Cover to ACLU report, “Tainted Waters,” by John Lantigua, released 6-7-17.
Civil Lib·er·ty/(definition) noun “the state of being subject only to laws established for the good of the community, especially with regard to freedom of action and speech. individual rights protected by law from unjust governmental or other interference.”
Today I am sharing a report that came out only yesterday and is spreading through social media and news channels like ~ toxic algae…
“Tainted Waters, Threats to Public Health, and People’s Right to Know” is written by award-winning journalist and ACLU investigative reporter, John Lantigua.
After being contacted, Mr Lantigua approached me and many others months ago, traveling and interviewing numerous stakeholders from various backgrounds. He was a consummate professional with an air that only an experienced, savvy, and hard-hitting journalist can attain. I will never forget being interviewed by him at a diner in Belle Glade and saying to myself: “Holy cow, this is the real deal…”
In today’s TCPalm article by Tyler Treadway, Mr Lantigua states: “We don’t typically focus on environmental concerns but getting timely and trustworthy information about a public health issue is a civil right…”
Thank you Mr Lantigua for recognizing the “lack of urgency and transparency” on the part of the state of Florida in reporting information about the 2016 Toxic Algae Crisis caused by the Army Corp of Engineers and South Florida Water Management Districts’ releases of tainted waters from Lake Okeechobee into our St Lucie River/Indian River Lagoon.
Reporter, John Lantigua, 2017.
ACCESS REPORT “Tainted Waters, Threats to Public Health, and the People’s Right to Know,”HERE:
Lake O 239 square mile algae bloom, NASA satellite image, July 2, 2016.Toxic St Lucie River June 2016, photo pilot Dave Stone.Toxic algae flowing through locks from Lake O into SLR May 2016. Photo Ed and Jacqui Thurlow-Lippisch.
Sandbar, St Lucie River/Indian River Lagoon, Memorial Day Weekend, 5-29-17, Todd Thurlow.
Today I am comparing and contrasting photos of the St Lucie River/Indian River Lagoon in May of 2016 to photos in 2017. A Lake O dump year to a non-Lake O dump year. “A picture speaks a thousand words”…maybe more.
Jacqui
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Photos of the Sandbar at the confluence of the St Lucie River and Indian River Lagoon this Memorial Day weekend, 2017. Clear, clean water, although meadows of seagrass in Sailfish Flats has not yet returned.
Toxic algae blooms in St Lucie River/Indian River Lagoon in May and June of of 2016 due to dumping of Lake Okeechobee and area canals.
Sandbar area May/June 2016Sandbar 2016, JTLC-44 Lake Okeechobee dumping into St Lucie River May 28 2016. Photo JTLSt Lucie River May 2016, Shepherd’s Park. JTLSt Lucie River, May 2016. ,L.D.
1st Methodist Church, Belle Glade, post 1928 Hurricane, courtesy Lawrence E. Will Museum of the Glades, 2017.
Today I am sharing a very moving and disturbing historic letter written in the days following the hurricane that killed thousands of migrant workers and pioneer farmers south of Lake Okeechobee on September 16th, 1928. It is not an easy letter to read; please be warned. I do not believe it has ever been shared publicly before…
So how did I come upon this remarkable letter?
In January of 2017 I made it my goal to learn more about the communities south and around Lake Okeechobee. At this time, after a discussion with my historian mother, I offered my services as a volunteer at the Laurence E. Will Museum of the Glades in Belle Glade. This made sense as my mother’s friend, and Stuart local, Linda Geary, had opened the museum. Thankfully, present Museum Director Dorothy Block accepted my offer.
For weeks I went through old files and later, myself and a young Pahokee student from Palm Beach Community College scanned hundreds of photographs of the 1928 Hurricane for archival purposes. This was quite the education.
After one of my “museum days,” while having dinner at my parents, my mother, noting my interests in the 1928 Hurricane subject gets up from the table saying: “I do think I have a letter written after the 1928 Hurricane. It was given to me by Iris Wall.” (Some of you know, Iris Wall is a legend of Indiantown and the state of Florida.)
When my mother brought the hand written letter down, I read it out loud at the table, struggling with some of the cursive handwriting of the era. In spite of not getting every word, at one point tears streamed down my face. To think of what Floridians lived through, and reading it first hand almost a century later really puts things in perspective. I have read and listened to many first hand accounts of the storm, but this may top them all…
Letter About the Aftermath of the 1928 Hurricane, transcribed by historian Sandra Henderson Thurlow. Letter was given to Sandra by Mrs Iris Wall of Indiantown in 2003.
Tuesday Nite
Dear Papa:
We arrived here at four A.M. this morning and tried to sleep for an hour and a half then started to work. This is undoubtedly as bad a mess as I ever care to see. They are bringing in dead people all the time and they are swollen up about as big as cows and stink something awful. The old Dog Fennels are where they are lodged up. The water is about three feet over the farms and deeper in other places. The town is about two feet deep all over. Everything is ruined. Houses look like trash heaps—lot of them are scattered for a mile, just a piece here and there. Dead cows and hogs everywhere. The place smells like a corpse. It is awful but I am about used to smelling it now. Don’t know what I will do when I smell fresh air again. The water in the lake is awful on account of the dead things in it. They will not allow us to even bathe as all the water we get comes in on boats and is used to drink and cook with. We cannot even shave on account of the danger of cutting ourselves and getting it infected and we have to [be] looked over ever so often and any scratch doctored.
Awful does not describe it at all. I saw one man identify his father, mother, and brother and wife in a batch of bodies brought in. Now that was a pitiful sight. He had not closed his eyes since Friday looking and waiting for them and then to find them all downed and they were in awful shape. Hardly any clothes left on them, just rags. One man identified his fifth child this afternoon and his wife is still missing. One old man about eighty identified his wife this morning when they brought her in with hardly a rag on her, that was awful to see the old fellow. Some bodies come in with all the skin and hair gone and their eyes swollen until they have busted and their tongues sticking out and swollen larger than your hand and their faces all out of shape. One man brought in here looked as tho he would weigh about 250 pounds they said only weighed about 110.
They do not embalm them any more, just put them in a box and haul them to Cities Center and bury them. Two trucks have been busy now two days hauling bodies out to the solid ground and two hauling in coffins. I guess they built about 20 coffins out of rough lumber today and they have to wait for boxes –some bodies have to lay on the ground for several hours before they have any thing to put them in.
The State is sending in a bunch of antitoxin to inoculate us with tomorrow to prevent us from getting sick. I saw a paper today but they don’t describe it near as bad as it is.
The town is under Martial Law and they are sending people out of here as fast as they can get a means of getting them out. They have to get them out because there is no place for them to sleep and nothing for them to eat.
I took a second lieutenant in tow this afternoon. He was drunk and just raising sand and Chesterfield told him to quiet down and he was in for getting his gun and he was standing right in front of me. I grabbed his arm and got a “Hammer Lock” on him and believe me he hit the ground like a sack of sand and…I held my holt until a deputy took him over. That is the only fun I have had since I left Arcadia.
I am on guard duty now and have been on for eight straight hours. Got up at 5:30 and it is nearly two A. M. now. How is that for a day. All I have to do is sit here and see that there is no stealing. My orders are to stop them and if they did not stop use my own judgement. Things are pretty quiet so don’t guess I will have any trouble. Most of the people are gone and no one is allowed in here.
There are houses or rather what is left of them, with lily pads on top of them the water was so high. The people say that when the dykes broke the water came in a wall and a lot of people were drowned before they could get out of it. Cars are left in the road right where the water caught them. There is a steel coal care one mile from the track and two big Gul Ref. Co tanks about four miles from town where they were washed. The water just picked up about a mile of the railroad track and just turned it bottom upwards. Now that was some force. The embankment was not washed away either.
Well, Papa, it is time for my relief so will close and try to mail this tomorrow.
Love to you all
Dick
No need to write as no mail comes in and I will have to meet a train or find someone who will to mail this as the train does not come closer that 12 miles. DBJ
Award winning conservation, hunting and fishing journalist, Hal Herring over S-308, the connection from Lake Okeechobee to canal C-44 and the St Lucie River/IRL, JTL 5-13-17Award page Hal Herring, from his web site
At the recent Bullsugar “Fund the Fight” event, Captain Mike Connor introduced me to Montana based, award-winning fishing and hunting journalist, Hal Herring. I looked Hal straight in the eye, shook his strong hand and said, “It’s so nice to meet you Mr Herrington.” He smiled, eyes sparkling, and replied, “Herring mam. Like the fish.”
Fly Life Magazine writes: “Herring, one of the leading outdoor writers of our time, co-manages the Conservationist Blog for Field & Stream, is the author of several books and is a regular contributor to numerous other well-known outdoor news outlets including High Country News, Montana’s Bully Pulpit Blog and the Nature Conservancy magazine.”
To say the least, I felt honored to be chosen as a tour guide for Hal Herring as my husband and Mike Connor arranged an aerial journey for the visiting journalist. After researching Hal, checking out his website, and reading his article on the Clean Water Act, I knew I was dealing with a gifted journalist. What a great person to have learn about the problems of our St Lucie River!
Hal Herring and JTL, Baron’s back seatContemporary Florida canal map ACOE/SFWMD1839 military/Everglades mapDan, Ed, Hal and JTLCanals C-23, C-24, C-25 and most southerly C-44 connected to Lake Okeechobee.
We prepared the Baron for Saturday. My husband Ed invited friend and fellow fisherman Dr Dan Velinsky. The flight stared with a rough take off. I steadied myself. “Please don’t let me puke Lord…” As Ed gained altitude, things settled down and we were on our way…
After taking off from Witham Field in Stuart, we followed the dreadful C-44 canal west to Lake Okeechobee; diverting north at the C-44 Reservoir under construction in Indiantown; traveled over the FPL cooling pond and S-308, the opening to C-44 and the St Lucie River at Port Mayaca. Next we followed Lake Okeechobee’s east side south to Pahokee, and then Belle Glade in the Sugarland of the EAA; here we followed the North New River Canal and Highway 27 south to the lands spoken about so much lately, A-1 and A-2 and surrounding area of the Tailman property where Senate Presidient Joe Negron’s recently negociated deeper reservoir will be constructed if all goes well; then we flew over the Storm Water Treatment Areas, Water Conservation Areas, and headed home east over the houses of Broward County inside the Everglades. Last over West Palm Beach, Jupiter, north along the Indian River Lagoon and then back to the St Lucie Inlet. Everywhere the landscape was altered. No wonder the water is such a mess…
See red triangle left of right circle. This area of A-1 and A-2 and the reservoir is to be located on top of and closebyOld orange grove being made into the C-44 Reservoir/STA, IndiantownFPL cooling pond on edge of Lake O, IndiantownS-308 at Lake O, Port MayacaOver Lake OA-1 and A-2 area, southern EAA with WCA on leftEdge of Conservation areas next to A-1 and A-2 areasBroward County built into EvergladesAlong the SE coast looking south, FPL’s St Lucie Nuclear Power PlantMartin County, St Luice Inlet
I explained the history, Dan told fish stories, Ed ducked in and out of clouds. All the while, Hal Herring took notes on a yellow legal pad with calmness and confidence. Nothing surprised him; he was a quick study in spite of all the variables. He was so well read, not speaking often but when he did, like a prophet of sorts. He spoke about this strange time of history, the time we are living in, when humans have overrun the natural landscape. He spoke about mankind being obsessed with transcending the limits of the natural world…and the control of nature…but for Hal there was no anger or disbelief, just wisdom. In his biography, he says it best:
“My passions as a writer and storyteller lie where they always have – in exploring humankind’s evolving relationship to the natural world, and all the failures, successes and deep tensions inherent in that relationship…”
In the Everglades region, Hal may just have hit the jackpot!
