This dataset includes data collected to determine the effects of formaldehyde on nitrification processes in biofilters of recirculating aquaculture systems (RAS) from two field trials. Biofilter nitrification was monitored by measuring the levels of total ammonia nitrogen, nitrite, and nitrate in experimental aquaria containing a small biofilter before and after formaldehyde was applied to the test system.

This dataset includes data collected to determine the effects of formaldehyde on nitrification processes in biofilters of recirculating aquaculture systems (RAS) from two field trials. Biofilter nitrification was monitored by measuring the levels of total ammonia nitrogen, nitrite, and nitrate in experimental aquaria containing a small biofilter before and after formaldehyde was applied to the test system.

This dataset includes laboratory data collected to determine the effects of formaldehyde on nitrification processes in biofilters of recirculating aquaculture systems (RAS). Data from the laboratory studies were used to inform methods used to conduct field trials in a pilot and commercial-scale RAS. Biofilter nitrification was monitored by measuring the levels of total ammonia nitrogen, nitrite, and nitrate in experimental aquaria containing a small biofilter before and after formaldehyde was applied to the test system.

These data were collected to determine the effect of nitrapyrin, a commercial nitrification inhibitor, on nitrification by a diverse nitrifier-enriched microbial (NEM) community. The NEM community was originally collected from an aquaculture pond in Columbia, Missouri and cultured in HEPES-buffered, minimal mineral salts media, supplemented with a nominal dose of 2 milligrams per liter ammonia-nitrogen, added as ammonium-sulfate. NEM were exposed to nitrapyrin (0 to 32 micrograms per liter) for 192 hours. Before dosing, the nitrapyrin was dissolved in dimethyl sulfoxide (DMSO). After dosing, the DMSO concentration in the flasks was 0.1 percent volume to volume. Ammonia, nitrite, nitrate, pH, dissolved oxygen, temperature, water hardness, conductivity, alkalinity, turbidity, and nitrapyrin were monitored at intervals during the experiment.

SOUR and qPCR data. This dataset is associated with the following publication: Kapoor, V., M. Elk, and X. Li. Inhibitory effect of cyanide on wastewater nitrification determined using SOUR and RNA-based gene-specific assays. Letters in Applied Microbiology. Blackwell Publishing, Malden, MA, USA, 63(2): 155-161, (2016).

Limited amounts of forage fish are available as an ingredient in feeds for the expanding aquaculture industry. Work is being conducted on a variety of underutilized materials to provide new sources of protein, oils, and minerals for fish feeds. These materials include invasive species such as carp and mussels, waste from fish and clam processing, and process waste from fish farms. Successful utilization of these materials adds needed protein and marine oils to the growing aquaculture industry, and eliminates the environmental impact of landfill or dumping at sea of these waste streams. Proximate analysis and solubility of new materials.

The information contained in this data release are the results observed and collected during an experiment that tested the efficacy of nine compounds (2’4’ dihydroxychalcone, bithionol sulfoxide, carnidazole, furaltadone, plumbagin, oxyclozanide, quinacrine, tomatine, and toltrazuril), previously found to be effective against the parasitic ciliate family Philasteridae (Iglesias and others, 2002; Sueiro and others, 2022). One commercially available product (Kordon Ich Attack) was also tested, however was omitted from these data as it was not effective at the highest dosage trialed (100 microliters [µL] of the product in 900 µL ciliate culture). The efficacy of the compounds was tested by applying each to subcultures of Philaster apodigitiformis (strain FWC2) originally isolated from coelomic fluid of Diadema antillarum specimen collected from a reef in Key Largo, Florida (FL) on June 15th, 2022 (Hewson, and others, 2023). The compounds were tested at the U.S. Geological Survey St. Petersburg Coastal and Marine Science Center (USGS SPCMSC), Coral Microbial Ecology Laboratory in St. Petersburg, FL, USA between November 2022 and August 2023. Prior to treatment, the compounds were dissolved in either dimethyl sulfoxide (DMSO) or sterile deionized water (DI) to create 20 millimolar (mM) stocks, and further diluted in sterile artificial seawater (ASW) to generate 1 mM working stocks. These working stocks were then used to create final testing concentrations of 100 micromolar (µM), 50 µM, 25 µM, 12.5 µM, 6.25 µM, and 3.13 µM for each run of the experiment. Controls included 1000 µL of unamended culture and 900 µL culture plus either: 100 µL ASW, 100 µL DMSO diluted in ASW to the highest concentration used in the drug trials (i.e., 10 µL DMSO in 190 µL ASW), or 100 µL DI water diluted in ASW to the highest concentration used in the drug trials (i.e., 10 µL DI in 190 µL ASW). Compounds identified to be effective within 24 hours were then trialed for 15-minute exposure periods. Each potentially effective compound was tested at its highest dosage (100 µM) by mixing 90 µL of scuticociliate culture and 10 µL of 1 mM stock solution on a Sedgwick Rafter chamber and observing the mixture continuously for 15 minutes using a Meiji Techno EMZ-13 microscope. Each successful treatment was then trialed again for 15 minutes at 50% the previous concentration. During this experiment, only quinacrine and tomatine showed potential for further testing.

There is no data as no experiments were conducted (literature review). This dataset is associated with the following publication: Li , X., V. Kapoor , C. Impellitteri , and K. Chandran. Measuring nitrification inhibition in wastewater treatment systems: current state of science and fundamental research needs. CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY. CRC Press LLC, Boca Raton, FL, USA, 46(3): 249-289, (2016).

There is no data as no experiments were conducted (literature review). This dataset is associated with the following publication: Li , X., V. Kapoor , C. Impellitteri , and K. Chandran. Measuring nitrification inhibition in wastewater treatment systems: current state of science and fundamental research needs. CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY. CRC Press LLC, Boca Raton, FL, USA, 46(3): 249-289, (2016).

Data were collected to determine the abundance of nitrogen-fixing microorganisms in Cladophora algae growing on rocks, breakwall structures, or submerged dreissenid mussel beds around southern Lake Michigan. Cladophora samples (N=33) were collected between June and September 2015 from three urban areas: (a) Jeorse Park, East Chicago, Indiana, (b) Calumet Beach, Chicago, Illinois, and (c) North Beach, Racine, Wisconsin, and a National Park site, Portage Lakefront, Indiana Dunes National Park, Indiana. Corresponding lake water samples (N=33) were collected approximately 15-20 feet away from submerged algal mats. Genomic DNA was extracted from water and processed algal samples. The abundance of nitrogen-fixing microorganisms in water and algal samples was determined by a SYBR-Green quantitative polymerase chain reaction (qPCR) assay by targeting the nifH gene. The coordinate file includes information regarding sampling locations and their corresponding latitudes and longitudes. The data files include DNA quality and yield from water and algal samples, and abundance of nitrogen-fixing microorganisms in water and algal samples as determined by the SYBR-Green qPCR assay.