Monthly Archives: August 2010

Prof. Ian MacDonald, FSU, Testimony Aug19_2010 US House Rep.

Reprint of, original article:

Testimony for Energy and Environment House Subcommittee:

Thursday, 19 August 2010, 10:00 AM ‐‐ Room 2123 Rayburn House Office Building
The BP Oil Spill: Accounting for the Spilled Oil and Ensuring the Safety Seafood from the Gulf

My name is Ian MacDonald. Thank you for inviting me to testify for your committee. I am a professor of
oceanography at Florida State University and a member of the steering committee for the Florida Oil
Spill Academic Task Force. You have my CV. I have conferred extensively with colleagues on the matters
before this committee; however, my testimony today is solely on my own opinions and findings. I will
confine my remarks to questions of the extent and effects of the oil and oil/dispersant contamination
from the BP spill on the environment including marine life. Could I also testify, before I embark on
technical discussion, that I have spent 30 years of professional and private life travelling around, cruising
on, and diving to the bottom of the Gulf of Mexico. I deeply, fiercely love this ocean and its people.

I would first offer a critique of the report titled “BP Deepwater Horizon Oil Budget: What happened to the oil?” that was authored by NOAA and the DOI.

I believe this report is misleading and raises more questions than it answers. It purports to explain what
happened to the oil discharged from the broken well and what the effect of that oil could be on the Gulf
of Mexico environment. The findings are summarized in a single pie‐diagram, which lists several
categories of oil, each as an exact percentage of the total oil released. This graphic is misleading
because it mixes very different categories together and makes sweeping and largely unsupported
arguments about the fate of each category in the Gulf of Mexico environment.

First of all, the chart includes as part of the total, oil pumped into tankers from the various caps and
other tools, oil which was never discharged into the ocean. This inflates the total amount by 17% and
gives the impression that the clean‐up efforts were more effective than they actually were. The press
has widely reported variations of Carol Browner’s statement (1) that “more than three quarters of the oil is
gone.” This statement does not stand up to scrutiny. The report discusses oil “released from the well.”
The difference in meaning of the terms “released,” meaning oil that came out of the well, and
“discharged,” meaning oil that escaped into the environment ‐‐ under the definitions of the Oil Pollution
Act (OPA) of 1990, blurs the distinction between oil that can harm the environment going forward and
oil that posed no such threat once it was pumped into waiting tankers. In all of my following statement,
I recalculate percentages based on the discharged amount.

The total volume of discharged oil was slightly more than 4.1 million barrels. Of this, the NOAA report
cites data from the Unified Command Response Effort indicating that 6% was burned and an additional
4 % was skimmed. Thus, only 10% of the oil in the ocean was actually removed from the ocean. The
response effort has dispersant application records suggesting that chemical dispersion broke down an
additional 10% of the oil, thereby allowing it to become diluted in the ocean. These data account for
only 20% of the discharged oil. Fully 90% of the discharge was not removed from the marine
1 Carol Browner, Wednesday, August 4th, 2010 in NBC’s “Today Show.”
environment by human agency; a fraction; perhaps 10%, will have evaporated into the air. The balance
remains in the marine and coastal ecosystem even if it has changed form and become less visible.

Explanation for the fate of almost 90% of the discharge (3.3 million barrels) has been based solely on a
theoretical model, which the report calls an “Oil Budget Calculator” composed of “scientific estimation”
and “algorithms.” There appear to be no samples or measurement to support these claims. My strong
criticism is that neither the report nor its on‐line references 2 provides any citations of scientific
literature, formulas, or actual algorithms that would allow an independent reviewer to determine where
these numbers actually come from. In short, it is impossible to check the calculations of this crucial
report. So when the report claims that 26% of the released oil (31% of the discharge) is residual, i.e. still
present in the ocean or its soils and still harmful to the environment, we really cannot check whether
this number should actually be 36% or 19%. The committee should note that this residual estimate of
1.3 million barrels is 5 times the discharge from the MV EXXON VALDEZ, so a shift of percentage points
would be significant.