Today, May 12th, at 9:45 A.M. Governor Rick Scott is scheduled to sign Senate President Joe Negron’s “Senate Bill 10” in of all places Clewiston. Clewiston is “America’s Sweetest Town” and the headquarters of U.S. Sugar Corporation…
According to the article in the Glades County Democrat announcing the signing: “Earlier this week Senate Bill 10, a move to secure funding for a water storage reservoir south of Lake Okeechobee was approved. In its amended form, Senate Bill 10 became a measure that we in the Glades could stand behind. The bill no longer stated that additional farmlands be taken out of production but rather the state would utilize the property that it already owns to create a reservoir with a much smaller footprint.”
Although I am scratching my head, you know what? Sometimes you just have to be happy for what you get, no matter where you get it. I am tremendously thankful to Governor Scott for signing the bill ~ although I do wish he had decided to sign it in Martin County since we’ve worked so hard to get it.
When I read the announcement officially last night, it got me thinking about Clewiston before I went to sleep. It brought back memories of 2013 and famed paddle boarder Justin Riney’s idea to hold the Sugarland Rally in Clewiston on September 1st, 2013 to unite the movement. This was one of the early rallies for the river during the devastation of the “Lost Summer.”
Since Governor Scott is going to sign in Clewiston I think it’s a good time to walk down memory lane and be proud of how far we’ve come and to get ready for how far we have to go! The point of the location of the Sugarland Rally was to “meet halfway.” Hopefully Governor Scott is thinking the same, in that Joe Negron helped us meet half way and we are all thankful.
Now let’s remember the past, enjoy today, and then take it to the finish line!
“The Sugarland Rally will unite the east and west coasts of Florida in a peaceful, historic demonstration to speak out against the pollution of our estuaries from Lake Okeechobee discharges. We support both immediate and long-term solutions, but ecosystems and communities along the St. Lucie and Caloosahatchee Estuaries are in crisis. We cannot afford to wait for ecological and economic collapse. We urge all stakeholders–especially local, state and federal governments–to act immediately. We chose Clewiston as a central location to unify east and west at Lake Okeechobee, the source that is polluting our estuaries, and because we believe Florida’s sugar industry can be part of the solution. Please don’t misinterpret our intentions–we are NOT holding a rally at Clewiston to protest or point fingers at “Big Sugar.” It’s quite the opposite, actually. We invite Florida’s powerful sugar industry to join us in crafting an immediate solution to the ecological and economic crisis caused by discharges from Lake Okeechobee.” (Press release from Justin Riney, Aug. 2013)
SUGARLAND RALLY 2013
Maggy Hurchalla, Comm. Taylor, and Mayor RolandDon Voss!Nic Mader, Jenny Flaugh and the River KidzEve Samples of TC Palm and Don Voss with crowd
Today I am again honored to feature the writing of Professor Geoff Norris. This most recent work is a tremendous achievement of time, research, and puzzle piecing. Professor Norris’ past shared articles “Blue Green Algal Blooms in the Lakes, Rivers, and Marine Waters of South Florida Surrounding Lake Okeechobee,” and “Sugarcane and Indians” were extremely popular with many of my readers. Professor Norris has a way of communicating complex topics in an easy and interesting way so that everyone can understand and make the connections. In the 1960s Professor Norris lived and worked as a petroleum exploration geologist in Tulsa, Oklahoma. Subsequently, he spent 40 years at the University of Toronto teaching and performing research in geology. A geologist by training, Professor Norris has a specialized knowledge of fossil algae, their ecology, morphology, and distribution. He has published hundreds of scientific papers on fossil algae and related topics…I encourage you to contact him by email with any questions at rosalex@interlog.com
Thank you Professor Norris. “Together we will create a “better water future!”
Jacqui
Lake Okeechobee blue-green bacterial blooms in Florida: lessons from Lake Erie
In the following article, I have attempted to summarize some of the voluminous literature on Lake Erie and its problem blue-green blooms, and how this might help to understand similar events in Lake Okeechobee. I have included URL web addresses for some of the topics, which can be used to access further information.
Although the blooms are often referred to as blue-green algae, this is quite inaccurate and I can see no further point in perpetuating this misnomer. The blooms are largely or entirely composed of Cyanobacteria, or blue-green bacteria as I have chosen to call them for this article. This is not just for precision and to point up their lack of a nucleus and other organelles in each cell, but serves to underline how these organisms earn a living and perpetuate themselves that is quite different compared to nucleated organisms, the latter including algae, fungi, all green plants, and all animals. This difference is really important.
The topic is vast and my review barely scratches the surface – it’s not meant to, because I am not an expert and am still trying to understand the vast complexity of blue-green bacterial bloom formation. I have tried to unravel and clarify some of the science and scientific investigations that have been important for me, and have used these as examples of the work that is going on or has led to current advances. For every paper I have cited, however, there could be tens or hundreds more that haven’t been consulted or mentioned. I apologize in advance to those many talented scientists that I haven’t mentioned or that I am simply unaware of.
Steel Town
I used to live in Hamilton, Ontario, a prosperous city with thriving iron and steel mills, other manufacturing industries, an excellent university and a great football team, a sort of Pittsburg of the North. It sits on the shores of Lake Ontario on a sliver of land – the Niagara Peninsula – that separates Lake Erie from Lake Ontario. In the early summer after the ice had melted, many of the locals in the mid-1900s would take advantage of the beaches along Lake Ontario to sun themselves and wait until the water was warm enough to swim in. However, you could get a head start on summer by taking a short drive south (less than an hour) to the beaches along Lake Erie where the water was warmer earlier in the summer, and resorts and tourism thrived. Fish were abundant and the lake was very productive for commercial fishing and equally attractive for sport fishing. The beaches were superb for tourism and sun lovers. Lake Erie is large but shallow (average depth about 60ft) and so a baby on a Great Lakes scale from a volumetric point of view (most of the Great Lakes are hundreds of feet deep, the deepest being Superior at more than 1300 ft maximum depth). However, Lake Erie’s smaller volume and shallow waters helped it to warm up quickly in the spring and summer.
The Dead Sea of North America
Then something happened to Lake Erie, starting in the 1960s. The water of Lake Erie became murky and discolored, mass fish kills led to piles of rotting marine life polluting the beaches, the tourists and anglers and sun worshippers stayed away in droves, the resorts closed down, the commercial fisheries were badly hit, and the economy suffered enormously. Algae were blamed but no one was quite sure why they had become so abundant – “eutrophication” was the buzzword of the time. Lake Erie was declared “dead”, which was quite inaccurate since it was swarming with life, but the wrong sort of life. The culprits polluting the environment were a mixture of true green algae (such as Cladophora) and so-called “blue green algae” (such as Microcystis and Aphanizomenon), which in truth are types of bacteria using chlorophyll and other pigments that allow them to live in sunlight (their technical name is Cyanobacteria –called blue-green bacteria in this article), and this is discussed in more detail in my previous blog: https://jacquithurlowlippisch.com/tag/dr-geoffrey-norris/). The plight of the Dead Sea of North America (as Lake Erie became known) was so notorious that one of Dr Seuss’s books for children – The Lorax (1971) – made reference to it in his famous style of doggerel:
You’re glumping the pond where the Humming-Fish hummed!
No more can they hum, for their gills are gummed.
So I’m sending them off. Oh, their future is dreary.
They’ll walk on their fins and get woefully weary
In search of some water that isn’t so smeary.
I hear things are just as bad up in Lake Erie.
The Fix
Very fortunately the mystery of Lake Erie’s “death” was soon solved, thanks to a treaty between the U.S. and Canada dating back to the early 1900s that acknowledged the need to maintain water quality in the Great Lakes’ waters bordering the two countries.
By the middle of the 20th century this had morphed into the International Joint Commission for the Great Lakes. These international efforts were underpinned by government and university-based research in both the U.S. and Canada, which identified phosphorus entering the waters as a major contributor, particularly from agricultural fertilizers on the one hand and from domestic laundry detergents on the other. In 1972 the Great Lakes Water Quality Agreement (GLQWA) was signed between the United States and Canada, by Prime Minister Pierre Trudeau for Canada and President Richard Nixon for the United States. They loathed one another personally, but they knew what was the right thing to do for their countries.
Prime Minister Pierre Elliott Trudeau and President Richard Nixon signing the Agreement.
The Agreement emphasized the reduction of phosphorous entering lakes Erie and Ontario, and, in 1977, maximum levels for phosphorous were added to the Agreement. Also, phosphorus in laundry detergents was finally drastically reduced or banned. Coupled with the U.S. and Canadian Clean Water acts, the International Joint Commission did much to reduce the phosphorus levels in Lake Erie.
International Joint Commission (IJC): “More than a century of cooperation protecting shared waters. Canada and the United States each appoint three of the six IJC Commissioners, including one chair from each country. The two chairs serve concurrently.The Commissioners are appointed by the highest level of government in each country, but once appointed they do not represent the national governments; they operate at arm’s length.The Commissioners traditionally work by consensus to find solutions that are in the best interest of both countries. The Commissioners are supported by U.S. and Canadian Section offices in Washington, D.C. and Ottawa, Ontario.”
So everyone breathed a sigh of relief, phosphorus levels went down, farmers applied fertilizers to their fields differently, consumers chose phosphorus-free detergents, municipalities improved their storm water and sewage treatment facilities, the fish and other wildlife came back to Lake Erie, and Dr Seuss was persuaded to remove the last line in his poem. Further details can be found in a report by the National Wildlife Federation:
For almost 20 years, Lake Erie was not plagued by the blue-green bacteria problem, but other problems did emerge such as exotic zebra mussels that interfered with the distribution of elements important in nutrition, but they seemed at the time to be unrelated to bacterial infestations. Then starting in the mid-1990s, the blue-greens reappeared and became progressively worse leading to super-gigantic blooms that choked the western end of Lake Erie with green muck inches thick and hundred of square miles in extent. Dead zones – biological black holes – reappeared in the Lake as the rotting organic matter sucked the oxygen out of the water, promising certain death to animals that ventured in.
In the summer of 2011 the mother of all blue-green bacterial blooms exploded in Lake Erie, the bloom at its peak being more than 1900 square miles in extent. That is more than 50% greater than the entire state of Rhode Island, or 35% larger than Long Island, or more than six times larger than all of New York City’s five boroughs. This super-giant bloom had an estimated weight of 40,000 metric tons dry weight. The wet weights of algae and blue-green bacteria are generally at least 10 times the dry weight. So, this supergiant bloom had at least half a billion tons of blue-green bacteria living within it – a true monster.
MODIS (Moderate Resolution Imaging Spectroradiometer) satellite Image of Lake Erie on September 3, 2011, overlaid over map of Lake Erie tributaries. This image shows the bloom (in green) about 6 weeks after its initiation in the western basin. From Michalak et al, 2013.
