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在干燥土壤中,反硝化酶活性的持续存在。

Persistence of denitrifying enzyme activity in dried soils.

机构信息

Department of Agronomy, University of Kentucky, Lexington, Kentucky 40546.

出版信息

Appl Environ Microbiol. 1985 Feb;49(2):316-20. doi: 10.1128/aem.49.2.316-320.1985.

Abstract

The effects of air drying soil on denitrifying enzyme activity, denitrifier numbers, and rates of N gas loss from soil cores were measured. Only 29 and 16% of the initial denitrifying enzyme activity in fresh, near field capacity samples of Maury and Donerail soils, respectively, were lost after 7 days of air drying. The denitrifying activity of bacteria added to soil and activity recently formed in situ were not stable during drying. When dried and moist soil cores were irrigated, evolution of N gas began, and it maximized sooner in the dried cores. This suggests that the persistence of denitrifying enzymes permits accelerated denitrification when dried soils are remoistened. Enzyme activity increased significantly in these waterlogged cores, but fluctuations in enzyme activity were small compared with fluctuations in actual denitrification rate, and enzyme activities were always greater than denitrification rates. Apparent numbers of isolatable denitrifiers (most-probable-number counts) decreased more than enzyme activity as the soils were dried, but after the soils were rewetted, the extent of apparent growth was not consistently related to the magnitude of N loss. We hypothesize that activation-inactivation of existing enzymes by soil O(2) is of greater significance in transient denitrification events than is growth of denitrifiers or synthesis of new enzymes.

摘要

研究了风干土壤对反硝化酶活性、反硝化菌数量以及土壤中氮气体损失速率的影响。在新鲜、近田间持水量的 Maury 和 Donerail 土壤样本中,风干 7 天后,初始反硝化酶活性分别仅损失了 29%和 16%。添加到土壤中的细菌的反硝化活性和新形成的原位反硝化活性在干燥过程中不稳定。当干燥和湿润的土壤芯被灌溉时,氮气体的演化开始,并且在干燥的芯中更快地达到最大值。这表明,当干燥的土壤重新湿润时,反硝化酶的持久性允许加速反硝化作用。在这些水淹的核心中,酶活性显著增加,但与实际反硝化速率的波动相比,酶活性的波动很小,并且酶活性始终大于反硝化速率。随着土壤变干,可分离的反硝化菌(最可能数计数)的数量明显减少,超过了酶活性,但在土壤重新湿润后,明显生长的程度与氮损失的程度并不一致。我们假设,土壤中氧气对现有酶的激活-失活在瞬态反硝化事件中比反硝化菌的生长或新酶的合成更为重要。

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