Finally, for the oil still in the ocean, the report makes the claim that the oil in all its forms in the ocean “is
biodegrading quickly.” It is my testimony to this committee that science simply does not know how
quickly or slowly oil will degrade either in surface waters or in the deep waters of the Gulf. Preliminary
evidence suggests that oxygen depletion has been minimal compared with the quantities of oil and gas
discharged, which would indicate a slow rate of degradation. The residual oil that has resisted
dispersion and evaporation will be very persistent. Judging from past spills in the Gulf, this material will
remain potentially harmful for decades. I expect the hydrocarbon imprint of the BP discharge will be
detectable in the marine environment for the rest of my life. The oil is not gone and is not going away
anytime soon.

I would like to comment briefly on an aspect of the discharge that has received scant attention from the Unified Command, namely the magnitude of the gas discharged by the BP spill.

The Macondo Field product contained a high proportion of hydrocarbon gas, i.e. methane, ethane,
propane, butane, pentane, etc. Indeed the enormous pressure of this gas in the reservoir and certainly
its explosive properties contributed greatly to the tragedy of the DEEPWATER HORIZON. However, all
the reports of the pollutant load discharged from the well have been issued in barrels‐‐a unit of liquid
volume‐‐and have ignored the gas. In fact, if calculated in equivalent units of weight (mass) or energy
(barrel of oil equivalents), the magnitude of the oil plus the gas is equal to 1.5 X the oil alone. In other
words, it is my testimony that if 4.1 million barrels of oil were discharged, the total discharge in barrel of
oil equivalents (oil plus gas) was actually over 6 million barrels.

The Unified Command has made no mention of this gas, but it should not be ignored. Because the
discharge occurred at 5000 ft depth, all the material rising toward the surface or drifting in subsurface
plumes is in the ocean for hours, days, or months and can have a significant chemical and biological
effect. So the hydrocarbon gas meets the OPA definition of “discharged.” The hydrocarbon gas is highly

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soluble in the deep, cold waters of the Gulf. Based on previous measurements,3 much of the gas
released at depth will dissolve before it reaches the surface. Microbes degrading this material will
compete for nutrients (like oxygen) with those attacking oil and will significantly affect the overall
degradation process held to be so important by NOAA and DOI. Fish exposed to concentrated methane
have exhibited mortality and neurological damage. The hydrocarbon gas was a major component of the
total pollution load discharged from the BP well.

My next comment concerns the so‐called “resilience” of the Gulf of Mexico.

As a fair reading of the Oil Budget Report affirms, the northeastern Gulf of Mexico received a massive
dose of hydrocarbon. Hundreds of miles of shoreline in four states were oiled, shoreline that includes
numerous distinct habitats, each with its individual value and vulnerability. The seabed, crucial for
oyster, shrimp, and crab fisheries, as well as for its indispensible roles in nutrient recycling and marine
food webs, has been sprinkled with tar‐balls over thousands of square miles. Buried oil impacts seafloor
life and is readily exhumed by storms and potentially by upwelling to cause more damage to the coast.
The oceanic surface, the zone of plankton production that drives the food web of the entire system, has
endured months of volatile organic toxins from the floating oil. Some species could swim below the
worst effects. Other species, including whales, sea turtles, flying fish, sargassum communities, and the
larvae of many recently spawned species to name a few, were trapped in the zone of greatest exposure.

