酸性森林土壤和耐酸真菌中的异养硝化作用。
Heterotrophic nitrification in an Acid forest soil and by an Acid-tolerant fungus.
机构信息
Laboratory of Soil Microbiology, Department of Agronomy, Cornell University, Ithaca, New York 14853.
出版信息
Appl Environ Microbiol. 1986 Nov;52(5):1107-11. doi: 10.1128/aem.52.5.1107-1111.1986.
Nitrate was formed from ammonium at pH 3.2 to 6.1 in suspensions of a naturally acid forest soil; the maximum rates of formation occurred at ca. pH 4 to 5. Nitrate was also formed from soil nitrogen in suspensions incubated at 50 degrees C. Autotrophic nitrifying bacteria could not be isolated from this soil. Enrichment cultures produced nitrate in a medium with beta-alanine if much soil was added to the medium, and nitrite but not nitrate was formed in the presence of small amounts of soil. Nitrification by these enrichments was abolished by eucaryotic but not procaryotic inhibitors. A strain of Absidia cylindrospora isolated from this soil was found to produce nitrate and nitrite in a medium with beta-alanine at pH values ranging from 4.0 to 4.8. Nitrate production by A. cylindrospora required the presence of sterile soil. Free and bound hydroxylamine, hydroxamic acids, and primary aliphatic nitro compounds did not accumulate during the conversion of beta-alanine to nitrite by the fungus. The organism also formed nitrite from ammonium in a medium containing acetate. We suggest that nitrification in this soil is a heterotrophic process catalyzed by acid-tolerant fungi and not by autotrophs or heterotrophs in nonacid microsites.
硝酸盐在 pH 值为 3.2 到 6.1 的自然酸性森林土壤悬浮液中由铵形成;最大形成速率出现在约 pH 值 4 到 5。硝酸盐也可以由 50°C 培养的土壤氮在悬浮液中形成。从该土壤中无法分离出自养硝化细菌。如果向培养基中添加大量土壤,富集培养物可以在含有β-丙氨酸的培养基中产生硝酸盐,并且在添加少量土壤时会形成亚硝酸盐而不是硝酸盐。这些富集物的硝化作用被真核生物抑制剂而不是原核生物抑制剂所抑制。从该土壤中分离出的一株柱孢霉属被发现可以在 pH 值为 4.0 到 4.8 的含β-丙氨酸的培养基中产生硝酸盐和亚硝酸盐。柱孢霉属产生硝酸盐需要无菌土壤的存在。在真菌将β-丙氨酸转化为亚硝酸盐的过程中,游离和结合的羟胺、羟肟酸和伯脂肪族硝基化合物不会积累。该生物还可以在含有乙酸盐的培养基中从铵形成亚硝酸盐。我们认为,这种土壤中的硝化作用是一种由耐酸真菌催化的异养过程,而不是由非酸性微生境中的自养生物或异养生物进行的。
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