These blooms had a devastating effect on the areas flanking the western end of Lake Erie – Ohio, Michigan, and Ontario – with large agricultural areas and several major cities and industrial towns. Toxins from the blue-green bacteria polluted the drinking water supplies of large cities, and potable water had to be trucked in for the residents.
The “greening” of Lake Erie has been documented by Prof. Tom Bridgeman of the University of Toledo in a presentation:
In his presentation Prof. Bridgman showed how increasing phosphorus in the lake water favored the blue-green bacteria and shut out the normal tiny floating plants (true algae), a situation that had culminated in the American Dead Sea catastrophe of the 1960s. The international agreement on phosphorus reduction in the Great Lakes was a huge success story for Lake Erie, but by the mid 1990s algal biomass was beginning to increase again (eutrophication was returning), and by the early 2000s blue green bacteria such as Microcystis were increasing ten-fold, as the reactive phosphorus in the lake waters increased beyond levels recorded in the 1970s.
What the heck was going on here? Everyone had played their part in reducing phosphorus run-off from agricultural lands, and the municipalities and citizens had cleaned up their act. So where was the phosphorus coming from? Well now the plot thickens.
Farming and Phosphorus
This time, the main problems are thought to be ones that governments have much less direct control over, according to a file posted by Emily Chung of the Canadian Broadcasting Corporation News (2014).
To some extent, they include the application of fertilizers to lawns and golf courses, growing expanses of pavement in urban areas that cause water to drain more quickly into waterways without being filtered by vegetation, and invasive zebra mussels that release extra nutrients into the water as they feed. But those aren’t thought to be the biggest cause.
“We think farming is the major culprit behind the current levels of phosphorus that’s in runoff and the phosphorus loads that are getting dumped into the western basin of Lake Erie,” said Dr. Glenn Benoy (senior water quality specialist and science adviser with the International Joint Commission in Ottawa).
Dr Glenn Benoy
So why is this? Well, there are several things going on. Firstly, corn production is at an all time high because of the push to increase alcohol biofuel production, and soybeans are being produced in gigantic quantities for use as animal feed, oil and protein for human consumption, plastics and biodiesel. Secondly, the introduction of no-till farming practice in the U.S. has led to increased run-off of fertilizer. Thirdly, there’s just not enough infrastructure to deliver in the spring the huge amounts of fertilizer that are required by the corn farmers. Prof. Ivan O’Halloran of Guelph University, Ontario and a specialist in soil fertility and nutrient use commented that the demand by corn farmers is such that there are simply not enough rail cars to satisfy the need. So companies offer discounts to farmers who are willing to apply fertilizer in the fall, which in turn leads to enhanced run-off of phosphorus during the winter storms.
Prof. Ivan O’Halloran
No-till Farming and Glyphosate
And then there is the matter of no-till farming. No-till farming (also called zero tillage or direct drilling) is a way of growing crops or pasture from year to year without disturbing the soil through tillage, and in current practice depends on the use of powerful herbicides such as glyphosate (Monsanto’s Roundup brand being the most popular formulation). Application of glyphosate kills weeds and other vegetation in preparation of the seedbed. Later in the year, another application of the herbicide is used to reduce weeds that might be harming the crop. However, this is only possible if the farmers use genetically modified seeds that are resistant to glyphosate – often referred to as Roundup Ready seeds. In 2014 in the U.S. 98% of soybeans and more than half of corn was Roundup Ready. Advocates of Roundup point out that glyphosate is a compound derived from phosphonic acid in which the phosphorus is strongly bonded to carbon and therefore is not available to plants, unlike fertilizer which contains phosphates (not phosphonates) which has phosphorus bonded less strongly to oxygen, and is therefore more readily available for uptake by plants (often referred to by the acronym DRP – dissolved reactive phosphorus).
Prof. Chris Spiese is a chemist at Ohio Northern University and he decided to test the contribution that glyphosate might make to the amount of dissolved reactive phosphorus running off of cultivated fields. He found that glyphosate acts on the soil to allow the phosphorus bonded to the soil (either being naturally present or due to fertilizer use) to be released by the chemical process known as desorption. He also found that soils richer in both iron oxides and iron hydroxides tend to release by desorption more phosphorus, as do soils that are more acidic. Overall, he calculated that glyphosate is responsible for releasing 20-25% of the dissolved reactive phosphorus in the Maumee watershed, a river discharging into the western end of Lake Erie. Prof. Spiese calculated that for every acre of Roundup Ready soybeans, one-third of a pound of phosphorus comes down the Maumee River. In 2010, according to the Ohio Soybean Council, 4.6 million acres were planted in soybeans, of which about 2 million acres of soybean fields drain into Lake Erie.
If Prof. Spiese’s calculation for the Maumee watershed hold true for all the soybean acreage in Ohio draining into Lake Erie, this would suggest that each year hundreds of tons of dissolved reactive phosphorus are entering the Lake from this source alone. And then there are the other states and provinces bordering Lake Erie that are also involved in soybean production: Ontario 2 million acres; Michigan 1.5 million acres; NW New York, 1/3 million acres; Pennsylvania 1/2 million acres. Of course, not all these agricultural lands drain into Lake Erie but these numbers give some idea of potential dissolved reactive phosphorus input related to soybean production alone.
The Monster Revisited
The super-giant blue-green bacterial bloom of 2011 in Lake Erie required a concerted response from the scientific community to understand just why this had happened. There was no doubt in scientists’ minds that dissolved reactive phosphorus as run-off from agricultural land was a major factor. But why should a super-giant bloom happen in 2011 and not in 2012 when the same agricultural land and its phosphorus run-off were still flanking the Lake and continued to be a constant factor? Something else was involved. So an elite team of scientists from universities, government laboratories, and industrial laboratories got together to investigate, headed up by Prof. Anna Michalak of Stanford University.
Prof. Anna Michalak
In 2013 this team of 29 scientists came up with their report, which was published in the prestigious Proceedings of the National Academy of Sciences.
The team concluded that long-term trends in agricultural practices (e.g. no-till farming) plus increased acreage under intense cultivation (notably soybeans and corn) led to a major pulse of phosphorus into Lake Erie during some unusually intense spring rainstorms in 2011. Then in the late spring and summer unusually quiet but warm weather conditions provided just the right conditions to seed, incubate and grow the bloom in the waters of Lake Erie. The team stated “If a scientifically guided management plan to mitigate these impacts is not implemented, we can therefore expect this [super-giant blue-green bacterial] bloom to be a harbinger of future blooms in Lake Erie.” – because unusual weather events, lower wind speeds, warmer waters, and higher rainfalls are becoming more common and can be expected in the future.
Glyphosate and Blue Green Bacteria
Recent work by scientists at Bowling Green State University has reported the presence of glyphosate in Lake Erie. It is evidently washing out of the no-till crop fields, and reaches a maximum in the summer months. Also it has been found in water treatment plants, peaking in the summer months. Prof. McKay and his colleagues raised the possibility in 2010 that the presence of glyphosate in Lake Erie together with phosphates from fertilizers tend to stimulate the growth of blue-green bacteria, whereas phosphates alone do not do this but favor diatoms, a normal algal component of Lake Erie. It seems that blue-green bacteria can utilize the phosphorus in the glyphosate, which was believed to be otherwise not normally bio-available. Many questions remain to be answered but the intense use of glyphosate in the area around Lake Erie demands rapid action in the very near future to establish just how much glyphosate is involved in blue-green bacterial blooms.
An even more disturbing piece of microbiological and genetic research was done by Prof. Victoria López-Rodas in Madrid together with other Spanish colleagues in 2007. They studied Microcystis, one of the bad boys of the blue-green bacteria family. They found that rare mutations during growth and division of cells could clone a glyphosate-resistant strain that could survive in glyphosate polluted waters. In other words, Microcystis has the potential to develop into a “superbug” unaffected by glyphosate. The odds of a mutation like this occurring were calculated to be a few times in 10 million by Prof. Lopez-Rodas’ team. That’s better than the odds for winning the Jackpot in the Florida Power Ball Lottery (1 in 292 million), but still not great. If you bought hundreds of millions of ticket in the lottery, you would have a good chance of winning at least once, perhaps several times (but at $2 a ticket you financial advisor might have some things to say to you about your investment strategy). However, given a little phosphorus and nitrogen, Microcystis can keep on dividing trillions and trillions of time to form blooms in warm water. With such astronomical numbers, a rare mutation becomes a virtual certainty at some point during cloning, and in the presence of an antibiotic such as glyphosate, a superbug is born.
So far the emphasis has been on phosphorus and how it is important in blue-green bacterial bloom formation. But nitrogen is also very important as a nutritional component for blue-greens and indeed for all life. Green plants need nitrogen to synthesize proteins and other important components in their cells. Although nitrogen is abundant in the atmosphere, it is an inert gas and simply unavailable as a nutrient for many green plants. It needs to be combined with hydrogen (as an ammonia compound) or with oxygen (as a nitrate compound) to be absorbed by the plant. These nitrogen compounds may be naturally occurring in soil, but in agricultural land they need to be added frequently as fertilizer for crops to thrive.
Blue-green bacteria have an advantage over green algae and other green plants because some blue-greens have the ability to synthesize nitrogen compounds directly from gaseous nitrogen – they are said to be able to “fix” the nitrogen. But some other blue-green bacteria are unable to fix the nitrogen and have to depend on another source. Microcystis is a case in point (the blue-green bacteria that are often dominant in the giant blooms in Lake Erie and Lake Okeechobee). Microcystis is highly dependant on a source of nitrogen to thrive. This can of course be provided by run-off from crop fertilizer, but it does not always explain the fluctuations of this and other blue-green bacteria that have or do not have nitrogen fixation ability in Lake Erie, in spite of the fact that the experts all agree that phosphorus – not nitrogen – is the principal limiting factor.
Lucas Beversdorf and colleagues at the University of Wisconsin decided in 2010 to try and solve the problem and improve predictability of toxic blue-green episodes in a beautifully designed and detailed study of Lake Mendota, Wisconsin a much smaller lake (15 square miles) than Lake Erie but about the same depth and with similar temperate seasonal weather patterns.
They found that Microcystis (blue-green non-nitrogen fixer) rode on the back of Aphanizomenon (blue-green nitrogen fixer) in a nutritional sense. Without the nitrogen fixer doing its work first in the spring, Microcystis as a non-nitrogen fixer could not attain dominance and pollute the water with toxic microcystin in the summer. This could be relevant to understanding how the blooms that occurred in the mid-20th century in Lake Erie came about, both Microcystis and Aphanizomenon being important contributors to large blue-green blooms at that time. It could also be important in predicting when blooms can be expected.
Prof. Karl Havens, a biologist at the University of Florida (and formerly of the South Florida Water Management District) has discussed the implications of nitrogen and phosphorus as nutrients for blue-green bacteria in Lake Okeechobee, and the need to reduce both given the physical and biological complexities in a shallow lake.
It has been known for some time that non-nitrogen fixing bacteria are highly competitive when it comes to ammonium compounds in freshwater lakes, possibly explaining why Microcystis and similar blue-green bacteria do achieve dominance in the blue-green blooms when in proximity to agricultural run-off.
