Journal
SOIL BIOLOGY & BIOCHEMISTRY
Volume 33, Issue 2, Pages 249-252Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/S0038-0717(00)00122-X
Keywords
anaerobic; arable soil; ethylene; forest soil; microorganisms
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Turn-over (i.e. production and consumption) of ethylene was examined in contrasting soil types to evaluate the effect of environmental changes on C2H4 dynamics. Three general responses to batch incubation with C2H4 (generally 12-16 mul l(-1)) were observed: (i) arable soil and lake sediment required prolonged acclimation (1-4 weeks) for C2H4 consumption and showed no C2H4 production; (ii) coniferous and deciduous forest soil showed an inherent capacity for C2H4 consumption (21-85 pmol C2H4 g(-1) dry wt h(-1)) and a subsequent C2H4 production (4-26 pmol C2H4 g(-1) dry wt h(-1)), which coincided with a depletion of O-2 to below similar to1%; (iii) coniferous litter samples showed a slight C2H4 consumption (0-30 pmol C2H4 g(-1) dry wt h(-1)) followed by a large C2H4 production (32-120 pmol C2H4 g(-1) dry wt h(-1)), again coinciding with depletion of the O-2 pool. The results for forest samples indicated that C2H4 was produced and consumed simultaneously under aerobic conditions, while it was only produced under sub-oxic conditions. Similar patterns of C2H4 turn-over were found in samples collected in different years and both C2H4-consuming and -producing microorganisms survived during storage at 2 degreesC for 22 months. Notably in coniferous soil, changes in C2H4 dynamics apparently could have the potential to adversely influence plant growth. (C) 2001 Elsevier Science Ltd. All rights reserved.
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