ABSTRACTIsolates of Pythium oligandrum Drechsler and P. acanthicum Drechsler behaved similarly in a range of experiments and in a manner consistent with mycoparasitism. They grew on cellulose in association with some fungi ‐ notably Botryotrichum pilulferum Sacc. & March. and Phialophora radicicola Cain var. radicicola (IMI 187786) ‐ and markedly reduced cellulolysis by these species; however, they had little effect on cellulolysis by Gaeumannomyces graminis (Sacc.) Arx & Olivier var. graminis and made little growth on cellulose in the presence or absence of this fungus.Pythium oligandrum and P. acanthicum also grew rapidly across plates of potato‐dextrose agar precolonised by Phialophora radicicola var. radicicola, whereas isolates of P. echinulatum Matthews, P. mamillatum Meurs, P. megalacanthum de Bary, P. spinosum Sawada and P. ultimum Trow did not grow under these conditions. Precolonised agar plates were therefore used as a selective medium to isolate Pythium oligandrum and similar fungi from soils. For this, small pieces of soil organic matter were transferred to precolonised agar plates and incubated for 4–6 (‐12) days, when the presence of P. oligandrum or similar fungi was assessed by their production of spiny oogonia across the host colony. The technique proved successful in isolating these fungi from a wide range of cultivated soils, even if the soils had been stored air‐dry. However, boiled hemp seeds buried in soil and subsequently transferred to precolonised agar plates usually gave rise to phytopathogenic rather than mycoparasitic pythia.Pieces of wheat straw precolonised by P. oligandrum decomposed at the same rate as virgin straws or straws precolonised by P. ultimum or Mucor hiemalis Wehmer, when all were buried in nitrogen‐supplemented soil. However, different cellulolytic fungi appeared to colonise straws in these respective treatments, Fusarium spp. being less common and Stachybotrys atra Corda more common in the presence of P. oligandrum than in its absence. When subsequently opposed to P. oligandrum on agar plates, Fusarium spp. appeared to be parasitised by this fungus and made very little growth across the agar, whereas S. atra grew through the colony of P. oligandrum and was clearly unaffected by the presence of this fungus.Our results demonstrate the widespread occurrence of P. oligandrum in cultivated soils in Britain and also suggest that this species might influence the activities of other soil fungi.