- Your Product Type
- Your Study Type
- Aquatic Ecotoxicology
- Aquatic Invertebrates
- OECD 202: Daphnia sp., Acute Immobilisation Test
- OECD 211: Daphnia magna Reproduction Test
- OECD 235: Chironomus sp., Acute Immobilisation Test
- OECD 218/219: Sediment-Water Chironomid Toxicity Test Using Spiked Sediment/Spiked Water
- OECD 233: Sediment-Water Chironomid Life-Cycle Toxicity Test Using Spiked Water or Spiked Sediment
- OECD 225: Sediment-water Lumbriculus Toxicity Test Using Spiked Sediment
- OECD 242: Potamopyrgus antipodarum Reproduction Test
- OECD 243: Lymnaea stagnalis Reproduction Test
- Fish and other vertebrates
- OECD 203: Fish, Acute Toxicity Test
- OECD 215: Fish Juvenile Growth Study
- OECD 212: Fish, Short-term Toxicity Test on Embryo and Sac-fry Stages
- OECD 231: The Amphibian Metamorphosis Assay
- OECD 236: Fish Embryo Acute Toxicity Test
- OECD 210: Fish, Early-life Stage Toxicity Test
- OECD 229 Fish Short Term Reproduction Assay and OECD 230 21-day Fish Assay
- OECD 240 Medaka Extended One Generation Reproduction Test (MEOGRT)
- OECD 248: Xenopus Eleutheroembryonic Thyroid Assay
- OPPTS 850.1500: Fish Life Cycle Toxicity Test
- OÈCD 234 Fish sexual development test
- Aquatic plants
- Analytical Dose Verification
- Aquatic Invertebrates
- Chemistry
- Biodegradation Studies
- Analytical Chemistry Studies and Residues
- Physical-Chemical Properties Studies
- Storage Stability Studies
- OPPTS 830.6302, OPPTS 830.6303,and OPPTS 830.6304: Physical State, Colour and Odor at 20 °C and at 101.3 kPa
- EU A.1: Melting temperature/range
- EU A.2: Boiling temperature
- EU A.3: Relative density (liquids and solids)
- EU A.4: Vapour pressure
- EU A.5: Surface tension
- EU A.9: Flashpoint
- EU A.10: Flammability (solids)
- EU A.12: Flammability (contact with water)
- EU A.13: Pyrophoric properties of solids and liquids
- EU A.16: Relative self-ignition temperature for solids
- EU A.17: Oxidising properties
- OECD 114: Viscosity of Liquids
- Environmental Fate
- Transformation in Soil
- Transformation in Water
- Transformation in Manure
- Adsorption on Soil and Sewage Sludge
- Bioaccumulation and Bioconcentration
- Terrestrial Ecotoxicology
- Non-target Arthropods
- Non-target arthropod testing with the parasitic wasp (Aphidius rhopalosiphi)
- Non-target arthropod testing with the lacewing (Chrysoperla carnea)
- Non-target arthropod testing with the ladybird beetle (Coccinella septempunctata)
- Non-target arthropod testing with the predatory bug (Orius laevigatus)
- Non-target arthropod testing with the predatory mite (Typhlodromus pyri)
- Non-target arthropod testing with the rove beetle (Aleochara bilineata)
- Non-target arthropod testing with the carabid beetle (Poecilus cupreus)
- Non-target arthropod testing with the wolf spider (Pardosa spec.)
- Soil Organisms
- Honey Bees and other Pollinators
- OECD 213/214: Honey bees, Acute Oral and Acute Contact Toxicity Test
- OECD 245: Honey Bee (Apis Mellifera L.), Chronic Oral Toxicity Test (10-Day Feeding)
- OECD 237: Honey Bee Larval Toxicity Test, Single Exposure
- OECD 239: Honey Bee Larval Toxicity Test
- EPPO 170: Honey Bee Field Study – do plant protection products effect honey bee colonies?
- Oomen et al. 1992: Honey Bee Brood Feeding Study
- OECD 75: Honey Bee Brood Test under Semi-field Conditions in Tunnels
- OECD 246/247 Acute Oral and Contact Toxicity to the Bumblebee, Bombus terrestris L.
- Solitary Bee Acute Contact Toxicity Study in the Laboratory (Osmia sp.) Solitary Bee Acute Oral Toxicity Study in the Laboratory (Osmia sp.) (protocols for ringtests with solitary bees recommended by the non-Apis working group)
- SANTE/11956/2016 rev.9 Residue trials for MRL setting in honey
- Non-target plants
- OECD 208: Terrestrial Plant Test - Seedling Emergence and Seedling Growth Test
- OECD 227: Terrestrial Plant Test - Vegetative Vigour Test
- OCSPP 850.4100: Seedling Emergence and Seedling Growth
- OCSPP 850.4150: Vegetative Vigor
- EPPO PP 1/207(2): Efficacy evaluation of plant protection products, Effects on succeeding crops
- Field Studies
- Non-target Arthropods
- Ecological Modelling
- Quality Assurance
- Testing of Potential Endocrine Disruptors
- Aquatic Ecotoxicology
- News
- Company
- Career
- Contact
Where science meets engineering

1st December 2020
For aquatic ecotoxicology tests, any water that conforms to the acceptable chemical characteristics and in which the test species shows appropriate long-term survival is suitable as test water. The test water should be of constant quality during the whole period of the study. To ensure that it is of good and constant quality, we at ibacon produce and store large volumes of reconstituted water. In cooperation with our suppliers, our technicians have designed a fully automated working system that continuously prepares and stores test water.
Reconstituted water is prepared by adding commercial salts to deionised water. Calculated volumes of the stock solutions of four salts (CaCl2, MgSO4, NaHCO3, KCl) are dosed into deionised water. The quality-determining parameters pH, conductivity, and temperature are automatically controlled.
After batch production, the fresh test water is diverted to large storage tanks (5*3000 liter), and it is aerated and circulated in the tanks. pH, conductivity and temperature are controlled, and a resting phase follows. The water is then circulated regularly until the tank is emptied. The use of water in the laboratory brings the need to withdraw water from the tanks. The withdrawals are planned to ensure that the tank in which the contents have been stored the longest is emptied first. The test water is automatically released if the parameters pass the quality criteria, otherwise, the tank will be blocked and no water will be released.
The entire system is centrally controlled and monitored. All measured values and operating states of the components can be easily visualized, and remote monitoring of the performance data is possible. Alarm criteria are stored, and in case they are reached, an alarm message will be sent. The system can also be controlled manually, a user hierarchy has been created and the access is password protected.
This reliable system supplies us with sufficient amounts of test water to carry out our studies in the best conditions.