9. Marine Oil Spills

Question 1

Are there natural seeps of oil into the ocean?

Answer 1

Yes, approx 5 x 10^6 tonnes every year

Question 2

Benefit of natural oil seeps into the ocean

Answer 2

Since it is natural, there exists bacteria that have adapted to use hydrocarbons as a resource/energy

Question 3

What are the two types of ocean hydrocarbon cycles?

Answer 3

1. Short term hydrocarbon cycle
2. Long term hydrocarbon cycle

Question 4

Short term hydrocarbon cycle in the ocean (4 points)

Answer 4

• Cyanobacteria converts CO2 into alkenes (hydrocarbons)
• Bacteria converts hydrocarbons back into CO2
• Cyanobacteria uses CO2 for photosynthesis and convert it into alkenes
• Occurs over days

Question 5

Long term hydrocarbon cycle in the ocean

Answer 5

• Hydrocarbons from natural oil formations seep up the water column
• Bacteria metabolize the hydrocarbons creating CO2
• Occurs over thousands to millions of years

Question 6

What is Alcanivorax borkumensis? (4 points)

Answer 6

• It is the obligate hydrocarbonoclastic bacterium
• Meaning, hydrocarbons are the only thing they can use as a food source
• It plays a significant role in the biological removal of petroleum hydrocarbons from polluted oceans
• It produces natural emulsifiers (ex soap)

Question 7

What are the steps of the fate of oil spilled form a tanker at sea? (10)

Answer 7

• Oil spills
• Oil slick reaches the shore
• Wash oil back into the sea
• Removal or addition of fertilizer
• Sedimentation by adsoroption to particulates
• Some volatilizes
• Some becomes water-soluble components
• Mousse formation
• Wave actions dirupts oil slick
• Biodegradation in water (soluble what descends from disrupted mousse)

Question 8

What are some remediation treatment options for marine oil spills? (11)

Answer 8

1. Evaporation / Aerosolization
2. Physical recovery
3. In-situ burning
4. Dispersants
5. Photooxidation
6. Emulsification
7. Dispersion
8. Dissolution
9. Oil particle aggregation
10. Biodegradation
11. Sedimentation

Question 9

Exxon valdez spill, what treatments did they use? (5)

Answer 9

• Physical recovery
• Physical washing of shorelines
• Dispersants (Corexit)
• Burning
• First use of bioremediation (fertilizer) (only limited use)

Question 10

What are the two major necessary steps when attempting to maximze the cleaning of a beach covered with crude oil?

Answer 10

1. Clean up the bulk of the oil by physical means
2. Clean up the remaining oil via in situ bioremediation

The in situ bioremediation was only done as a limited trial for Exxon Valdez

Question 11

Braer spill VS Exxon Valdez spill: which had a bigger spill?

Answer 11

Braer

Question 12

Braer spill VS Exxon Valdez spill: which took longer to remediate?

Answer 12

Exxon Valdex
* EV had heavier crude oil and calmer seas, whereas Braer had lighter crude and stormy seas

Question 13

Braer

What compounds were added to stimulate biodegradation of crude oil on beaches

Answer 13

• Inipol EAP 22
• surfactant, contained N, P and C
• Customblen
• N & P

Question 14

Braer

Were any microbes added?

Answer 14

No, the natural population was stimulated

Question 15

How do you know if a bioremediation approach was successful? (3)

Answer 15

1. Quantify residual oil contamination per area and by type of hydrocarbon, over time
2. Look for enhanced population of hydrocarbon degraders at treated sites using molecular genetic methods
3. Expect to find increased rate of biodegradation of crude oil constituents in sediments isolated from treated compared to untreated areas

Question 16

Testing of Exxon Valdez Oil Spill results (2)

Answer 16

1. Found signidifcant proption of total population were hydrocarbon degraders VS marine heterotrophs
2. Found presence of 2 genes known to be important for biodegradation of hydrocarbons
   * xylE → this gene encodes catechol 2,3-dioxigenase
   * alkB → this gene encodes alkane monooxygenase

Question 17

How to test the biodegradation rate? (4)

Answer 17

• Mix equal quantities of sediment slurry from treated (T) and reference (R = untreated, control) areas with 14C-labeled hexadecane or phenanthrene in test bottles (microcosms)
• Hexadecane is a n-C16 straight chain alkane often used as a model alkane in biodegradation studies
• Phenanthrene is a 3-ring PAH often used as a model PAH in biodegradation studies
• Compare the rate of 14CO2 produced over time and in T and R sediments

Question 18

Exxon Valdex VS BP Deepwater Horizon

Largest spill

Answer 18

Deepwater Horizon (779 million litres VS 41.6 million litres)

Question 19

Exxon Valdex VS BP Deepwater Horizon

What was the cause?