Researchers are looking for ways to monitor assess and predict algal blooms of all types. This can be done by sampling the lake waters and analyzing them for various organisms and chemical compounds, such as Dr Beversdorf did for his detailed study of Lake Mendota. However, in very large lakes such as Lake Erie the shear size of the lake makes rapid response to a growing giant algal bloom impossible.
Prof. Joseph Ortiz of Kent State University, Ohio has been actively involved in developing new ways to gather information on giant blue-green bacterial blooms using an instrument on board the International Space Station. From space it can image all of Lake Erie in two days – remember Lake Erie is about 9,900 square miles (241 miles long, 57 miles wide). He uses a technique called hyperspectral visible derivative spectroscopy, quite a mouthful but very important. The hyperspectral imager works in orbit about 220 miles above the Earth’s surface and transmit the results to Dr Ortiz who uses sophisticated analytical methods to identify various types of algae and bacteria in the lake water.
This and related techniques are now being used to forecast blue-green bacterial blooms, in cooperative ventures between NASA and NOAA (National Oceanographic and Atmospheric Administration). For example this was their forecast summary for 2014:
“This year’s forecast is for a western basin Lake Erie cyanobacteria bloom of 22,000 metric tons dry weight (MT), with a 95% predictive interval of 11,000 to 33,000 MT. The bloom size over the last decade (2004-2013) has averaged 14,000 MT, such that this year’s bloom will likely be above average. However, the 2014 bloom is expected to be less than the record bloom of 40,000 MT, which occurred in 2011.”
In August of 2014 the City of Toledo shut down its water supply because of contamination by blue-green bacterial toxins (microcystin), which made it undrinkable for 400,000 residents, confirming the astonishing power of this predictive method.
A Florida Mismanagement Plan for Niagara Falls
Just imagine if the same planning “logic” had been applied to Lake Erie as has happened with Lake Okeechobee. In the case of Lake Okeechobee, agricultural interests took over an Everglades river and associated sawgrass wetlands to drain them for use as sugar plantations. To do this the ancient course of an Everglades river was disrupted by damming its 25-mile wide outflow from Lake Okeechobee, upstream from the Everglades Agricultural Area. In so doing the lake level rose because it had no other natural outlet. Therefore higher shoreline dike construction was needed (the Herbert Hoover Dike) to impound the water to prevent flooding of the adjacent land. All this destroyed a large part of the Everglades, a natural wonder of the world designated an International Biosphere Reserve and a World Heritage Site by UNESCO and a Wetland of International Importance. The “river of grass” in the Everglades became starved for water.
Everglades River of Grass
Meanwhile, the Kissimmee River feeding into Lake Okeechobee and draining another agricultural area was straightened and canalized to remove those annoying meanders that characterize river systems as they approach local base level (the lowest point to which a river can flow). The straightened channels thus allowed rapid fertilizer run-off from the fields, preventing filtering and bio-cleansing in the natural wetland vegetation of the flood plain meanders that would otherwise exist, further contributing to heavy phosphorus loading in Lake Okeechobee and the consequent blue-green bacterial blooms. The straightened channels also contributed voluminous extra water that the lake could not handle. Therefore, the lake managers and flood controllers (the Army Corps of Engineers) directed the overflow waters down a number of canals with outlets to the highly populated Atlantic and Gulf coastlines and the sea, the overflow water being heavily polluted with blue-green bacteria from the giant blooms that grew in the lake.
So let’s work this through for our imaginary Niagara Gorge Agricultural Area, a 7-mile stretch that would be ideal land for growing grapes and other fruits in a valley just below Niagara Falls. Once drained, the imaginary agricultural area would eventually develop lime-rich soils, which would be perfect for high quality wine grapes, and would be similar to the soils in the adjacent Niagara Wine Country. The fruit would be sheltered from the worst of the Canadian winter that might otherwise be unfavorable for growing and ripening the grapes. There would be one big problem: there is too much water in the Niagara Gorge, which transports the Great Lakes waters through the Niagara River into Lake Ontario.
So, the imaginary managers deemed that a dam would be necessary across the Niagara River upstream from Niagara Falls to divert the water elsewhere, and help to drain the Gorge. They knew this would be entirely possible because the Army Corps of Engineers had dammed the Niagara River once before to make repairs to the Falls, back in 1969. Of course, the magnificent Niagara Falls, a real wonder of the world, would cease to exist. Meanwhile, the Lake Erie water level would start to rise and bigger and better dikes would be needed, particularly around population centers such as Buffalo, Cleveland, Toledo, and Detroit, to prevent flooding. This in turn would raise the base level of the inflowing rivers and they would back up and tend to flood more frequently. The imaginary managers decided to straighten the meander channels of the rivers to allow quicker drainage, but this in turn sent a high discharge of agricultural phosphorus run-off into the Lake. The higher loading of phosphorus triggered gigantic blue-green bacterial blooms.
Clearly an outlet would be needed for the imaginary re-engineered Lake Erie high-level water, so the imaginary lake managers decided to discharge the lake water somewhere else. Very fortunately, an older structure – the Erie Canal – still existed and would be ideally suited for modification to act as a spillway or overflow channel. The Erie Canal in turn would channel the water from Niagara into the Hudson River and out into the Atlantic Ocean near New York City. Unfortunately the voluminous discharge of polluted freshwater from the Lake would do two things. First, the blue green bacteria would thrive as the discharge water slowed and became semi-stagnant in the estuaries and coastal regions around Manhattan during the summer. Secondly, the marine wildlife would be severely impacted due to the drastic reduction in salinities by mixing with freshwater. This would lead to the mass death of marine life, together with animals and plants that thrive in marginal marine and brackish environments such as oysters and clams. Millions of New Yorkers and those in adjacent areas would become enraged because the grape and fruit growers in the Niagara Gorge Agricultural Area have caused all this in the first place, due to their insistence on the change of land usage. Meanwhile, the farmers in the newly established Niagara Gorge Agricultural Area are thriving and unaffected by these changes, and blame the towns and cities for inadequate sewage treatment and leaky septic tanks.
Of course, all this is nonsense and absurd – a figment of my imagination. It wouldn’t happen in real life, would it? No one could be that inept or uncaring – or could they?
The chances of such a catastrophe happening in real life are very slim in the Niagara region. Any move by a special interest group planning to monopolize a Great Lakes’ resource would come under the immediate scrutiny the International Joint Commission. In all likelihood they would jump on such a rapacious scheme like a ton of bricks and it would never see the light of day.
It’s a great pity that the people of Florida don’t have an equivalent body with overarching responsibility for maintaining the quality of Florida waters for all Floridians. Unfortunately, sensible planning initiatives over the decades have been circumvented, and most state politicians have been incapable or reluctant to fund policies directed towards protecting Florida’s water resources. It is a dismal story of failure to protect Florida’s natural resources, and continues to be fueled by campaign contributions from Big Sugar to Tallahassee. The more-than-century-long story has been insightfully summarized recently by Jaclyn Blair, a law student at Florida Coastal Law School, Jacksonville, graduating this year (2017) as Juris Doctor. It is recommended reading for anyone wanting to understand the various parts played by corporate interests, citizens concerns, politicians, policies, legalities, and constitutional amendments regarding the destruction of Florida’s natural resources.
I didn’t think up this sub-header, but thanks to PBS for producing a video of that name. In 2007 PBS published this synopsis of their program:
“During the past 125 years, a series of well-intentioned decisions, actions and policies have turned what should have been one of Florida’s greatest natural treasures into an environmental villain. Six thousand years later after if was formed, residents and agencies across the state are now raising the questions: Is it too late for Lake O?”
In 2017 the question is still valid.
Let’s start with the Manager of Lake Okeechobee, the South Florida Water Management District (SFWMD), which describes itself as follows in its mission statement:
“OUR MISSION: To manage and protect water resources of the region by balancing and improving flood control, water supply, water quality and natural systems.
The South Florida Water Management District is a regional governmental agency that manages the water resources in the southern half of the state, covering 16 counties from Orlando to the Florida Keys and serving a population of 8.1 million residents. It is the oldest and largest of the state’s five water management districts. Created in 1949, the agency is responsible for managing and protecting water resources of South Florida by balancing and improving flood control, water supply, water quality and natural systems.
A key initiative is restoration of the Everglades – the largest environmental restoration project in the nation’s history. The District is also working to improve the Kissimmee River and its floodplain, Lake Okeechobee and South Florida’s coastal estuaries.”
Now, let’s take a look at Lake Okeechobee’s basic statistics. It is 730 square miles in area (about 36×29 miles in longest dimensions), very shallow with an average depth of about 9 feet, varies from about 12 ft to 18 ft above sea level, and has a total volume of water of about 1 cubic mile (for comparison, Lake Erie is more than 100 times greater in volume but only about 13 times larger in water surface area). Lake Okeechobee is the largest lake in the contiguous United States, outside the Great Lakes.
Until about 1930, the lake had a natural outflow about 25 miles wide on its south side allowing water to enter the Everglades system. From about 1930 to 1960 a dirt dam was progressively built, 143 miles in length, and extended all around the Lake as the Herbert Hoover Dike. This converted Lake Okeechobee from a dynamic system of seasonal inflow and outflow into a semi-stagnant reservoir, with emergency releases of overflow water into canals discharging east and west into the Atlantic Ocean or the Gulf of Mexico, along heavily populated coastal areas.
Muddy Waters
SFWMD has scientists and engineers working on various aspects of water quality in south Florida, including Lake Okeechobee. For more than half a century, the Lake Managers have been collecting information on water quality such as water chemistry, amounts of phosphorus and nitrogen, temperature, turbidity, and so on. That, of course, is their job as a management agency, and each year they and their contractors collect more than a quarter million samples for analysis, many from Lake Okeechobee. In addition, NOAA has a weather station on the southern rim of the lake and these meteorological data can be integrated with the Managers’ observations on lake water. This is really important information. However, their attention to details of biological data seems to be less precise. Their definitions of bloom formation is based, generally, on the amount of a particular type of chlorophyll extracted from water samples, rather than information on the number and concentration of particular types of bacteria or algae. Nevertheless their information is important, and the Lake Manager’s scientific staff have produced many significant reports analyzing these data to try to explain why bacterial blooms form in the waters of Lake Okeechobee.
Of first rank importance was the assessment by the Lake Manager’s scientists that Lake Okeechobee was eutrophicating, that is becoming enriched in dissolved nutrients (such as phosphates) that stimulate the growth of aquatic plant life usually resulting in the depletion of dissolved oxygen.
Another report by the Lake Manager’s scientists documented the continuing increase and doubling of total phosphorus in the Lake between 1973 and 1984. Fluctuating lake levels and/or resuspension of soft bottom muds my have been involved in the increase. However other studies drew attention to the burgeoning intensive dairy and beef cattle industries to the north, starting in the 1950s, providing nutrients from agricultural run-off flowing down the Kissimmee River into Lake Okeechobee, together with nutrients entering the Lake system from the sugar cane industry to the south of the Lake, often by back-pumping.