This total insult was not delivered to a vibrant and healthy ocean, rather to marine and coastal
ecosystems already greatly stressed by serious existing problems. Let us not overlook the hypoxic dead
zone, the fishing closures for shrimp and fin fish due to declining stocks, and the accumulated effects of
coastal development and runoff. The Gulf can and will rebound, but how much and how fast it does so
will take years to determine. In many cases, we do not know how the impact will occur because the
experiments have not been carried out. For many species, the impact could be occurring at every life
stage. Consider reef fish that have complex life cycles. Eggs and larvae could be hit at the surface by oil;
those that survive to reach coastal estuarine nursery habitats could be hit again because oil entered
coastal marshes and seagrass beds; and the adults in their benthic existence could have oil components
magnified through trophic webs as they eat species that have taken in oil in the diet. This could have
indirect effects on their fecundity (number of eggs they produce) and on their general condition and
ability to survive.

My immediate concern is for a decline in the productivity and diversity in broad sectors of the
ecosystem. As a percent of the total‐‐say 10%‐‐this effect might be difficult to demonstrate
scientifically, and perhaps even harder to prove in court. The sustained impact over years, particularly if
added to already stressed systems, could be severe. My greatest concern is that portions of the
ecosystem may experience “tipping point” effects that overwhelm resiliency. This has been the
 3 Leifer, I. and I. R. MacDonald (2003). “Dynamics of the gas flux from shallow gas hydrate deposits: interaction between oily hydrate bubbles and the oceanic environment.” Earth and Planetary Science Letters 21(3-4): 411-421.  Solomon, E. A., M. Kastner, et al. (2009). “Considerable methane fluxes to the atmosphere from hydrocarbon seeps in the Gulf of Mexico.” Nature Geoscience 2(8): 561-565.
page 4
scientific result in Prince William Sound after EXXON VALDEZ. And it is consistent with observations
after the Gulf Ixtoc blow out. We can hope that mitigating factors ‐‐depth, distance from shore, dilution,
a light oil product, etc. will mitigate the impact. It is not enough to hope however; we have to watch
with utmost scrutiny and respond quickly wherever there is the chance of mitigation.

I suggest that we monitor a set of key indicator species and habitats of special concern. By focusing on
individual species, we have the chance of verifying damage, or hopefully sustained recovery. In
consultation with colleagues from the Florida Oil Spill Academic Task Force, the National Wildlife
Federation, and elsewhere, I have compiled a preliminary list of watch species and habitats‐‐appended
to my testimony. I will not read it here, I would ask this be entered into the record, and I ask my
learned colleagues at NOAA, NMFS, FWS, and other agencies to please consider this approach.

My final comment concerns the debt we owe to our Gulf of Mexico.

Consider the three points I just made: that the majority of the oil persists in the environment, that the
gaseous fraction of discharge has not been adequately addressed, and that the ecological impact will
take years to assess and mitigate. It is clear that the sincere and strenuous efforts of our responders
barely have made a dent in cleaning up the ecological impacts created by BP’s exploded well. The Gulf
of Mexico system has been required to dispose of some 3.7 million barrels of oil and an additional 1.8
million barrel‐of‐oil‐equivalents of gas. The circumstances of discharge‐‐deep in the ocean, far from
land‐‐spreads the impact over an unprecedented geographic extent of the ocean basin. As noted, this
cannot happen without lasting damage. We are making Mother Nature clean up our big mess and she is
suffering for it.

Over the past three months, the people of the region, and of the entire country, have undergone a
traumatizing sympathetic reaction to the Gulf’s suffering. Now that the acute phase appears to have
passed, what have we learned? Even though it is unthinkable to imagine a Gulf of Mexico without her
oystermen, shrimpers, beach‐goers, boaters, and recreational fishermen, this culture and way of life will
not continue unless the Gulf is restored to health and placed on a path toward rejuvenation.

