oil are now evident especially in the least polluted regions; however, it has depleted predominantely the straight and branched chain alkanes. The more toxic aromatic hydrocarbons are resistant; as a result, the toxicity of the oil has not been diminished. Where oil can be detected in the sediments there has been a kill of animals; in the most polluted areas the kill has been almost total. Shellfish that survived the accident have taken up the fuel oil. The 1970 crop of shellfish is as heavily polluted as was last year’s crop. Oysters transplanted to unpolluted water for as long as 6 months retained the oil without change in composition or concentration.
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ArticleAnatomy of an oil spill : long-term effects from the grounding of the barge Florida off West Falmouth, Massachusetts(Yale University, 1980-05) Sanders, Howard L. ; Grassle, J. Frederick ; Hampson, George R. ; Morse, Linda S. ; Garner-Price, Susan ; Jones, Carol C.To determine carefully the effects on the marine and estuarine benthos of Number 2 fuel oil spilled by the barge FLORIDA off West Falmouth, Massachusetts, we sampled for many months along an onshore-offshore gradient of pollution, and less intensively at unoiled sites. Analyses of hydrocarbons established that pollution was greatest and most persistent in the intertidal and subtidal zones of Wild Harbor River, less severe in degree and duration at stations farthest from shore. A variety of concurrent analyses showed that disturbance of the fauna was most severe and longest lasting at the most heavily oiled sites, and least severe but perceptible at lightly oiled stations. Patterns of disturbance were not related to granulometry of the sediments. Plants, ctustaceans, fish, and birds suffered both high mortality immediately after the spill, and physiological and behavioral abnormalities directly related to high concentrations of the fuel oil. Five years after the spill its effects on the biota were still detectable, and partly degraded #2 fuel oil was still present in the sediments in Wild Harbor River and estuary.
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Technical ReportMortality of fish subjected to explosive shock as applied to oil well severance on Georges Bank(Woods Hole Oceanographic Institution, 1982-12) Baxter, Lincoln ; Hays, Earl E. ; Hampson, George R. ; Backus, Richard H.A very extensive bibliography of papers on underwater explosions and their effects on marine life has been collected and summarized. When exposed to blast effects, vertebrates with swim bladders or lungs that contain gas are at least an order of magnitude more sensitive than other life. Regression analysis of several different experiments on explosive damage to fish has been combined with reports of fish concentrations and explosives used in oil well severance in order to estimate the probable extent of damage to fish populations from a limited number of severance explosions. Damage per explosion should not be significant and is probably considerably less than that caused by a one hour tow of a bottom trawl net.