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Flood of ‘08 served up feast for fish
May 28, 2009
By Jennifer Yauck
One year ago this month, a series of severe storms moving across the Midwest dropped nearly a foot of rain on the Milwaukee area in just 10 days. The deluge caused widespread flooding that damaged homes and businesses, washed out roads, closed the airport, and belched plumes of sediment, debris, and sewage into Lake Michigan.
But the flood may also have delivered food to some of Lake Michigan’s fish when they needed it most.
Among the many things the area’s swollen rivers carried out to Lake Michigan during and after the storms was a mix of the rivers’ microscopic algae (phytoplankton), including diatoms, said Carmen Aguilar, a scientist at the Great Lakes WATER Institute. Diatoms are one of the largest forms of phytoplankton and the only form having glass-like cell walls made of silica. Diatoms also are packed with lipids, making them a nutritious meal for newly hatched fish and the tiny aquatic animals that newly hatched fish also eat.
“Compared to other phytoplankton, diatoms are like juicy steaks,” said Aguilar, who has been studying Lake Michigan’s diatoms and other phytoplankton for over a decade.
According to Aguilar, diatoms historically accounted for most of the phytoplankton found in the sun-fueled spring blooms in the Milwaukee-area waters of Lake Michigan. Those blooms typically begin in shallow, nearshore waters in late April and May, and spread to offshore waters in May and June, where they eventually sink. In the past, the diatom-rich blooms nourished the tiny animals that in turn nourished the babies of spring-spawning fish such as perch, which hatch around mid-June.
This satellite image of Lake Michigan was taken July 10, 2008, one month after the storms. The colors reflect the concentration of chlorophyll, a pigment found in phytoplankton, in the lake’s surface waters. Higher concentrations of chlorophyll (red) indicate a higher abundance of phytoplankton (most of which were diatoms in this case), while lower concentrations (blue) indicate lower abundance. The highest abundances of phytoplankton are seen at the mouths of major rivers around the lake (1-Milwaukee River drainage; 2-Two Rivers; 3-Sturgeon Canal; 4-Northern Green Bay/Death’s Door; 5-Muskegon Lake drainage; 6-Portage Lake/Frankfort drainage area). ~courtesy William Balch, Bigelow Laboratory for Ocean Science
But the makeup of the blooms began changing around 2003, according to Aguilar. That’s when the invasive quagga mussel-a voracious filter feeder with a fondness for diatoms-became well established in Lake Michigan. As a result of the quaggas’ feeding habits, the diatom population has declined significantly in recent years in the areas that Aguilar studies-within about 40 miles of Milwaukee-if not beyond.
The diatom decline, in turn, has left each year’s batch of newly hatched perch and other baby fish struggling to survive on a less nutritious diet, said Aguilar. As a result, these fish have a smaller chance of growing into adults and producing new young to sustain their populations. For an already struggling fish like perch, whose population in the Wisconsin waters of Lake Michigan dropped from a high of 23.6 million to a low of 264,000 since the early 1990s, that’s not good news.
But last year’s baby fish may have caught a break in the form of the June flood, which Aguilar said forced massive amounts of water-and diatoms-through the area’s rivers and out into Lake Michigan in a giant plume. She and her colleagues investigated the plume during a research cruise aboard the WATER Institute’s Neeskay June 10, 2008, just two days after the heaviest rains. What they found surprised them. “Outside the plume it was the same old, same old, but inside the plume there were diatoms everywhere,” said Aguilar. “Everybody was like, ‘Wow!’”
What’s more, the diatoms flourished unusually late into the summer-mid-July-and drifted unusually far-to the middle of the lake-as the plume expanded. Based on analysis of water samples for silica, the material found in diatom cell walls, and chlorophyll, a green pigment found in diatoms and other phytoplankton, Aguilar estimates some areas of the lake had two to three times more diatoms in 2008 than in 2007.
Most importantly for perch, all those diatoms entered the food web right around hatching time. Aguilar and fellow scientist Russell Cuhel suggest that such coincidences can dramatically improve baby perch survival, and may explain why some years have a “baby boom” of perch larvae. Such booms have occurred in the past during so-called El NiƱo years, when storms increased the lake’s turbulence and stimulated diatom growth in May and June, they said. And anecdotal reports suggest that the alewife, another Lake Michigan prey fish that also would have benefited from the 2008 influx of diatoms, reproduced in much higher numbers last year compared to other recent years.
So far, 2008 hasn’t stood out as a boom year, based on initial assessments by the Wisconsin Department of Natural Resources. But booms often do not become evident until several years later, when fish are bigger and more easily captured during assessments. Such was the case for perch born in 1998, 2002, and 2003.
Should 2008 eventually prove to be a strong year, it would provide a small boost to the diminished perch population, said Aguilar-but it would still only be a small step toward significant recovery.
Jennifer Yauck is a science writer at the Great Lakes WATER Institute. GLWI (glwi.uwm.edu) is the largest academic freshwater research facility on the Great Lakes.
AMAZING FLOOD
The Milwaukee River drains an area of almost 700 square miles before converging with the Menomonee and Kinnickinnic Rivers in downtown Milwaukee. After a series of severe rainstorms between June 5 and 14, 2008, water flowed through the Milwaukee River at a rate as high as 60,000 gallons per second, according to U.S. Geological Survey readings taken at Estabrook Park. That’s 32 times the normal June flow rate of 1,870 gallons per second!