Other scientists employed by the Lake Manager attempted calculations to balance the amount of phosphorus flowing from the Kissimmee River into the Lake from the cattle farms to the north, compared with the amount being discharged principally through the St Lucie and Caloosahatchee Canals to the east and west. Their numbers suggested that between 1973 and 2002, each year on average almost 300 tons of phosphorus ended up sinking to the bottom of the Lake. In the early 2000s the situation had reached crisis proportions because the bottom sediments in the Lake had become thoroughly saturated with phosphorus. Any further phosphorus would not have bonded firmly to the bottom sediments but would be available in the lake water for biological activity. In other words, eutrophication was predicted to become much worse, which meant more organisms growing in the lake waters.
Other studies by the Lake Manager’s scientists looked at meteorological information from NOAA and discerned a complex inter-relationship between wind speed, rainfall, inflow from the Kissimmee River, and lake levels, apparently related to “algal” (i.e. bacterial) bloom formation (that is as judged by the amount of chlorophyll extracted from water samples). They also noted a steady increase in lake levels between 1972 and 1978. The maximum amount of algal/bacterial material occurred between May and September in calm summer months when the water temperature typically reaches into the mid-80s.
So the Lake Manager’s scientists had come up with some interesting possibilities as to what conditions promote blue-green bacterial bloom formation, but not everything matched and not everyone agreed. This was a real tough nut to crack. Something seemed to be missing in the puzzle. But some scientists were concerned enough to state in 2009 “that the [Lake Okeechobee] ecosystem is at risk for continued and perhaps worsened eutrophication symptoms under current P [phosphorus] loading conditions.”
Descending the Murky Depths
In 1994 Dr. P. Moore, a soil science researcher attached to the University of Arkansas and Prof. K.R. Reddy of the University of Florida came up with a new idea. It might not be just the lake water that was involved in bloom formation, but the sediments on the bottom of the lake might be implicated in promoting higher phosphorus levels, and particularly the extent of acidity and oxidation or reduction near the sediment-water interface. They arranged for scuba divers to swim down to the lake bottom with special plastic tubes to be pushed into the mud. The divers brought back several cores of the mud for analysis in the laboratory. What they found was that phosphorus can be released from the lake muds when the water mixing with the mud is reducing (i.e. little or no oxygen) and/or acidic, and particularly if iron oxides and iron hydroxides are also present. This is important in a shallow lake where wind can cause the water column to be mixed, bringing oxygen down to greater depths, which assists in retaining phosphorus in sediments. However, in the case of Lake Okeechobee, winds in the calm summer months tend to be minimal, and oxygen concentrations diminish at the lake bottom. Therefore, the reducing conditions help to release phosphorus in the water, just as the water temperatures increase optimally to 75-80 degrees F favoring the growth of bacteria.
Prof. Ramesh Reddy
Glyphosate in Lake Okeechobee
It’s interesting that Dr. Moore’s and Prof. Reddy’s observations about phosphorus release being favored by acid conditions and iron oxides/hydroxides parallels Prof. Spiese’s work on glyphosate in Ohio, which also implicates acidity and iron oxides and hydroxides in the release of phosphorus from cultivated fields and the growth of blue-green bacterial blooms in lakes. Maybe something similar is happening in Lake Okeechobee and surrounding cultivated land.
Well, is glyphosate really present in Lake Okeechobee? I searched the Lake Manager’s website and noted that as early as 2000 glyphosate was being used to exterminate several thousand acres of cattails in and around the lake by aerial spraying.
In addition, the agricultural areas around Lake Okeechobee and in the Kissimmee River watershed are awash with glyphosate, and the farmers appear to have been enthusiastic users since the early 1990s according to the U.S. Geological Survey, whose maps are reproduced below (one for 1992 and another for 2014, but there are others for the in between years).
But the strongest evidence of all for recent years comes from the website of the US Army Corps of Engineers. They head up the Lake Okeechobee Aquatic Plant Management Interagency Task Force, which has this mission statement:
The Corps of Engineers shall chair, and actively solicit participation in the Lake Okeechobee Aquatic Plant Management Interagency Task Force. The Task Force members will represent State of Florida agencies (including the Florida Fish and Wildlife Conservation Commission and the South Florida Water Management District), state Universities, the Corps of Engineers, and other Federal agencies. The Task Force will serve in an advisory capacity, providing multi-disciplinary technical and scientific data from which the Corps’ aquatic plant management strategy, methodology, and research planning and operational efforts will evolve. The focus of the aquatic plant effort will be to benefit the overall ecological health of Lake Okeechobee.
So now it seems that there are two lake managers: The US army Corps of Engineers on the one hand, and the South Florida Water Management District on the other. The Army Corps of Engineers, as well as having absolute authority to open the floodgates for Lake Okeechobee whenever it deems this necessary, has also now got control of the program to exterminate various aquatic plant species by use of powerful herbicides. Is this a matter of too many chiefs and not enough Indians? The Mission of the Army Corps of Engineers is clear: The U.S. Army Corps of Engineer’s mission is to provide vital public engineering services in peace and war to strengthen our Nation’s security, energize the economy, and reduce risks from disasters. Their Vision is equally clear “Engineering solutions for our Nation’s toughest challenges.” Their Motto is clear “Building Strong”. The potential conflict between the two Managers (ACE on the one hand, SFWMD on the other) needs to be rationalized and sorted out to achieve sensible results.
So what can ACE tell us about glyphosate? From time to time the Army Corps of Engineers posts their schedule for spraying programs to control aquatic plants in Lake Okeechobee. For example, they used glyphosate in July 2016 for extermination of cattails in Lake Okeechobee and again in March 2017. So glyphosate is present in Lake Okeechobee, definitely from Army Corps of Engineers’ activities and the SFWMD, starting as early as 1988:
The presence of glyphosate is highly probable from farming activities around and upstream from Lake Okeechobee. It has already been noted that glyphosate may stimulate blue-green bacterial growth, and that the cloning by natural selection of glyphosate-resistant strains is also possible. The Lake Managers have yet to come up with an up-to-date, complete analysis of Lake Okeechobee waters, showing how much herbicide is present – at least I have not been able to find it on their websites or other relevant publications – and how many toxins such as microcystin have been detected on a routine basis. Surely the public has a right to know this vital information.
Where has all the Water Gone?
Well the problem is that the water in Lake Okeechobee generally does not go anywhere, or not where it is meant to be, that is into the southern Everglades. The various planning decisions and missteps over the years have converted Lake Okeechobee into a vast semi-static reservoir. From time to time it gets overfull, even with an enlarged dike, and great volumes of water have to be released by the Army Corps of Engineers to the St Lucie River and the Caloosahatchee Rivers with dire results.
An impressive report appeared in 2015 by a team of experts headed up Prof. Wendy Graham of the Water Institute of the University of Florida. The title of the report says it all: “Options to Reduce High Volume Freshwater Flows to the St. Lucie and Caloosahatchee Estuaries and Move More Water from Lake Okeechobee to the Southern Everglades. An Independent Technical Review by the University of Florida Water Institute”.
It is a very detailed and comprehensive report and well worth reading because it was produced independently at arm’s length from the politicians, and it is for the most part written in plain and comprehensible language. It discusses many options to solve the problem and to start getting the lake water back down to the southern Everglades.
To my mind, the key thing is to include bio-cleaning and remediation of the lake water before it passes south too far down the Everglades system. Constructed wetlands for water treatment have been in use since the mid-1950s, including several system using cattails, reeds, and other aquatic plants to remove such things as nitrogen, phosphorus, and other pollutants from waste water. Such systems could be utilized to good effect in the reservoirs anticipated in areas south of Lake Okeechobee, in effect being “reconstructed wetlands” in place of the former sawgrass plains.
To its credit, the South Florida Water Management District has constructed several large wetlands called Stormwater Treatment Areas, which are designed to remove excess phosphorus and other nutrients from waters immediately north of the Everglades Protection Area. One of them in western Palm Beach County STA-3/4) is the largest constructed wetland in the world.
If the overflow water from Lake Okeechobee is not cleaned to rigorous standards, it will fail to reach the high standards of purity required by federal regulators of the Miccosukee Indian tribal lands in the Everglades south of Alligator Alley (see my blog “Sugar and Indians”):
Well, all the above makes for pretty dismal reading for the most part. But there are several rays of sunshine cutting through the mess that has been created to suggest that all is not lost. Up in Lake Erie there’s a lot of activity on both sides of the border in reconstructing wetlands to replace those lost to drainage and infill schemes over the last century. New treatments are being invented to remove phosphorus and other pollutants from the run-off water before it hits the lake. Some of the links below will lead you to more details.
Down in Lake Okeechobee, the South Florida Water Management District is showing the world how to build gigantic constructed wetlands as a start to cleaning up the Okeechobee water ultimately destined for the southern Everglades. And Florida’s politicians are now making major inroads into passing legislation to fund these schemes, such as Senator Joe Negron’s continuing efforts to get the state House and Senate to agree.
5-7-17: Hutchinson Island along the Atlantic Ocean and confluence of the St Lucie River/Indian River Lagoon, blue waters, seagrass not yet revived from 2013 and 2016 Lake O discharges. Photo Ed LippischMy husband’s flight yesterday over the Atlantic Ocean, St Lucie Inlet, and St Lucie River/Indian River Lagoon is beautiful. But look carefully and you will see a light-colored brownish plume at the mouth of the St Luice Inlet entering the ocean. Finally after months of drought, it has begun raining. And when it rains… (mind you C-44 connecting the St Lucie River to Lake Okeechobee is closed now) the re-directed run-off of waters from canals C-23, and C-24 of course still flow into our St Luice River/Indian River Lagoon.
These canals organized and built during the 1950s and 60s are part of the Central and South Florida Flood Project that the Army Corp built following the hurricane and extensive south Florida flooding of 1949. The run-off waters from these canals and the local watershed are what you see in today’s video.
As damaging as C-23 and C-24 are (they too must be reworked and redirected) they are not the damaging discharges from Lake Okeechobee that throw the St Lucie over the brink as in 2013 and especially 2016 when toxic algae covered extensive portions of the entire St Lucie.
Rio, St Lucie River, Jeff Tucker, toxic algae
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Shoreline of Sewall’s Point, Tracy Barnes 6-25-16
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(Photo mosaic from 2016 shows various photos by Dr Scott Kuhns, Rebecca Fatzinger, (wildlife) JTL/Ed Lippisch, pilot Dave Stone and others.)
In spite of the light brown plume, the short video flight from Jensen to Peck’s Lake shows blue waters near the inlet and mouth of the estuary as it should be, not black water. If Governor Scott does not veto the budget, the reservoir in years to come will help offset the Lake Okeechobee destruction and open the way to truly “send the water south.” #ThankyouJoeNegron
This is very exciting, but believe me, this is no time to let down your guard, as the fight for control of Florida’s waters has really just begun.
