| Editor's Page | ||
| 1. | E. Talpsep, E. Heinaru, J. Truu, T. Laht, H. Wand, U. Stottmeister, A. Heinaru. Functional dynamics of microbial populations in waters contaminated with phenolic leachate | 435-453 |
| 2. | E. Heinaru, E. Talpsep, A. Linnas, A. Heinaru, U. Stottmeister. Metabolic and genetic diversity of phenol-utilizing bacteria as an enhancer of natural biodegradation in polluted waters | 454-468 |
| 3. | A. Kahru, M. Kurvet, I. Kurvet. Study of the toxicological impact of different components of ash-heap water (sulphur rich phenolic leachate) using luminescent bacteria as test organisms | 469-475 |
| 4. | K. Orupõld, A. Ohlsson, T. Henrysson. Batch trials to simulate biological treatment in lagoons of leachate from oil-shale ash heaps | 476-487 |
| 5. | F. J. Castaldi. Single sludge activated sludge biological treatment of carbon, nitrogen, and phosphorus in combined municipal and industrial waste- waters from the Kohtla-Järve region of Estonia | 488-508 |
| 6. | K. Hellat, A. Mashirin, P. Nigu, K. Orupõld, T. Tenno. Biodegradability studies of Kohtla-Järve wastewaters by activated sludge respiration | 509-517 |
| 7. | T. Kikas, K. Tammeveski, T. Tenno. BOD measurement in phenolic waste- waters by using biosensor based on immobilised bacteria | 518-525 |
| 8. | J. Truu, T. Alamäe, E.Heinaru, E. Talpsep, U. Kokassaar, T. Tenno, A. Heinaru. Impact of oil shale mine water on microbiological and chemical composition of north-eastern Estonian rivers | 526-532 |
| 9. | I. Johannes, L. Mölder, L. Tiikma. Concentration of oil shale originated phenols by SPE | 533-543 |
| 10. | I. E. Sooba, O. Jáuregui, M. T. Galceran, T. Tenno. Determination of phenols by liquid chromatography with electrochemical and UV detection | 544-553 |
| Archives | ||
| 11. | R. Rahe. Short review of investigations on the treatment of oil shale industry wastewaters in 1960-1990 | 554-560 |
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