Answer 19

• Exxon: Tanker spill
• Deepwater: Well leak

Question 20

Exxon Valdex VS BP Deepwater Horizon

Where was the spill when it was discharged? (depth wise)

Answer 20

• Exxon: discharged as a surface spill
• Deepwater: discharged at well head in 1500m of seawater

Question 21

Exxon Valdex VS BP Deepwater Horizon

Where was the spill relative to the shore?

Answer 21

• Exxon: on Bligh (near island shorelines
• Deepwater: 77km offshore

Question 22

Exxon Valdex VS BP Deepwater Horizon

Which used bioremediation extensively?

Answer 22

Exxon Valdez

Question 23

Exxon Valdex VS BP Deepwater Horizon

Which used aerial and subsurface dispersants?

Answer 23

Deepwater Horizon

Question 24

BP Deepwater Horizon

What remediation was used? (4)

Answer 24

1. Evaporation
2. Dispersant
3. Burning
4. Skimming : ships picking up oil

Question 25

What is the issue with Corexit (the dispersant used in the BP Deepwater horizon spill)?

Answer 25

We are now more worried about the toxicity of corextit than the hydrocarbons in the gulf of mexico

Question 26

Metagenomics

Answer 26

Sequencing of all the DNA from a polluted environmental sample and then looking for biodegradative genes and pathways of interest

Question 27

Metatranscriptomics

Answer 27

• Isolate all mRNAs from an environmental sample, convert to complementary DNA (cDNA), sequence, compare to metagenome
• Indicates which genes are being transcribed ie coming from active microorganisms!

Question 28

Metaproteomics

Answer 28

• Isolate all proteins from an environmental sample, sequence, compare to metagenome
• Indicates which genes are being transcribed / translated, i.e., really active!

Question 29

Why does are plastic pollution problem need to be adressed quickly?

Answer 29

• Because plastics don’t biodegrade very well, since they are very long chains or big molecules that cannot fit in the catalytic sites of enzymes
• Because of the current rate at which we pollutle plastic

Question 30

Can plastic be biodegraded at all?

Answer 30

Yes
* Plastic gets degraded into smaller and smaller pieces
* But it is difficult to mineralize it all the way to CO2 and water bc of its long chains

Question 31

How is plastic biodegraded? (5)

Answer 31

1. Initial attachtment of microbes on the plastic surface
2. Microbial Biofilm formation
3. Biodeteoriation: secretion of extracellular enzymes and EPS
4. Biofragmentation: formation of oligomers, dimers, monomers (smaller bits of plastic)
5. Last step would be mineralization to CO2 and H2O, but this seems to not be happening or only happening at the slowest rate ever

Question 32

What provides a point of attack for hydrolytic enzymes to degrade plastic?

Answer 32

The presence of an ester bond (C-O)

Question 33

What are examples (2) of a enzyme that can degrade plastic polymers?

Answer 33

Cutinases and lipases

Question 34

What are the different types of plastics and to what degree are they degradable?

Answer 34

1. Oil-derived, non bioddegradable polymers
2. Oil based,biodegradable
3. Bio-based biodegradable → can be completely mineralized

Question 35

What is necessary for degradation of plastics?

Answer 35

Hydrolyzable bonds

Question 36

What is the current “economy” of the plastic industry?

Answer 36

It is a linear economy of ‘take, make and dispose’ with limited recycling

Question 37

What should the plastic “economy” be turned into?

Answer 37

• A circular production cycle where plastics are re-used, recycled and upcycled through their conversion to valuable products such as biodegradable polymers
• Introducing biodegradable plastics to this model through the upcycling of waste would allow the return of the carbon to nature in a managed, safe, and sustainable way