Summary
The colonization-pattern of aquatic Hyphomycetes on five-gram leaf packs of oak and alder submerged in a stream was quantified and compared. There were three series of alder leaves, submerged two weeks apart, and one series of oak. Colonization of leaves by pectolytic bacteria was also measured. There were marked similarities in the colonization of all four series. Total spore counts/g dry wt of leaf rose to a peak followed by a decline. The time taken to peak colonization was slower in oak than in alder, and in alder depended on the level of inoculum in the stream, as did the extent of colonization. Pectolytic bacteria counts followed the pattern of total spore counts, suggesting the exploitation of the same substrates by bacteria and fungi. Temperature and micro-environmental factors influence the overall rate of leaf degradation. Alder I was skeletonized in 10 wks, Alders II and III in 12 wks and oak in 25 wks.
The resource was shown to have an upper limit of microbial colonization, and within this ‘unit-community’ of microbes, there was an association of four dominant species of aquatic Hyphomycetes, together with about ten occasional species. The dominant species are subject to selection from the inoculum available in the stream and the formation and maintenance of the association appears to be the result of competitive interactions between species which results in a dynamic equilibrium. There is a low degree of resource specificity. The species equilibrium is 14 for all series, and species numbers are initially low, rise to a peak, then tend to decline. There is a taxonomic similarity of about 60% between successive stands of all series and between matched stands of alder.
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References
Benoit RE, Starkey RH (1968) Enzyme inactivation as a factor in the inhibition of decomposition of organic matter by tannins. Soil Sci 105:203–208
Chamier A-C (1980) Pectinases in leaf degradation by aquatic Hyphomycetes. PhD thesis. University of London.
Chamier A-C, Dixon PA (1981) Pectinases in leaf degradation by aquatic Hyphomycetes II: The Enzymes and Leaf Maceration (In press)
Evans JH (1972) A modified sedimentation system for counting algae with an inverted microscope. Hydrobiol 40:247–250
Feeny P, Bostock H (1968) Seasonal changes in the tannin content of oak leaves. Phytochemistry (Oxf.) 7:871–880
Gönczöl J (1975) Ecological observations on the aquatic Hyphomycetes of Hungary I. Acta Bot Acad Sci Hung 21:243–264
Hankin L, Zucker M, Sands DC (1971) Improved solid medium for the detection and enumeration of pectolytic bacteria. Appl Microbiol 22:205–209
Harrison AF (1971) The inhibitory effect of oak leaf litter tannins on the growth of fungi in relation to litter decomposition. Soil Biol Biochem 3:167–172
Hering TF (1967) Fungal decomposition of oak leaf litter. Trans Br mycol Soc 50:267–273
Ingold CT (1975) Guide to Aquatic Hyphomycetes. Freshwater Biological Association. Cumbria.
Kaushik NK, Hynes HBN (1971) The fate of dead leaves that fall into streams. Arch Hydrobiol 68:1465–1515
Kurcheva GF (1960) The role of invertebrate animals in the decomposition of oak litter. Pedology, Leningr 4:16–23
Reice SR (1974) Environmental patchiness and the breakdown of litter in a woodland stream. Ecology 55:1271–1282
Sanders PF, Anderson JM (1979) Colonization of wood blocks by aquatic Hyphomycetes. Trans Br mycol Soc 73:103–107
Sedell JR, Triska FJ, Triska NS (1975) The processing of conifer and hardwood leaves in two coniferous forest streams I. Weight loss and associated invertebrates. Verh Internat Verein Limnol 19:1617–1627
Southwood TRE (1978) Ecological Methods. Chapman & Hall, London. 2nd Ed.
Suberkropp K, Klug MJ (1976) Fungi and bacteria associated with leaves during processing in a woodland stream. Ecology 57:707–719
Suberkropp K, Godshalk GL, Klug MJ (1976) Changes in the chemical composition of leaves during processing in a woodland stream. Ecology 57:720–727
Swift MJ (1976) Species diversity and the structure of microbial communities in terrestrial habitats. In: The Role of Terrestrial and Aquatic Organisms in Decomposition Processes. Anderson JM, Macfadyen A (eds). Blackwell Sci Pubs
Triska FJ (1970) Seasonal distribution of aquatic Hyphomycetes in relation to the disappearance of leaf litter from a woodland stream. PhD thesis. University of Pittsburgh
Triska FJ, Sedell JR, Buckley B (1975) The processing of conifer and hardwood leaves in two coniferous forest streams II. Biochemical and Nutrient changes. Verh Int Verein Limnol 19:1628–1639
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Chamier, AC., Dixon, P.A. Pectinases in leaf degradation by aquatic hyphomycetes I: the field study. Oecologia 52, 109–115 (1982). https://doi.org/10.1007/BF00349018
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DOI: https://doi.org/10.1007/BF00349018