Reef system off Sailfish point is covered in black water, sediment, and nutrient pollution when Lake O is discharging. Here after months of drought, and finally some rains we can see the reefs. 5-7-17, Photo Ed LippischMap SFWMD showing canals and basins. Note S-308 or structure s-308 at Lake O and S-80 down the C-44 canal AKA the St Lucie Canal. Both of these structures have to open to allow water to flow into the C-44 canal to the St Lucie River, Indian River Lagoon. All canals are destructive to the St Lucie/IRL yet it is C-44’s Lake O that puts the St Lucie system in complete and total overload.DEP C-23:http://www.dep.state.fl.us/southeast/ecosum/ecosums/c23.pdf
We all know that young people are the largest key to a “better water future” for our great state of Florida. Recently I opened my mailbox to find the “Florida Coastal Law Review’s Special Symposium Issue: A look into the 2017 Florida Constitution Revision Commission/Fall Issue, Volume 18.” It is very excited to see what topics the students are covering. I read the whole thing! All of the articles are powerful expressions. My favorite? “Sugar, Politics, and the Destruction of Florida’s Natural Resources,” by Jaclyn Blair.
After such a difficult few weeks watching the state legislature pass the ball back and forth and finally catch SB10 and HB761, and then the false cry that Florida Forever could not be funded, the Law Review publication really lifted my spirits. I was so excited that I decided to call the law school, garnering more information and received permission to share.
The best way I know how, and with my limited time today, I am just going to photograph the article and post it. Even if you read the first few pages, you will be impressed. I have a better format, but cannot post PDF format on my blog. Email me if you’d like a PDF or call the law school at 904-680-7700. The Editor-in Chief, Dylan W. Retting, is a great help.
Close up toxic algae, SLR, 2016, JTLIn closing as I’m off to Panama City, more than anything…more than any bill or any politicking…. seeing young people pick up the torch for our waters and our environment is an inspiration. An inspiration for a true and longer-lasting, “better water future.”
Thank you to the students of Jacksonville’s Florida Coastal Law Review! I am impressed!
Tarpon Fishing, Kent Hagerman 1893-1978. Courtesy, Sandra Henderson Thurlow.Fishing map of McCoy Bros. SLR/IRL date unknown, notice the extensive tarpon fishing grounds, Thurlow Archives.Tarpon on the line! Dave Preston
If we look into the mirror of history, we begin to see…
We begin to see how we destroyed one of the most famous and beloved inland fishing waters in North America and how we learned to do better. And if we are able, in time, not only to do better, but to return “health and glory” to the St Lucie River/Indian River Lagoon, it should be the tarpon, not the sailfish, that becomes our symbol, our king.
The first formal fishing club documented in Stuart was the 1916 St Lucie River Tarpon Club. The late 1800s and early 1900s were an era of great fame for the St Lucie River, build upon President Grover Cleveland and other presidents fishing trips to the area. Yes, the St Lucie was known as the “Fishing Grounds of Presidents.”
Ironically, at this same time, the Commercial Club, that evolved into today’s Chamber of Commerce, was promoting not just Stuart’s remarkable fishing, but also enthusiastically encouraging and awaiting the completion of the St Lucie Canal.
SFWMD canal and basin map. C-44 canal is the canal most southerly in the image.
“Once the muddy water flowed into the St Lucie River, they began to realize that the canal was not the blessing they envisioned,” writes Sandra Henderson Thurlow. Historian Alice Luckhardt more directly notes, “at one time tarpon were often caught in the St. Lucie River, but “disappeared” from those waters soon after the opening of the canal system to Lake Okeechobee in 1923.”
Ingeniously, and with more insight, in the years following the loss of tarpon and other river fish as seen in the McCoy map above, the ocean-going sailfish was marketed to replace the tarpon and become “the most prized fish of all…” as well as in time the symbol for both the city and county governments.
The magnificent Silver King? Just a dying memory, or no memory at all…
By the mid 1930s the Chamber of Commerce began publishing the “Stuart Fishing Guide.” In 1941 the largest sailfish run in Florida’s history occurred off the St Lucie Inlet. Remarkable! More than 5000 sailfish were caught in a 90 day period. “Thousands were slaughtered only to be dumped in the river, carted off by garbage collectors, and used for shark bait.” Stuart as the Sailfish Capital of the world was affirmed, but as my mother states, if “Stuart’s fame was to endure, so was the need for conservation of the species.”
The idea for conservation/protecting the industry had been in the works, the Sailfish Club had been talking about it and a few sailfish were returned to the ocean…. But after the sailfish run of “41, the idea of an organized conservation effort was solidified, and Sailfish Club of ’31 updated their charter in “41 “to further and promote sports fishing and conservation in the waters of the City of Stuart and Martin County.” Visiting sportsmen were awarded and inspired to work for the most coveted bronze, silver, and gold lapel pins based on the size of the sail they caught and released, not killed.
This is a great story, but what of the tarpon?
I can see his giant, ancient, dorsal fin rising from the waters of a healthier St Lucie River/Indian River Lagoon. For me, no fish will ever compare. As we restore our rivers, it is he who shall be KING! 🙂
Close up of solidarity fish on Florida’s Capitol steps, Clean Water/Amd. 1 Rally 2-17-15.) (JTL)
“It is not the critic who counts; not the man who points out how the strong man stumbles, or where the doer of deeds could have done them better. The credit belongs to the man who is actually in the arena, whose face is marred by dust and sweat and blood; who strives valiantly; who errs, who comes short again and again, because there is no effort without error and shortcoming; but who does actually strive to do the deeds; who knows great enthusiasms, the great devotions; who spends himself in a worthy cause; who at the best knows in the end the triumph of high achievement, and who at the worst, if he fails, at least fails while daring greatly, so that his place shall never be with those cold and timid souls who neither know victory nor defeat.”
Theodore Roosevelt, from “Citizenship in a Republic,” Paris, 1910
Joe Negron at River Kidz protests at St Lucie Locks and Dam because of Lake O releases in 2102.River Kidz walk with Senator Joe Negron, Stuart 4th of July Parade 2013
Thank you for keeping your word to the Kidz, and fighting your heart out for Florida’s water future. As you, we will “Never, Never, Never Give Up!”
House Speaker Richard Corcoran, public Twitter photo“Corcoran is a fearless political marksman who uses laws, rules, tweets, videos, lawsuits and sheer nerve to lay waste to what he calls “a culture of corruption” in Tallahassee.” –Tampa Bay Times
Due to passionate public input and the remarkable political will of Senate President Joe Negron, last Wednesday, SB10, passed its first goal, the Florida Senate. Today, TC Palm’s headline reads: “Gov. Rick Scott Supports South Reservoir to Curb Lake Okeechobee Discharges.” Amazing. Now, just the House of Representatives remains. And at the Florida House’s helm, is a very interesting man, Speaker Richard Corcoran.
In the news we have read about warring between the House Speaker and the Governor….Negron with his Harvard training stays above the fray, but of course is affected.
Today we are going to put aside the fighting and look deeper. And in doing so we just might find that Richard Corcoran is the “perfect match” to help the problems plaguing the St Lucie River/Indian River Lagoon- because he helped write “Blueprint Florida,” in 2010, the blueprint to overcome corruption and special interest in Tallahassee.
Hmmm? Corruption? Special Interests? Need I name names? 🙂
Some have said this is hypocritical as Corcoran himself is a product of Tallahassee culture, but I say he is for real. It’s kind of like family… like it or not you are part of it, but in very serious ways as you grow up you don’t agree with parts of it. You want better, you want change, especially for your kids.
Let’s check the Blueprint out:
Here are some excerpts and the entire document is linked below. It reads like a manifesto for change. The goal is to leave a legacy by fighting special interests.
Blueprint Florida
“Thomas Jefferson said, “One man with courage is a majority.”
“Our legacy may be forged in fires of resistance to new culture to which we have committed. There many be times where we hear the call to retreat to safety of self-preservation, the shelter of self-promotion, or the promises of security and ease made by the special interests. When those times come, we must remember our pledge to leave a legacy….”
“We desire a future generation to mark our service as a turning point in Florida’s history. The time when we turned toward independence and made our government truly accountable to the people who matter most, Florida’s citizens.”
“Our legacy can only be a gift for future generations if we choose today to put Floridians first no matter what he cost to our own political career. Working together we can crate an effective Blueprint for Florida.”
“We will all leave a legacy. Some will leave legacies that are truly gifts to future generations while others make choices that result in a legacy of burden. This should cause us to pause and consider why we’re doing what we’re doing. What we value the most will determine what kind of legacy we leave.”
Robert Lord is President and C.E.O. of Martin Health Systems, formally known as Martin Memorial Hospital. “MHS” as it is known for short, is the long time top-employer for Martin County, and a respected and expanding health system. It has been located in Martin County for 75 years. (https://www.martinhealth.org) The origianl institution sits along the shores of the St Lucie River, near downtown Stuart and has grown into both south Stuart and St Lucie County. It is a literal “lifeblood” of our communtiy.
I have known and admired the Lord family since my childhood. Bobby Lord, Robert Lord’s father was a local celebrity in Stuart’s early days as he is a County & Western legend. (https://en.wikipedia.org/wiki/Bobby_Lord )I attended both elementary and middle school, and graduated from Martin County High School in 1982 with Robert’s younger brother, Cabot.
I cannot express how much it meant to me last Thursday to see “Robby” Lord, accomplished attorney, now President and C.E.O. of Martin Health Systems, in his position of leadership and influence, speak in support for Senate President Joe Negron and Senate Bill 10. A bill intended to purchase land south of Lake Okeechobee for a reservoir to begin what must happen to save our river: “clean and send more water south.”
Having known the Lord family all these years, I have followed Rob’s career, especially as my sister, Jenny, is physician recruiter, and has served the hospital loyally for almost 20 years.
So, Bravo Rob Lord! You have created a “hometown game-change,” and as we all know, it is not easy to speak up. There are tremendous pressures to conform and accept things as they are. Over the past few years, outside powers have moved into our area influencing and blurring the lines.
I believe that Rob’s speaking out will clear the blurred lines and change the playing field forever. There is no mistaking it. Lake Okeechobee’s discharges are a health issue and must be stopped. Our state and federal government can ignore this no longer in spite of the influences of power.
2016, 239 sq. miles algae bloom in Lake O at S-308 entrance to C-44 and St Lucie RiverSt Lucie River 2016 toxic algae bloom brought on by Lake O discharges into SLR
Excerpt from speech:
“…Good morning, my name is Rob Lord. I am President and C.E.O of Martin Health System .. I care deeply about the impact of Lake Okeechobee discharges on the estuaries. I grew up on the Indian River Lagoon. My family moved here in 1969. I have fished these water with my father, my grandfather, and my brother and nephews and nieces. No one values this eco-system more than my family. We watched it change. As CEO of Martin Health System this has been a significant challenge for us. This past year blue-green algae came to our community. We needed to post this sign in our emergency room. We treated this very much like we needed to treat the Ebola situation….”
Dr. Steven Parr, Director of Emergency Medicine at Tradition Medical Center noted there are studies occurring now to determine whether the toxins trigger certain diseases such as Alzheimer’s, Parkinson’s, and ALS also known as Lou Gherig’s disease.
Writing my blog allows me to meet many interesting people. Recently, fellow Sewall’s Point resident, and active Vietnam Veterans of America member, Mr. Frank Tidikus, introduced me to Canadian and part-time Martin County resident, Professor Geoffrey Norris who is a geologist and algae fossil specialist with a long career at the University of Toronto.