How should this be done? Much as I sympathize with the economic hardship caused by the BP
discharge and desire that restitution be paid, a big part‐‐the biggest part‐‐of our response must put the
Gulf herself first in line for repayment. A massive and unfaltering effort must be launched to restore,
understand, and sustain the coastal and marine ecosystem of the Gulf of Mexico in perpetuity. What I
mean are the coastal wetland restoration plans already formulated in Louisiana, but stalled for lack of
funds. I mean the creation of extensive marine protected areas to preserve marine biodiversity, which
will require public education and enforcement. I mean mitigation of farming practices in the Mid West
that burden the Mississippi River with excessive nutrients. I mean regulation and subsidies to treat
residential sewage in coastal development. The list is very long and the costs are high and recurring.
4 Peterson, C. H., S. D. Rice, et al. (2003). “Long-Term Ecosystem Response to the Exxon Valdez Oil Spill.” Science 302(5653):  2082-2086.
page 5
Fortunately, we do have visionary leadership in this regard in the U.S. Congress. I am speaking of the
bipartisan legislation 5 proposed by Senators Snowe and Whitehouse and supported by Florida’s Senator
Nelson that would create a permanent Ocean Endowment to protect, conserve, restore, and understand
the Nation’s oceans, coasts, and Great Lakes. This endowment would be funded by criminal fines and
fees on the offshore industry. The need and the way forward could not be more clear. Certainly the
House and Senate and hopefully the two parties can work together for this worthy legislation. You will
be joined by massive support from the people of the Gulf of Mexico region.
5 S.3641 National Endowment for the Oceans Act
page 6 Appendix: Draft list of species and habitats that could serve as indicators of marine and coastal ecosystem health.

Oceanic species–
Tuna— Three important species are blue fin, yellow fin, black fin. The adults will have been able to avoid concentrations of oil, but the larvae will be vulnerable. Our baseline knowledge of population levels are poor. Yellowfins are a hugely important recreational species and changes in landings may give a clue–next year! Blue fin tuna are already severely stressed by fishing pressure.
Sea turtles–Three species of sea turtles are critically endangered, two are endangered, and one is vulnerable and there have been a number of reported moralities. 
Sperm whales–also a vulnerable species. One confirmed mortality–the area of the major concentration of the spill corresponds to the normal summer feeding grounds of a resident sperm whale population in the Gulf of approximately 200. It will be crucial to evaluate this population post spill. 
Other cetaceans–pilot whales (status unknown), spinner dolphin (status unknown), even orcas (status unknown). 
Sargassum communities–this comprises the diverse assemblage of fish and invertebrates associated with floating masses of sargassum plants.

Forage Species
* Flying fish–a particularly vulnerable species because they live in the upper most layer of the water where the floating oil was concentrated and where they feed on plankton. They are an important forage species for larger sport fish, including mackerel, tuna, swordfish, marlin, dolphins, porpoises. 
Menhaden – filter feeders, critical forage species for many economically important fishes. Also the third largest fishery in the country with catch going into industry and livestock feed.

Coastal species
Brown pelicans–a previously threatened species with rookeries badly hit. 
* Bird species including gannets (which live offshore and “monitor” those conditions) and oyster catchers Saltmarshes–I’m very worried about the channel edges that got oiled. If there is a die back of the oiled edge, the result would be that the channels are dilated–even a 5-10% dilation would potentially have a huge impact on wetland hydrography. 
Coquina (Donax)–bivalves living in oiled beach sands. Important burrowers.
Fiddler crabs, mole crabs, ghost crabs–vital for aerating the soils. All burrowers are very important for keeping the sand aerated. Burrowing will be inhibited by buried oil. And lack of aeration will tend to preserve buried oil. A vicious circle. 
Marsh periwinkle (Littoraria irrorata) are very abundant grazers who might be impacted by buried oil. 
All three species of commercial shrimp (Penaeus) occur in coastal waters and may be impacted by oil on the seabed.

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The oceanic and coastal plankton need to be closely monitored using satellite methods and direct sampling. This is the base of the food chain and it is also potentially the source of harmful algal blooms that can affect human health.

