Kathryn A. Burns scite author profile

In 1986 more than 8 million liters of crude oil spilled into a complex region of mangroves, seagrasses, and coral reefs just east of the Caribbean entrance to the Panama Canal. This was the largest recorded spill into coastal habitats in the tropical Americas. Many population of plants and animals in both oiled and unoiled sites had been studied previously, thereby providing an unprecedented measure of ecological variation before the spill. Documenation of the spread of oil and its biological begun immediately. Intertidal mangroves, algae, and associated invertebrates were covered by oil and died soon after. More surprisingly, there was also extensive mortality of shallow subtidal reef corals and infauna of seagrass beds. After 1.5 years only some organisms in areas exposed to the open sea have recovered.

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Contamination in sediments, bivalves and sponges of McMurdo Sound, Antarctica

Negri

Burns

Boyle

et al. 2006

Environmental Pollution

154

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The West Falmouth oil spill after 20 years: Fate of fuel oil compounds and effects on animals

Teal

Farrington

Burns

et al. 1992

Marine Pollution Bulletin

131

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Novel Alkane Hydroxylase Gene ( alkB ) Diversity in Sediments Associated with Hydrocarbon Seeps in the Timor Sea, Australia

Wasmund

Burns

Kurtböke

et al. 2009

Appl Environ Microbiol

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Hydrocarbon seeps provide inputs of petroleum hydrocarbons to widespread areas of the Timor Sea. Alkanes constitute the largest proportion of chemical components found in crude oils, and therefore genes involved in the biodegradation of these compounds may act as bioindicators for this ecosystem's response to seepage. To assess alkane biodegradation potential, the diversity and distribution of alkane hydroxylase (alkB) genes in sediments of the Timor Sea were studied. Deduced AlkB protein sequences derived from clone libraries identified sequences only distantly related to previously identified AlkB sequences, suggesting that the Timor Sea maybe a rich reservoir for novel alkane hydroxylase enzymes. Most sequences clustered with AlkB sequences previously identified from marine Gammaproteobacteria though protein sequence identities averaged only 73% (with a range of 60% to 94% sequence identities). AlkB sequence diversity was lower in deep water (>400 m) samples off the continental slope than in shallow water (<100 m) samples on the continental shelf but not significantly different in response to levels of alkanes. Real-time PCR assays targeting Timor Sea alkB genes were designed and used to quantify alkB gene targets. No correlation was found between gene copy numbers and levels of hydrocarbons measured in sediments using sensitive gas chromatography-mass spectrometry techniques, probably due to the very low levels of hydrocarbons found in most sediment samples. Interestingly, however, copy numbers of alkB genes increased substantially in sediments exposed directly to active seepage even though only low or undetectable concentrations of hydrocarbons were measured in these sediments in complementary geochemical analyses due to efficient biodegradation.

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How many years until mangrove ecosystems recover from catastrophic oil spills?

Burns

Garrity²,

Levings³

1993

Marine Pollution Bulletin

131

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Kathryn A. Burns

Ecological Effects of a Major Oil Spill on Panamanian Coastal Marine Communities

Contamination in sediments, bivalves and sponges of McMurdo Sound, Antarctica

The West Falmouth oil spill after 20 years: Fate of fuel oil compounds and effects on animals

Novel Alkane Hydroxylase Gene ( alkB ) Diversity in Sediments Associated with Hydrocarbon Seeps in the Timor Sea, Australia

How many years until mangrove ecosystems recover from catastrophic oil spills?

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