Professor Norris, his wife, and I met at the Prawnbroker and had a lovely exchange. Dr Norris describes himself as such…
...In the 1960s, I lived and worked as a petroleum exploration geologist in Tulsa, Oklahoma. Subsequently, I spent almost 40 years at the University of Toronto in teaching and research in geology…A geologist by training, I have a specialized knowledge of fossil algae, their ecology, morphology, and distribution. I have published hundreds of scientific papers on fossil algae and related topics…
Professor Norris shared two papers composed for his property association at Indian River Plantation on Hutchinson Island along the Indian River Lagoon during the 2016 toxic algae extravaganza. Today, I will share the first entitled: “Blue-green algal blooms in the lakes, rivers, and marine waters of south Florida surrounding Lake Okeechobee.” His second, specifically on Sugarcane, I will provide next week.
Professor Norris’ summary and full paper is below. It is excellent in that it is able to relay complex subjects to the everyday reader interested in water quality and improving the plight of our St Lucie River/Indian River Lagoon.
What is most amazing to me are his comments on glyphosate, most famous for being the active ingredient in Roundup, but now used under many names. Sometimes I hear people screaming so much about Roundup that I tune it out, but Professor Norris’ observations really got to me.
He notes that glyphosate, used excessively in agriculture production around south and central Florida may actually “feed”cyanobacteria (toxic blue-green algae blooms). Also mind-blowing are Professor Norris’ insights into the reproduction of the hungry and ancient cyanobacteria that reproduces through binary fission (copying itself) “producing endless clones” “with no dissipation of mutant genes as a checks and balance to adaptation…”
Yikes! Really?
Blue-green algae mat St Lucie River July 2016, Snug Harbor, JTLWell, enjoy the reading the paper. And know, together we are making a difference!
Jacqui
Public maps info shared by Dr Norris, courtesy of USGABlue-green algal blooms in the lakes, rivers, and marine waters of south Florida surrounding Lake Okeechobee
Executive Summary
This report provides basic information on blue-green “algae” and explains that they are actually bacteria (cyanobacteria). These blue-green bacteria form blooms in Lake Okeechobee that in turn are released by the Army Corps of Engineers into canals and estuaries of south Florida.
The blue-green bacteria grow by using sunlight as an energy source to synthesize elements from the water into more complex compounds used in their cells. When important nutrients such as phosphorus and nitrogen are present in excess, the bacteria multiply rapidly and accumulate as highly concentrated masses of cells, called blooms.
Blue-green bacteria can synthesize nitrates from atmospheric nitrogen, but also need phosphorus dissolved in water to survive and thrive. If phosphorus is scarce in the water, this limits the growth of the bacteria. If it is abundant, blooms can be triggered.
Run-off and back pumping into Lake Okeechobee from surrounding Everglades agricultural lands and upstream from the Kissimmee River watershed is suspected of providing a potential abundant source of phosphorus for blue-green bacteria, in phosphate-rich fertilizers and herbicides such as Roundup (glyphosate).
Glyphosate (2-[(phosphonomethyl)amino]acetic acid) is of particular concern, since it has been used heavily in the agricultural areas around Lake Okeechobee and upstream in the Kissimmee River watershed for at least 25 years. Glyphosate provides a source of phosphorus for blue-green bacteria and recent research by others suggest that glyphosate enhances the growth of blue-green bacteria, which become tolerant and absorb glyphosate directly.
The blue-green bacterial blooms released into the St Lucie Estuary (principally Microcystis) are formed in freshwater but appear to be tolerant of dilute salinities, and recent research suggests can build up resistance to increased salinities such as are found in estuarine waters.
Blue-green algal blooms in the lakes, rivers, and marine waters of south Florida surrounding Lake Okeechobee
I am a property owner in Stuart, Florida and have been alarmed – along with many others – at the spread of blue-green algae (aka cyanobacteria) into the St Lucie River and adjacent areas by water releases from Lake Okeechobee. There has been much publicity and calls for action over the years but very little appears to have been done to solve this long-standing problem at any level of government, until very recently. Now, a State of Emergency has been declared by the Governor of Florida. Recent initiatives, following public meetings in Martin County thanks to the Board of County Commissioners, have been undertaken by Florida Representative Gayle Harrell and Senator Joe Negron and their colleagues in association with Senators Marco Rubio and Bill Nelson and Rep. Patrick Murphy to urge the Army Corps of Engineers to stop immediately the nutrient-laden discharges from Lake Okeechobee.
Although I am a property owner and tax payer in Martin County, I am also a Canadian snowbird and therefore do not have a vote, which is a little constraining when trying to influence political decisions. Therefore, I decided to put my energies into assessing what is known about the current situation of the blue-green blooms. I am a geologist by training and I do have a specialized knowledge in particular of fossil algae that have been extremely important in oil and gas exploration over the decades gone by. I am not a biologist but I do have some knowledge of the literature on algae – their ecology, morphology and distribution in various environments. I have published hundreds of scientific papers on fossil algae and related topics and hope that the following – largely based on biological and agricultural literature – will pass muster.
In the following presentation my aims are twofold:
Firstly, to try and answer commonly asked questions about blue green algae (which are actually bacteria) that might be helpful in clarifying some of the technicalities of a complex subject.
Secondly, to highlight what to my mind is the ultimate cause of the blue-green outbreak: that is, the heavy application of phosphate-bearing fertilizers and herbicides around Lake Okeechobee together with back pumping of agricultural run-off into the Lake. In particular I believe that the well-known weed killer glyphosate (e.g. Roundup) may be implicated as a major contributor to the problem. South Florida and somewhat later Central Florida became major users of Roundup in the early 1990s, long before its popularity spread north into the corn and bean belt.
Feel free to pass this article on to others. I would welcome comments by email at rosalex@interlog.com
What are blue-green algae?
Well, for starters they are not actually algae at all. They were discovered in the 19th century by biologists using newly invented high-powered microscopes. They noticed a variety of microorganisms living in water, some of them with green pigments in the cells that allowed photosynthesis to occur, similar to the well-known photosynthesis occurring in the much larger land plants and driven by chlorophyll. But they were much simpler in organization than the large land plants so were called “algae” (singular alga, from the Latin word for seaweed). Some of these microorganisms contain a rather different bluish pigment and were therefore referred to as “blue-green”, and in these early days were judged nevertheless to be algae – hence blue-green algae.
It was only later that biologists realized that the blue-green microorganisms were crucially different from algae because they had no nucleus in the cell and their pigment was not organized into a “blob” within the cell like most other algae. In the scientific literature they are now regarded as bacteria and the blue-greens are referred to as cyanobacteria – that is, photosynthetic bacteria that use a blue-green pigment to facilitate the use of the sun’s energy to produce organic compounds needed by these organisms.
It is important to understand this difference between the blue-green cyanobacteria on the one hand and the “true” algae on the other. I will come back to the difference between bacteria and algae later, and how this impacts on bloom formation.
Meanwhile, the term “blue-green algae” has gained traction in the news media and is now widely understood to be implicated in the blooms of microorganisms that occur from time to time in lakes and rivers in Florida and elsewhere. I will use either of the terms “blue-green algae” or “cyanobacteria” depending on the context, or just the neutral term “blue-greens”. But remember they are actually bacteria.
What are algal blooms?
An algal bloom is the result of rapid increase or accumulation of algae in a body of water. They can occur in freshwater (lakes, rivers) or in marine water (estuaries, lagoons, coastal embayments). Different types of algae (including the blue-green cyanobacteria) produce different blooms characterized by green, bluish, yellow, brown or red colors. The density of pigmented cells in a bloom is enormous, and measured in the hundreds of thousands to billions of cells per liter (1 liter is almost a quart) depending on the species.
Blooms can be quite localized and appear as a streak on the water or can be very large and visible from space, such as the algal blooms that occur from time to time in Lake Erie and measure tens to hundreds of miles in extent. The recent blue-green algal bloom in Lake Okeechobee was reported to be more than 30 square miles in extent.
What causes blooms?
Blooms occur naturally when the water contains an excess of nutrients such as phosphorus and other compounds. This causes an increase in the growth of algae leading to very high concentrations of cells that become visible as colored streaks and patches in the water. Other factors involved in triggering algal blooms include temperature changes, sunlight intensity, changes in water chemistry and changes in water currents.
What are the red tides that occur in Florida?
A red tide is just another name for a bloom of “true” algae in marine water, and in this case a particular algal group called dinoflagellates. Red tides can be red but more often occur as greenish or yellowish colored water in the coastal areas of Florida. The term “harmful algal bloom” is often preferred in referring to these dinoflagellate blooms that do indeed harm wildlife and human life in different ways e.g. toxic shellfish poisoning; respiratory illness; mass fish kills.
So what caused the blue-green algal blooms in Lake Okeechobee?
First, it is important to understand that blue green algae are uniquely different. Not only are they photosynthetic bacteria but they are also capable of manufacturing their own supply of nitrates from nitrogen in the atmosphere, one of their crucial nutritional requirements. So the blue-greens have plenty of nitrogen to live on but they also need other important elements and compounds to thrive. One of these is phosphorus, which often occurs naturally in water in trace amounts as phosphates. If phosphorus is scarce, then this limits the growth of the blue-greens even though they have potentially a lot of nitrates available. The amount of phosphorus available becomes a limiting factor for growth of the blue-green algae. If phosphorus becomes more abundant in the water, then the blue-green algae thrive and multiply until they become visible as a bloom. It is believed that high phosphorus concentrations in Lake Okeechobee are capable of triggering blue-green algal blooms.
So where did the phosphorus come from in Lake Okeechobee?
Lake Okeechobee is surrounded by agricultural land that is being intensively farmed. Run-off from the farmland appears to be entering Lake Okeechobee, and this includes various phosphate-rich fertilizers and herbicides such as Roundup (glyphosate).
But Lake Okeechobee water levels are higher than the surrounding plain. How can run-off into the Lake happen?
Well, firstly, Lake Okeechobee and the surrounding farmland share a common water table. Transfer of minerals and soluble organic compounds can occur through the groundwater. But probably more importantly, until recently it was common farming practice to back pump excess run-off water from the agricultural land into Lake Okeechobee. Almost certainly this had led to the accumulation of phosphorus and other nutrients in the Lake as well as unused agricultural chemicals. Aerial transmission into the Lake from crop dusting is also possible.
So now that back pumping has been discontinued will this solve the problem?
Not really, because although farmers now are not allowed to back pump into the Lake, the South Florida Water Management District has responsibility to alleviate the threat of flooding. They can – and do – back pump surface water from the surrounding land into Lake Okeechobee, if excessive rainfall conditions threaten to flood the communities around the Lake. Rainwater running off the agricultural land will still contain phosphorus and other compounds derived from fertilizers. Furthermore, from time to time the Army Corps of Engineers controls the level of Lake Okeechobee by releases of lake water into the canals, which in turn feed into the estuaries around Stuart and other coastal communities.
Are there any other agricultural products that are contributing to the appearance of blue-green algal blooms?
Yes, there is one in particular that is of great concern. Glyphosate is the active ingredient in the well-known weed killer Roundup. It is used intensively by farmers over much of North America. South Florida is one of the areas where it is being used very heavily in agriculture, and has been since at least 1992 (the earliest available data). A little further to the north, Central Florida’s usage of glyphosate surged in 1993 and continued until 2013 (the last available data) and may also be a source of glyphosate in Lake Okeechobee but originating further upstream in the Kissimmee River watershed and its interconnected lakes.