Microbial community
The bacterial assemblage that breaks down oil could be a sensitive indicator of residual oil in the environment–even if the oil is not directly detectable. The disappearance of oil degrading microbes might then indicate complete disappearance of oil. 
Shelf-edge and Slope species
* Any of the offshore habitat engineers in these habitats could be important indicator species because they serve as the focus for community development and biological diversity and because they actively manipulate the sediment, contributing significantly to the three-dimensional architecture of the seabed. These would include things like red grouper on the shelf edge which creates holes roughly 15 ft across and 3-6 ft deep (density in gulf of mexico ~250/km2) ; tilefish on the slope because of the pueblo-like burrows they create (density in gulf of mexico 600-1600/km2)
 * Sharks, which are top-level predators and comprise many threatened species

Deep Sea Corals
Cold-water corals are widely distributed throughout the Gulf of Mexico
( While there is tremendous
need to know more about the distribution and composition of these deep-water communities (the
structure), it is also essential that we gain greater understanding of their function in terms of
ecosystem services and their response to the presence of dispersants/oil combinations and oil

Across Depth Strata
Sponges and soft corals provide a suite of ecosystem services, including filtering water,
nutrient cycling, providing nursery habitat and shelter for a diverse group of fishes, shrimps,
crabs, etc. We know little about their distribution, composition and function in most sites from
inshore to the deep sea.
End Reprint of original:
Testimony for Energy and Environment House Subcommittee:

Thursday, 19 August 2010, 10:00 AM ‐‐ Room 2123 Rayburn House Office Building

The BP Oil Spill: Accounting for the Spilled Oil and Ensuring the Safety Seafood from the Gulf

Mississippi Shrimpers Refuse to Trawl

Mississippi Shrimpers Refuse to Trawl, Fearing Oil, Dispersants
By Dahr Jamail
The Mississippi Sound was recently reopened, but Mark Stewart and other commercial fishermen fear oil and dispersants, and refuse to fish.  BILOXI, Mississippi, Aug 20, 2010 (IPS) – The U.S. state of Mississippi recently reopened all of its fishing areas. The problem is that commercial shrimpers refuse to trawl because they fear the toxicity of the waters and marine life due to the BP oil disaster.

“We come out and catch all our Mississippi oysters right here,” James “Catfish” Miller, a commercial shrimper in Mississippi, told IPS. Pointing to the area in the Mississippi Sound from his shrimp boat, he added, “It’s the only place in Mississippi to catch oysters, and there is oil and dispersants all over the top of it.”
On Aug. 6, Mississippi’s Department of Marine Resources (DMR) and the Mississippi Department of Environmental Quality, in coordination with the National Oceanic and Atmospheric Administration and the U.S. Food and Drug Administration, ordered the reopening of all Mississippi territorial waters to all commercial and recreational finfish and shrimp fishing activities that were part of the precautionary closures following the BP oil rig disaster in April. At least five million barrels flowed into the Gulf before the well was shut earlier this month.

But Miller, along with many other commercial shrimpers, refuses to trawl.

Miller took IPS out on his shrimp boat, along with commercial shrimper Mark Stewart, and Jonathan Henderson of the Gulf Restoration Network, an environmental group working to document and alleviate the effects of BP’s oil disaster.
The goal was to prove to the public that their fishing grounds are contaminated with both oil and dispersants. Their method was simple – they tied an absorbent rag to a weighted hook, dropped it overboard for a short duration of time, then pulled it up to find the results. The rags were covered in a brown oily substance that the fishermen identified as a mix of BP’s crude oil and toxic dispersants. 

Miller and Stewart, who were both in BP’s Vessels of Opportunity programme and were trained in identifying oil and dispersants, have been accused by some members of Mississippi’s state government of lying about their findings.  “Why would we lie about oil and dispersant in our waters, when our livelihoods depend on our being able to fish here?” Miller asked IPS. “I want this to be cleaned up so we can get back to how we used to live. But it doesn’t make sense for us or anyone else to fish if our waters are toxified. I don’t know why people are angry at us for speaking the truth. We’re not the ones who put the oil in the water.”

