Morphology and physiology of Morchella esculenta during sclerotial formation

• Published in: Mycological research Vol. 97; no. 6; pp. 683 - 689
• Main Authors: Amir, Rachel, Levanon, Dan, Hadar, Yitzhak, Chet, Ilan
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 1993; Elsevier
• Subjects: Agronomy. Soil science and plant productions; Biological and medical sciences; carbohydrates; cell differentiation; Edible fungi production; Fundamental and applied biological sciences. Psychology; General agronomy. Plant production; hyphae; Morchella esculenta; mycelium; sclerotia; soluble carbohydrates; translocation (plant physiology); Culture medium; Tissue culture; Morchella esculenta; Fungi; Morphology; Hypha; Ascomycetes; Chemical concentration; Carbohydrate; Physiology; Developmental stage; Edible fungi; Thallophyta; Sclerotia
• ISSN: 0953-7562; 1469-8102
• DOI: 10.1016/S0953-7562(09)80148-2

Six major stages were identified in the growth of Morchella esculenta, using the split-plate method of cultivation, up to sclerotial maturation. One side of the plate contained Noble agar (NA), amended with 0·5 m glucose, on which the sclerotia formed. The other contained PDA, on which mycelium formed. Inoculum was placed on the NA side of the plate and the hyphae grew towards the PDA side. When the hyphae reached the end of the plate, the direction of the cytoplasm stream reversed, translocating carbohydrates from the young part of the colony (mycelium) to the older part, at which stage initials formed. As the sclerotia developed, the soluble carbohydrates changed quantitatively and qualitatively, mannitol, arabitol and trehalose appearing in addition to glucose. Total carbohydrates decreased from 50 to 3·2% of the dry weight of the sclerotia. Meanwhile, the mycelial biomass decreased and the soluble carbohydrates virtually disappeared, probably moving to the sclerotia. The hyphal morphology on the NA side developed into pipes to suit the conduction of the cytoplasm stream from the mycelium to the sclerotium.