Glyphosate is an organic compound with phosphorus as an important component as well as nitrogen in its chemical make-up. It was invented by Monsanto chemists, brought to market in 1974, and its chemical name is N-(phosphonomethyl)glycine (aka 2-[(phosphonomethyl)amino]acetic acid) – glyphosate for short and much more easily remembered. Monsanto’s patent on glyphosate expired in 2000 and since then it has been manufactured by dozens of companies with a significant drop in price and therefore increasing popularity with farmers. In 2007 it became the most-used herbicide in agriculture in USA. It works as a weed killer by inhibiting the production of certain plant amino acids and enzymes. After it has done its deadly work, some of it can break down in the soil into simpler molecules of carbon, hydrogen, oxygen, nitrogen and phosphorus. Excess glyphosate can run off into water, particularly at peak farming times. Its use has been expanding in the agricultural sector by about 20% per year for the last several years.
So far, so good. It kills most green plants, if that is what you want. I personally use it to kill poison ivy on my property. Unfortunately, it has become apparent through a number of recent laboratory-based studies that glyphosate does not act as a killer for some blue-green algae, aka cyanobacteria. Firstly, the blue-greens love the phosphorus in glyphosate or its degradation products, which otherwise is a limiting factor in their survival. They thrive on increased phosphorus. Secondly and more insidiously, recent research has indicated that glyphosate actually enhances the growth of blue-greens. The blue-greens apparently have the ability to absorb glyphosate directly from the water and some are tolerant to it or become adapted to it by rare genetic mutations.
OK, but rare genetic mutations are just that – rare! So what?
Well, you remember that blue-greens are actually bacteria, not true algae. As such their genetic material is distributed throughout the cell, and they reproduce by binary fission producing endless clones. There is no “mix-and-matching” of chromosomes and genes such as occur in nucleated organisms using sexual reproduction that tends to dissipate the effects of mutant genes. Once a cyanobacterium has undergone a mutation, that mutant gene is replicated again and again as the cell divides. It produces clones of the mutant cell, and if that mutant has an advantage (such as resistance to or affinity for glyphosate), it will rapidly spread.
A more familiar example is the recent rise to prominence of so-called superbugs that are resistant to antibiotics. Human infections are often related to bacteria that enter the body, and are treated by the intake of prescribed antibiotics as a course of treatment for a number of days. If the antibiotics are not taken for an adequate period of time, the residual bacterial population includes mutants that resist the drug in question, and in turn that drug becomes less and less effective against new infections. This way a superbug is created e.g. MRSA (methicillin-resistant Staphylococcus aureus). So think of the blue-greens as bacteria (which they are) and glyphosate as an antibiotic (which it is). Those blue-green cyanobacteria that survive the glyphosate thrive as mutants and have the capacity to spread widely.
Do blue-green blooms last forever?
No. Eventually the blue-green bloom uses up available resources and requires more nutrients than are available leading to a decline in the number of cells in the water column. Also in temperate climates, the onset of winter temperatures can put an end to algal blooming for that season.
Then what happens?
The blue-green cells die off and sink to the bottom of the lake or estuary. Other bacteria move in and use the debris from the dead blue-greens as a source of carbon, and use oxygen in the water to fuel their own growth. This in turn leads to oxygen depletion that can be very severe. Without oxygen in the water, normal aquatic life becomes impossible and a dead zone is created: fish move away, and other organisms die that can’t move into more oxygen-rich environments.
How many blue-green algae/cyanobacteria exist?
About 2500 living species have been described in the literature but probably double or treble that number exist and await discovery and description. They have a very long geological history. Fossilized blue-greens have been discovered in rocks 3.5 billion years old.
How many are harmful?
Only a dozen or so species are actually harmful when they form blue-green blooms and emit toxic substances. In the recent outbreak, Microcystis aeruginosa has been identified as a bloom-forming cyanobacterium together with a couple of others.
So which blue-greens are responsible for the Lake Okeechobee and St Lucie River blooms?
The Florida Dept of Environmental Protection (DEP) took a number of samples from sites in Martin County and adjacent areas from Late May to Late June 2016 and the results are available at their website:
Most samples are reported as “mixed algae; no dominant species in the sample”, but a few are reported with more detail (numbers are depth in meters):
Martin County
St. Lucie River, Central Marine Marina (N 27° 12′ 55″, W -80° 15′ 18″)
0.3
Dominant taxon: Microcystis aeruginosa
Martin County
Dire Point Canal (N 27° 12′ 24.47″, W -80° 16′ 16.90″)
0.3 m
mixed algae; no dominant species in sample though specks of Microcystis aeruginosa present.
Martin County
SE Harbor Pointe Dr. (N 27° 12′ 12.44″, W -80° 12′ 44.77″)
0.3 m
mixed algae; no dominant species in sample though specks of Microcystis aeruginosa present.
Martin County
C-44 and S. Fork Mouth (N 27° 7′ 46.13″, W -80° 15′ 58.02″)
0.3 m
mixed algae; no dominant species in sample though specks of Microcystis aeruginosa present.
Martin County
S-80 (N 27° 06′ 41.87″, W -80° 17′ 06.08″)
0.5 m
Dominant taxon: Planktolyngbya limnetica
Martin County
Lake Okeechobee – Port Mayaca S 308 C Upstream Lake Side
N 26° 59′ 6″
W -80° 37′ 16.5″
Water column
Dominant: Microcystis aeruginosa
Hendry County
Lake Okeechobee near Channel Marker 9B
N 26° 46′ 36.6954″
W -80° 54′ 8.676″
Water column
Co-dominant taxa: Microcystis aeruginosa and Dolichospermum circinalis
Clearly, Microcystis appears to be important in several blooms, but quantitative and qualitative data are not provided for the majority of samples, making further evaluation impossible at this time. Dolichospermum (aka Anabaena) is a well known blue-green that produces nerve toxins and liver-damaging toxins, as does Microcystis. Planktolyngbya limnetica is another well known toxic blue-green.
How adequate has the sampling and analysis program by DEP been?
It is difficult to say for sure, since DEP only provides results of their program, not the sampling and analytical strategies themselves. However, from what can be gleaned from their website it would seem that during the month of June 2016 DEP collected 24 samples from 7 counties (Martin, Palm Beach, St Lucie, Lee, Charlotte, Hendry, Glades) over a 29 day period, covering a transect from the Atlantic coast to the Gulf of Mexico (Stuart/Palm Beach to Fort Myers). Of those 24 samples, 83% were reported “mixed algae; no dominant species in the sample” without further details. I would judge this to be a token response to what is clearly a major emergency. The analytical results appear to be lackluster to judge from details available on the website. No doubt DEP activities are constrained by their budget, but the lack of urgency in attempting to characterize these blooms is disappointing at best and may eventually be judged negligent to some degree.
What is known about Microcystis aeruginosa?
Quite a lot. It is the most common harmful algal bloom-forming species in freshwater. The cells are tiny but colonies can be macroscopic in size and contain gas vesicles that allow the colonies to be buoyant and float to the surface of the lake. It produces both neurotoxins and hepatotoxins that contaminate the water and have been known to kill dogs, other large animals and livestock in general that drink the polluted water. The toxins may be carcinogenic. Microcystis has a drastic effect on dissolved oxygen in the water that can lead to mass fish kills.
Can blue-green algae live in salt water?
This depends on the species. Many truly marine blue-greens are known in seas and oceans where they play an important role in nitrogen fixation and are important components of the marine ecosystem. In the case of Stuart and the St Lucie inlet and estuary, these natural estuarine waters have been diluted and/or replaced by fresher water discharges from Lake Okeechobee as shown in recent Florida Oceanographic Society water quality reports:
In turn this has allowed freshwater blue-greens such as Microcystis to establish colonies and blooms in areas that otherwise would support more saline organisms. So, for example, on June 30th 2016, the north and south forks of the St Lucie River, the St lucie River adjacent to Sewells Point, and the Manatee Pocket were reporting salinity values in the range of zero to 13 parts per thousand, areas which otherwise would be in the range of 15 to 30 parts per thousand. Hence some of these diluted saline waters can now support freshwater blue-greens.
Alarmingly, recent laboratory-based research has shown that some blue-greens – such as Microcystis – can build up resistance to increased salinity and, therefore, if this happens in the natural habitat can expand their range from freshwater to higher salinities.
What can be done to improve the situation?
If you have a vote at any level of government, contact your elected politicians to highlight the urgent nature of the blue-green blooms and to bring pressure to bear to use available resources to solve the matter.
Stop the back pumping of run-off water by anyone into Lake Okeechobee.
Curtail the heavy application of phosphorus-rich agricultural chemicals in farmland surrounding Lake Okeechobee.
In particular, request a thorough scientific investigation into the effects of glyphosate (Roundup) on blue-green algae (cyanobacteria) and their blooms.
In the long run, demand that the dike surrounding Lake Okeechobee be rebuilt with a view to diverting southwards the impounded waters back into the Everglades.
Historic Postcard courtesy of historian Sandra Henderson Thurlow.Back of post card
If one drives to end of Kanner Highway adjacent to the C-44 Canal connecting the St Lucie River to Lake Okeechobee, there is a gem to see. A place that will take you back to an earlier time. The name of this place is the “Cypress Lodge,” in Port Mayaca.
According the “History of Martin County,” this beautiful lodge first opened its doors in 1938 and is *now operated by Mr and Mrs Charles Dorrell functioning as a resting stop for tired motorist crossing the state from north to south, or east to west.”
Page 253 reads: “The lodge, boasting an outstanding cellar, is colonial in design, built originally as a tavern, has been operating ever since. The two-story all cypress building with a large dining room, is staffed mostly by residents of Pahokee, Canal Point, and surrounding towns. It is said more people work in Port Mayaca than live there.”
Just last week I learned that friend, and long time Stuart resident, Elsie Jean Stewart, has deep ties to the property as her parents were married there. She recently shared with me a wonderful family photo of the young couple. Their tremendous smiles in black in white were full of color. What days these must have been…
I recently drove out past the lodge on my way to Belle Glade while daydreaming what the area was like as in the mid-1800s between Seminole Wars. I saw a giant cypress forest full of wildlife and there was no dike around the lake, so from horseback, I could see over the wide expanse of Lake Okeechobee….
Those things are gone and the lodge was built later, but it is still connected. I have been curious to see the structure as I have been missing it on my recent drives to Belle Glade. On my last trip, I figured out that at some point the historic Connors’ Highway had been rerouted so now at the Lake, one must turn north rather than south to see the familiar structure.
When I found the lodge, I took some photos to share. Still beautiful. Still timeless. I believe today it is a private residence. Thankfully it is still here and remains a gem of Martin County’s fascinating history around Lake Okeechobee.
The Cypress Lodge and Port Mayaca are located west near S-308 at Lake Okeechobee. You can see the C-44’s connection from the Lake to the South Fork of the St Lucie River/Indian River Lagoon.
2-18-17: Correction!
Today I figured out, thanks to an article by the Luckhardts, that although not mentioned in the “History of Martin County” on page 252-3 , it was Paul M. Hoenshel of Miami who originally built and operated the lodge. Hoenshel is the grandfather of Elsie Jean Stewart whose “parents were married in the lodge” that I mention…. Jacqui
