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本文引用的文献

1
Potential for nitrogen fixation in maize genotypes in Brazil.巴西玉米基因型的固氮潜力。
Proc Natl Acad Sci U S A. 1975 Jun;72(6):2389-93. doi: 10.1073/pnas.72.6.2389.
2
Acetylene reduction by soil cores of maize and sorghum in Brazil.巴西玉米和高粱根际土壤的乙炔还原。
Appl Environ Microbiol. 1977 Mar;33(3):626-9. doi: 10.1128/aem.33.3.626-629.1977.
3
Methods for Growing Spirillum lipoferum and for Counting It in Pure Culture and in Association with Plants.螺旋体属在纯培养和与植物共生时的生长方法及其计数方法。
Appl Environ Microbiol. 1977 Jan;33(1):85-8. doi: 10.1128/aem.33.1.85-88.1977.
4
Acetylene reduction (nitrogen fixation) by enterobacteriaceae isolated from paper mill process waters.从造纸厂工艺水中分离出的肠杆菌科的乙炔还原(固氮)。
Appl Environ Microbiol. 1976 Aug;32(2):197-205. doi: 10.1128/aem.32.2.197-205.1976.
5
Asymbiotic nitrogen-fixing bacteria from the surfaces of nodules and roots of legumes.来自豆科植物根瘤和根表面的非共生固氮细菌。
Can J Microbiol. 1972 Jan;18(1):13-21. doi: 10.1139/m72-003.
6
The acetylene reduction assay for measuring nitrogen fixation in waterlogged soil.用于测量淹水土壤中固氮作用的乙炔还原测定法。
Can J Microbiol. 1971 Aug;17(8):1049-56. doi: 10.1139/m71-166.
7
Nitrogen fixation associated with grasses in Oregon.俄勒冈州与禾本科植物相关的固氮作用。
Can J Microbiol. 1976 Apr;22(4):523-30. doi: 10.1139/m76-078.
8
Acetylene reduction (nitrogen fixation) associated with corn inoculated with Spirillum.与接种了螺菌属细菌的玉米相关的乙炔还原(固氮作用)
Appl Environ Microbiol. 1976 Jul;32(1):108-13. doi: 10.1128/aem.32.1.108-113.1976.

内布拉斯加州冬小麦和高粱根系的固氮作用(乙炔还原)

Nitrogen fixation (acetylene reduction) associated with roots of winter wheat and sorghum in Nebraska.

作者信息

Pedersen W L, Chakrabarty K, Klucas R V, Vidaver A K

出版信息

Appl Environ Microbiol. 1978 Jan;35(1):129-35. doi: 10.1128/aem.35.1.129-135.1978.

DOI:10.1128/aem.35.1.129-135.1978
PMID:623458
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC242791/
Abstract

Root segments and root-soil cores (6.5-cm diameter) from fields and nurseries of winter wheat and sorghum were tested for N2 fixation by using the acetylene reduction assay. Wheat samples (approximately 1,200) from 109 sites generally had low or no activity (0 to 3.1 nmol of C2H4 produced per h per g [dry weight] of root segments), even after 24 h of incubation. However, a commercial field of Scout 66, located in western Nebraska, exhibited appreciable activity (290 nmol of C2H4 produced per h per g [dry weight] of root segments). Of 400 sorghum lines and crosses, grain sorghums (i.e., CK-60A, Wheatland A, B517, and NP-16) generally exhibited higher nitrogenase activity than forage sorghums or winter wheats. CK-60A, a male sterile grain sorghum, was sampled at four locations and had the most consistent activity of 24 to 1,100 nmol of C2H4 produced per h per core. The maximum rate extrapolated to 2.5 g of N per hectare per day. Numerous N2-fixing bacterial isolates were obtained from wheat and sorghum roots that exhibited high nitrogenase activity. Most isolates were members of the Enterobacteriacae, i.e., Klebsiella pneumoniae, Enterobacter cloacae, and Erwinia herbicola.

摘要

通过乙炔还原法对冬小麦和高粱田间及苗圃中的根段和根际土柱(直径6.5厘米)进行固氮测试。来自109个地点的小麦样本(约1200个)通常活性较低或无活性(每克[干重]根段每小时产生0至3.1纳摩尔乙烯),即使经过24小时培养也是如此。然而,位于内布拉斯加州西部的一个种植Scout 66的商业田地表现出可观的活性(每克[干重]根段每小时产生290纳摩尔乙烯)。在400个高粱品系和杂交种中,籽粒高粱(即CK - 60A、Wheatland A、B517和NP - 16)通常比饲用高粱或冬小麦表现出更高的固氮酶活性。雄性不育籽粒高粱CK - 60A在四个地点进行了采样,每根土柱每小时产生乙烯的活性最为稳定,为24至1100纳摩尔。推算出的最大速率为每公顷每天2.5克氮。从具有高固氮酶活性的小麦和高粱根中获得了许多固氮细菌分离株。大多数分离株属于肠杆菌科,即肺炎克雷伯菌、阴沟肠杆菌和草生欧文氏菌。