Tris(pentane-2,4-dionato-O,O')vanadium

In an acute study with Daphnia magna, Daphnia pulex, Ceriodaphnia reticulata and Simocephalus vetulus (i.e. four cladoceran species) the aquatic toxicity of 13 chemical compounds was investigated. The investigation was performed by US-EPA. The study was done to obtain information about the relative sensitivity of the four daphnid species. One of the compounds was Acetylacetone (IUPAC name: 2,4-pentandione; CAS No. 123-54-6), a degradation product of Vanadium-(III)-acetylacetonate). Exposure duration was 48 h, static test conditions were implemented.

Water from Lake Superior (USA) was used for dilution purposes in this study. This water contained 50,000 to 100,000 bacterial cells per milliliter. These bacteria were available as a food source, making these tests different from acute tests done in sterile water without feeding.

Results: The following LC50 values were revealed for 2,4-pentandione; CAS No. 123-54-6) with the Cladoceran species: Daphnia magna: LC50 (48h) = 35.4 mg/L, Daphnia pulex: LC50 (48h) = >50 mg/L, Ceriodaphnia reticulate: LC50 (48h) >50 mg/L and Simocephalus vetulus: LC50 (48h) >50 mg/L.

The acute toxicity of vanadium as sodium metavanadate to following three benthic species was investigated: Carcinus maenas (crab), Mytilus galloprovincialis (mussel) and Nereis diversicolor (annelid). The marine water used for this study had a natural background concentration of 1.7 µg/L vanadium. For the benthic species 10 concentration levels between 10 and 100 mg/L vanadium were applied.

Total exposure period was 9 days with daily evaluation of the aquatic toxicity. LC50 values (Lethal concentration of vanadium for 50% of population) were determined for the three species. Temperature of marine water was 14°C, salinity detection revealed a value of 38 per mille.

Origin of benthic organisms was the Mediterranean Sea. The test medium (marine water) was changed each 24 hours, i.e. semi-static conditions were implemented.

Results: In general, the phytoplankton species were found to be more sensitive than the benthic organisms used in the experiments. Considering the results from LC50 (9 days) experiments, the organisms, can be classified in the following decreasing order of sensitivity: Nereis diversicolor (LC50 = 10 mg/L; LC100 = 14 mg/L), Carcinus maenas (LC50 = 35 mg/L, LC100 > 100 mg/L), Mytilus galloprovincialis (LC50 = 65 mg/L, LC100 > 100 mg/L).

In a study with aquatic invertebrate Daphnia magna under static conditions toxic effects of Acetylacetone (IUPAC name: 2,4 -pentandione, CAS 123-54-6) and further 182 chemical compounds were investigated. The test was performed according a draft versionn of the national German Standard DIN 38412, Part II (1982).

The standardized test strain Daphnia magna IRCHA served as test organism. The stock cultures were fed standardized dry algae. Testing of the toxic action of the water pollutants was performed in a chemically and physically defined standardized culture medium ('"artificial fresh water"), following the requirements of the mentioned guideline.

When evaluating the test results, the EC50 values of the substances tested were determined according to a mathematically standardized method. Beyond this, the toxicologically relevant range of the EC was determined bv establishing the EC0 and the EC100. The results of 183 pollutants have been listed in tables classified by substance groups.

Results: EC 50 values < 10 mg/L were detected for the following substances: ln the group of the loxicologicallv effective cations tested, the EC50 was: for Ag+ <0.01 mg/L, for Hg2+ and Cu2 + <0.1 mg/L, for Ti+ and Cd2+ < 1 mg/L. In the group of the loxicologically effective anions tested, the EC 50 was: for (Cr2O7)2- < 1 mg/L, for CN-, J- and (SeO3)2 - < 10 mg/L, for S2 - and (AsO4)3- it was in the range of 10 mg/L. Further loxicologically effective inorganic substances such as H202 (30%) and N2H5OH (80%) had an EC50 < 10 mg/L. In the groups of the organic substances tested, the EC 50 for hydroquinone, 4-nonyl phenol and pentachlorphenol was <1 mg/L and < 10 mg/L for a range of further organis compounds.