IPS watched Miller and Stewart conduct eight tests in various places around Mississippi Sound. One of them was less than a quarter mile from the mouth of Pass Christian Harbor, and another was less than one mile from a public beach. Every single test found the absorbent rags stained with brown oil.

During an earlier test round, the two fishermen brought out scientist Dr. Ed Cake of Gulf Environmental Associates.  Dr. Cake wrote of the experience: “When the vessel was stopped for sampling, small, 0.5- to 1.0-inch-diameter bubbles would periodically rise to the surface and shortly thereafter they would pop leaving a small oil sheen. According to the fishermen, several of BP’s Vessels-of- Opportunity (Carolina Skiffs with tanks of dispersants [Corexit?]) were hand spraying in Mississippi Sound off the Pass Christian Harbor in prior days/nights. It appears to this observer that the dispersants are still in the area and are continuing to react with oil in the waters off Pass Christian Harbor.”   Shortly thereafter, Miller took the samples to a community meeting in nearby D’Iberville to show fishermen and families. At the meeting, fishermen unanimously supported a petition calling for the firing of Dr. Bill Walker, the head of Mississippi’s DMR, who is responsible for opening the fishing grounds. On Monday, Aug. 9, Walker, despite ongoing reports of tar balls, oil, and dispersants being found in Mississippi waters, declared “there should be no new threats” and issued an order for all local coast governments to halt ongoing oil disaster work being funded by BP money that was granted to the state.  Recent days in Mississippi waters have found fishermen and scientists finding oil in Garden Pond on Horn Island, massive fish kills near Cat Island and Biloxi, “black water” in Mississippi Sound, oil inside Pass Christian Harbor, and submerged oil in Pass Christian, in addition to what Miller and Stewart showed IPS and others with their testing. 

“We’ve sent samples to all the news media we know, here in Mississippi and in [Washington] D.C.,” Stewart, a third generation fisherman from Ocean Springs, told IPS. “We had Ray Mabus’s people on this boat, and we sent them away with contaminated samples they watched us take, and we haven’t heard back from them.”
Raymond Mabus is the United States secretary of the Navy and a former governor of Mississippi. President Barack Obama tasked him with developing “a long-term Gulf Coast Restoration Plan as soon as possible.” Mabus has been accused by many Gulf Coast fishermen of not living up to his task. 

Stewart told IPS, “Normally we have a lot of white shrimp in the Sound right now. You can catch 500 to 800 pounds a night, but right now, there are very few people shrimping, and those that are, are catching nothing or maybe 200 pounds per night. You can’t even pay your expenses on 200 pounds per night.”
“We think they opened shrimp season prematurely,” Miller told IPS, “How can we put our product back on the market when everybody in America knows what happened down here? I have seen so many dead animals in the last few months I can’t even keep count.”

On Thursday, several commercial shrimpers, including Miller and Stewart, held a press conference at the Biloxi Marina. Other fishermen there were not fishing because they feared making people sick with seafood they might catch.  “I don’t want people to get sick,” Danny Ross, a commercial fisherman from Biloxi told IPS, “We want the government and BP to have transparency with the Corexit dispersants.”  Ross said he has watched horseshoe crabs trying to crawl out of the water, and other marine life like stingrays and flounder trying to escape the water as well. He believes this is because the water is hypoxic due to the toxicity of the toxic dispersants, of which BP admits to using at least 1.9 million gallons.

“I will not wet a net and catch shrimp until I know it’s safe to do so,” Ross added. “I have no way of life now. I can’t shrimp and others are calling the shots. For the next 20 years, what am I supposed to do? Because that’s how long it’s going to take for our waters to be safe again.”

David Wallis, another fisherman from Biloxi, attended the press conference.  “We don’t feel our seafood is safe, and we demand more testing be done,” Wallis told IPS. “I’ve seen crabs crawling out of the water in the middle of the day. This is going to be affecting us far into the future.” “A lot of fishermen feel as we do. Most of them I talk to don’t want the season opened, for our safety as well as others,” Wallis added, “Right now there’s barely any shrimp out there to catch. We should be overloaded with shrimp right now. That’s not normal. I won’t eat any seafood that comes out of these waters, because it’s not safe.” 

