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Microcolins A and B, new immunosuppressive peptides from the blue-green alga Lyngba majuscula
Title
Microcolins A and B, new immunosuppressive peptides from the blue-green alga Lyngba majuscula.
Creator
Koehn, F. E., Longley, Ross E., Reed, John K.
Date Issued
1992
PURL
http://purl.flvc.org/FCLA/DT/3332998
Subject Headings
Blue-green algae, Oligopeptides, Marine metabolites, Immunosuppressive agents
Format
Document (PDF)
Antiproliferative and immunosuppressive properties of Microcolin A, a marine-derived lipopeptide
Title
Antiproliferative and immunosuppressive properties of Microcolin A, a marine-derived lipopeptide.
Creator
Zhang, L.-H., Longley, Ross E., Koehn, F. E., Harbor Branch Oceanographic Institute
Date Issued
1997
PURL
http://purl.flvc.org/FCLA/DT/3331918
Subject Headings
Proliferation, Immunosuppressive agents, Blue-green algae, Oligopeptides
Format
Document (PDF)
Productivity of Microcoleus lyngbyaceus (Cyanophyceae; Oscillatoriaceae) in various light and temperature conditions
Title
Productivity of Microcoleus lyngbyaceus (Cyanophyceae; Oscillatoriaceae) in various light and temperature conditions.
Creator
Blair, Stephen M., Meyer, M. C., Harbor Branch Oceanographic Institute
Date Issued
1986
PURL
http://purl.flvc.org/fau/fd/FA00007022
Subject Headings
Indian River (Fla. : Lagoon), Microcoleus, Cyanophyceae, Oscillatoriaceae, Blue-green algae
Format
Document (PDF)
Synthetic studies of microcolin B.
Title
Synthetic studies of microcolin B.
Creator
Mattern, R.-H., Gunasekera, Sarath P., McConnell, O. J., Harbor Branch Oceanographic Institute
Date Issued
1995
PURL
http://purl.flvc.org/FCLA/DT/3331904
Subject Headings
Oligopeptides, Cytotoxin, Immunosuppressive agents, Biologically active compounds, Lyngbya, Blue-green algae
Format
Document (PDF)
Nitrogen and phosphorus uptakeand release by the blue-green alga Microcoleus lyngbyaceus
Title
Nitrogen and phosphorus uptakeand release by the blue-green alga Microcoleus lyngbyaceus.
Creator
Zimmermann, Carl F., Harbor Branch Oceanographic Institute
Date Issued
1988
PURL
http://purl.flvc.org/fau/fd/FA00007188
Subject Headings
Indian River (Fla. : Lagoon), Blue-green algae, Cyanobacteria, Microcoleus, Nitrogen, Phosphorus
Format
Document (PDF)
Effects of Electromagnetic Hydrolysis on Dissolved Oxygen in Small Ponds
Title
Effects of Electromagnetic Hydrolysis on Dissolved Oxygen in Small Ponds.
Creator
Iles, Matthew, Bloetscher, Frederick, Florida Atlantic University, College of Engineering and Computer Science, Department of Civil, Environmental and Geomatics Engineering
Abstract/Description
This pilot study was conducted to determine if an Electron Magnetics Oxygen and Hydrogen (EMOH) device can increase the dissolved oxygen (DO) concentration of a residential surface water. By using EMOH, DO concentration will increase and allow bacteria to remove the substrate that creates blue-green algae for which the City of Boynton Beach (City) receives complaints. Those complaints center on odors and the visual appearance of the ponds. The study was conducted in-situ at the INCA Pond...
Show moreThis pilot study was conducted to determine if an Electron Magnetics Oxygen and Hydrogen (EMOH) device can increase the dissolved oxygen (DO) concentration of a residential surface water. By using EMOH, DO concentration will increase and allow bacteria to remove the substrate that creates blue-green algae for which the City of Boynton Beach (City) receives complaints. Those complaints center on odors and the visual appearance of the ponds. The study was conducted in-situ at the INCA Pond system in the City of Boynton Beach, Florida with data collection taking place bi-weekly, using surface aeration techniques. Water sampling was conducted in the INCA Pond system via a handheld water sensor. Primary variable monitored included: water temperature, barometric pressure, DO concentration, and DO saturation (DOSAT). Biomass of dead algae at the bottom of the pond was also monitored to determine if increased DO concentration aided the biological digestion of the organic matter. Data analysis shows that exposure to EMOH treatment allowed the relationship between DO and temperature to change from a negative correlation (the expected relationship) to a positive trend. Furthermore, pressure and DOSAT became less correlated after exposure to EMOH effluent. In all, EMOH was shown to be an effective means of treating hypoxic pond water. The optimal EMOH effluent discharge is determined to be deep in the subject pond. Backed by research on the surface-air water and bubble-water oxygen transfer coefficients, DO concentration in the subject pond was 110% higher when effluent was directed down toward the floor of the pond.
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Date Issued
2019
PURL
http://purl.flvc.org/fau/fd/FA00013220
Subject Headings
Water--Dissolved oxygen, Hydrolysis, Electromagnetic devices, Blue-green algae, Odor control
Format
Document (PDF)