Following results were determined for the compound Acetylacetone (IUPAC name: 2,4 -pentandione, CAS 123-54-6): EC0 (24 h) = 12 mg/L, EC50 (24 h) = 40 mg/L (95% confidence interval: 31-52 mg/L) , EC100 (24 h) = 90 mg/L.

The 24 hour LC50 values of 173 substances hazardous in water was determined by means of a standardized procedure using 24-h-old animals from a clone of Daphnia magna. The test was performed under static conditions. Mobile daphnids were counted after 24 h, i.e. ability of daphnids to swim after exposure to the chemicals was analyzed. At the same time, the LC0 and LC100 for each of these pollutants were determined. One of the investigated chemicals was Acetylacetone (IUPAC name: 2,4 -pentandione; CAS No. 123 -54 -6), a degradation product of Vanadium-(III)-acetylacetonate.

The test medium was tap water free from chlorine, saturated with oxygen, hardness 16° d.H.(German degrees), pH 7,6 - 7,7, temperature of 20° - 22°C.

Dilution series of the chemical compounds were prepared by dilution of 1:2 in a first step. If number of concentration levels between detected LC0 and LC100 values was below three, further dilutions were prepared (quotients equivalent to 1:1.3 and 1:1.1)

Results: Within the range of 173 pollutants examined, the lowest LC50 values were determined for hydroquinone as well as for the effective ions of the metals Ag, Hg and Cu in the concentration range of 0.001 - < 0.1 mg/L. The LC50 of the effective ion of the compounds of Cd and CN examined, as well as of aniline and hydrazine hydroxide, was in the concentration range of 0.1 - < 1,0 mg/L. The LC50 for the effective ions of compounds of Cr, Ti, Pb und S, as well as for 2-ethyl hexyl amine, 2,3 -dinitro-toluene, salicyl-aldehyde, m-cresol, 4,6 -dinitro-o-cresol and benzyl-chloride, was in the concentration range of 1 to <10 mg/L. The LC50 of the majority of the pollutants examined was in the concentration range of 10 -1000 mg/L.

Following results were determined for the compound Acetylacetone (CAS 123 -54 -6): LC0 (24 h) = 45 mg/L, LC50 (24 h) = 100 mg/L, LC100 (24 h) = 125 mg/L.

This study was undertaken in co-operation with US-EPA to determine the relative acute toxicity of a variety of organic chemicals to a variety of freshwater animals under standardized test conditions, and for the purpose of determining to what extent a single species might be used as a surrogate for others. Among the chemicals investigated in this study was Acetylacetone (IUPAC name: 2,4 -pentandione; CAS No. 123 -54 -6) a degradation product of Vanadium-(III)-acetylacetonate).

The species tested included six fishes, two crustaceans, achironomid and an amphibian. Insofar as possible, similar laboratory testing procedures were used, including the same dilution water and identical analytical chemistry procedures for all tests on any one chemical.

Acute toxicity to Daphnia magna was tested under static conditions and 48 h exposure period. Tests on Daphnia were conducted on 0-24-h old neonates obtained from gravid females which were isolated from the stock colony 20-24 h prior to the start oreach test. Twenty Daphma were used for controls and tested at each toxicant concentration, five each in four beakers or jars. Dilution water for all tests, and water in which all animals were cultured prior to each test, was obtained from a ground water spring source. At the end of 48 h live and dead Daphnia were counted. Immobilized animals that showed respiratory or appendage movement were counted as live. The analytical part of this study was performed according to following guidelines: US-EPA (1974): Methods for chemical analysis of water and wastes. EPA-625/6-74-003 and APHA (1980): Standard Methods far die Examination of Water and Wastewater, 15th Edition. American Public Health Association, Washington, DC. Each toxicant was analyzed at the beginning and at the end of each Daphnia test. At the start of each static test on Daphnia toxicants were analyzed from the stock solutions of each concentration.

Results for Acetylacetone (IUPAC name: 2,4 -pentandione; CAS No. 123-54-6): LC50 (48 h) for Daphnia magna = 47.6 mg/L (43.4 to 52.1 mg/L).