"Giant Pools of Oily Tar Balls" big as watermelons

ALERT: Divers find seafloor near beaches “COVERED” in “brown residue” from MS to Florida — KIDS swimming around “GIANT POOLS of oily tar balls” big as watermelons…………………………..The parents of the children swimming around the “giant pools of oily tar balls on the muddy bottom in just 20 feet of water, some as big as watermelons” should watch this video:  Oil in the Gulf is “VERY RESISTANT to further biodegradation” — “Full toxic form for decades” according to multiple scientists testifying at the August 19 Congressional oil spill hearings

The World’s People Reject Genetic Pollution of Food

French citizens destroy trial vineyard

Early Sunday morning, French police stood help less as sixty people, locked inside an open-air field of genetically modified grapevines, uprooted all the plants. In Spain last month, dozens of people destroyed two GMO fields. On the millennial cusp, Indian farmers burned Bt cotton in their Cremate Monsanto campaign. Ignored by multinational corporations and corrupt public policy makers, citizens act to protect the food supply and the planet.

The French vineyard is the same field attacked last year when the plants were only cut. But the security features installed after that incident kept authorities at bay while the group accomplished its mission yesterday.

Speaking for the group, Olivier Florent told Le Figero that they condemned the use of public funds for open-field testing of GMOs “that we do not want.”   Pitching tents in the rain near France’s National Institute for Agronomic Research (INRA) site in Colmar the night before, the group waited until 5 AM before converging on the site and locking the gates behind them. They uprooted all 70 plants, then submitted to arrest.

This is the second attack on GMO crops to make international news this year. In July dozens of people destroyed two experimental corn crops in Spain. In an anonymous press release, they wrote, “This kind of direct action is the best way to respond to the fait accompli policy through which the Generalitat, the State and the biotech multinationals have been unilaterally imposing genetically modified organisms.”

In the 1990s, Indian farmers burnt Bt cotton fields in their Cremate Monsanto campaign. Monsanto did not disclose to farmers that the GM seeds were experimental. “Despite the heavy use of chemical fertiliser, traces of which still can be observed in the field, the Bt plants grew miserably, less than half the size of the traditional cotton plants in the adjacent fields.”

Read rest of article here:

Feds finally admit oil buried “14 inches under the sand” near Destin, Florida

EPA finds buried oil on Walton beaches   August 13, 2010 7:00 AM  Florida Freedom Newspapers   WALTON COUNTY – Officials from the Federal Environmental Protection Agency were on Walton County’s Beaches this week digging holes and finding oil product as deep as 14 inches under the sand.  According to the operations and response website,, the sand also contained pea-size tar balls that were weathered and have been present for an extended period. Cleanup crews were gone by 1:30 p.m. because of the day’s heat.  The Tuesday evening report came from the west-end curve of Scenic Highway 30A.

Bangor, Maine TV report of Matthew Simmons death.

According to autopsy Matthew Simmons died of “drowning possibly complicated by heart disease.”
Glowing local report of Mr. Simmons’ contribution to the community he frequented in the summer.  Gave details of public announcement Mr. Simmons had made 3 weeks prior to his death concerning plans to go forward with laboratory research for wind energy from Maine’s ocean tides.  Nothing whatsoever was mentioned about Simmons’ numerous Gulf of Mexico interviews with MSNBS’s Dylan Ratigan, and Bloomberg TV, and at least one interview with each FOX news and CNN, plus independent radio programs of the past 3 months.

I’d say that this is a very tidy obituary, if it weren’t for the very frustrated urgent interviews the man had been engaged in for the past 3 months.  I know folks die every day, but the timing here is still questionable, and the things Matt Simmons said have not been proven or disproved.  I want to know.