Showing posts with label fish food. Show all posts
Showing posts with label fish food. Show all posts
Thursday, May 28, 2009
Saturday, October 4, 2008
NUALGI - Uses
Sewage treatment
Diatom growth in sewage will increase the dissolved oxygen level.
This is an alternative to the mechanical aeration used in wastewater treatment plants / sewage treatment plants.
Lake restoration
Lakes polluted with sewage and other organic matter can be cleanup.
Diatom growth will increase the dissolved oxygen level and thus enable the aerobic bacteria to thrive and breakdown the organics into base constituents.
Harmful bacteria like Green Algae and Blue Green Algae will die out. Fish population will increase and this further helps keep the lake clean.
Prevent Fish Kills
The most common reason for mass fish kill is the drop in dissolved oxygen level in the waterbody, this can be prevented by use of Nualgi.
If fish kill is a seasonal phenomenon (spring in USA and Monsoon in India) Nualgi can be used during the problematic period.
Prevent Red Tides
Red tides occur in oceans due to bloom of Dinoflagellates.
This can be prevented by increasing the population of diatom algae in the water.
Fish food
Diatoms are at the base of the food chain.
This can be used to increase population of Zooplankton in aquariums, fish farms, lakes and oceans to increase the food availability of food.
Diatom growth in sewage will increase the dissolved oxygen level.
This is an alternative to the mechanical aeration used in wastewater treatment plants / sewage treatment plants.
Lake restoration
Lakes polluted with sewage and other organic matter can be cleanup.
Diatom growth will increase the dissolved oxygen level and thus enable the aerobic bacteria to thrive and breakdown the organics into base constituents.
Harmful bacteria like Green Algae and Blue Green Algae will die out. Fish population will increase and this further helps keep the lake clean.
Prevent Fish Kills
The most common reason for mass fish kill is the drop in dissolved oxygen level in the waterbody, this can be prevented by use of Nualgi.
If fish kill is a seasonal phenomenon (spring in USA and Monsoon in India) Nualgi can be used during the problematic period.
Prevent Red Tides
Red tides occur in oceans due to bloom of Dinoflagellates.
This can be prevented by increasing the population of diatom algae in the water.
Fish food
Diatoms are at the base of the food chain.
This can be used to increase population of Zooplankton in aquariums, fish farms, lakes and oceans to increase the food availability of food.
Friday, October 3, 2008
NUALGI - SOLUTION TO POLLUTION
Nualgi
Solution to Pollution
Solution to human waste treatment (Water pollution)
Solution to Carbon dioxide emissions and Global Warming (Air pollution)
By product – fish (increase in food availability)
www.nualgi.com/new and www.kadambari.net
* * *
Key Words – Phyto-remediation, bio-remediation, wastewater treatment, sewage
treatment, lake remediation, aeration, diatom algae, water pollution, polluted lakes.
* * *
All of us contribute to sewage and pollution.
We generate waste and flush it down the drain and it flows out as sewage.
In Indian cities one person generates about 100 litres of sewage per day.
We burn fossil fuel -
for conveyance – two wheelers, cars, buses, trains and aeroplanes,
LPG for cooking, and
electricity at home and office.
50 litres of petrol releases 150 kgs of carbon dioxide and 1 kWh of electricity from coal fired thermal power plants results in 0.8 kgs (Avg) of carbon dioxide emission.
The Problem:
Disposal of human waste is becoming a great challenge day by day. Rapid urbanization has increased the amount of sewage and higher population density has reduced the space available to set up STPs. Pumping and treatment of sewage is very expensive and lack of adequate sewage treatment facilities is resulting in pollution of lakes and rivers.
Higher CO2 in the atmosphere is leading to global warming.
The Solution :
Now there is a simple and effective solution within the reach of everyone to contribute directly to the cleaning up of sewage and to reduce CO2 in the atmosphere – NUALGI.
You are aware that aforestation leads to cleaner air, similar results can be achieved by growing algae in water. Algae are aquatic plants that also use photosynthesis to absorb CO2 and release oxygen.
Higher oxygen levels in water enable aerobic bacteria to grow and these breakdown organics in sewage into the base constituents, these are consumed by plankton or become harmless sludge.
What is Nualgi?
Nualgi is a plant nutrient in Nano particle size and this is used to grow diatom algae in any water including water polluted with sewage. It has micronutrients (P, Ca, Mg, Fe, Mn, Zn, Cu, B, S, Co, Mo, Si) in nano form (20 nano meters to 150 nano meters in size) and these are easily absorbed by the microscopic diatom algae (0.05 to 0.5 mm in size).
Diatom algae are aquatic plants that undergo photosynthesis and absorb carbon and release oxygen and they also consume nutrients like nitrates and phosphates, thus removing them from the water body.
Diatoms have a silica body and are eaten by zooplankton, these are in turn consumed by fishes, higher fish population attracts birds, thus polluted lakes and rivers are restored to their original glory.
Green and Blue Green Algae have a cellulose body and hence cannot be consumed by Zooplankton. Thus when these proliferate in polluted lakes the lakes become green in colour and smell due to the decaying organics and algae.
Nualgi dispersed in water looks like a solution but has very fine particles of the size estimated to be 20 to 150 nanometers. The particles are not visible to the naked eye or under compound microscope.
Nualgi is made by a complex process. The product has been patented, Indian patent no. 209364 dated 27/08/2007. PCT Patent has been also been granted.
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