R. Sylvester-Bradley, L.A. De Oliveira, J.A. De PodestáFilho, T.V. St. John
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Primary forest on alluvial (“várzea”) soil, and in Bahia coastal rain forest on sandy latosol and <em>Erythrina glauca</em> used for shading cacao plantation were abundantly nodulated.</p><p>Acetylene reduction assays showed no, or very little, nitrogenase activity of roots from forest on sandy latosol showed acetylene-reducing activity. High rates of acetylene reduction were observed in nodulated roots of primary on alluvial “várzea” soil. Root samples showed ethylene absorption in controls without acetylene which migh interface with the results of acetylene reduction tests.</p><p>The incidence of <em>Azospirillum</em> was also higher in black earth than the other soils examined, and in soils with higher pH. The hypothesis that <em>Azospitillum</em> is associated with <em>Trema micrantha</em> roots was refuted. 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引用次数: 66
摘要
豆科植物在巴西亚马逊雨林中并不占主导地位,尽管它们是五个最具代表性的科之一。对不同土壤的植物根系进行了根瘤、还原乙烯活性和固氮固氮螺旋藻的检查,在黑土(“terra preta dos índios”)和沿上里约热内卢Negro支流的campinarana植被下的沙土中发现了大量的根瘤。在该地区的许多其他土壤和地点,以及玛瑙斯附近粘土红壤的原生林和次生林中均未发现根瘤。在沙质红壤中,次生林中结瘤较多,原生林中结瘤较少。豆科植物在分布的粘土或砂质红壤中结瘤更频繁。冲积土(“várzea”)上的原生林和巴伊亚沿海雨林的沙质红壤和用于遮荫可可种植园的青花Erythrina glauca都有丰富的结瘤。乙炔还原试验表明,在沙质红壤上,森林根系的氮酶活性为零或极低,表现出乙炔还原活性。在冲积性“várzea”土壤中,观察到高比例的乙炔还原。在不含乙炔的对照中,根样品显示乙烯吸收,这可能与乙炔还原试验的结果相吻合。黑土和ph值较高的土壤中氮螺旋体的发病率也高于其他土壤。氮螺旋体与薇甘菊根有关的假设被推翻。施用磷肥和氮肥后,栽培禾草根系和土壤中固氮螺旋体的发生率较高。结果表明,在玛瑙斯(Manaus)附近的黏性红壤土壤中,某些土壤的固氮作用确实与根系有关,但与原生林或次生林的根系无关。讨论了可能的原因。
Nodulation of legumes, nitrogenase activity of roots and occurrence of nitrogen-fixing Azospirillum ssp. in representative soils of central Amazonia
Leguminosae do not predominate in the Brazilian Amazon rain forest, although they are among the five best represented families. Plant roots from various soils were examined for the presence of nodules, acetylene-reducing activity and N2-fixing Azospirillum spp.
Abundant nodulation was found in black earth (“terra preta dos índios”) and in one case on sandy soil under campinarana vegetation along the tributary of the upper Rio Negro. Nodules were not found on plants from many other soils and sites in this area, nor in primary or secondary forest on clayey latosol near Manaus. In sandy latosol some nodules occured in secondary forest and fewer in primary forest. Legumes in distributed clayey or sandy latosol showed more frequent nodulation. Primary forest on alluvial (“várzea”) soil, and in Bahia coastal rain forest on sandy latosol and Erythrina glauca used for shading cacao plantation were abundantly nodulated.
Acetylene reduction assays showed no, or very little, nitrogenase activity of roots from forest on sandy latosol showed acetylene-reducing activity. High rates of acetylene reduction were observed in nodulated roots of primary on alluvial “várzea” soil. Root samples showed ethylene absorption in controls without acetylene which migh interface with the results of acetylene reduction tests.
The incidence of Azospirillum was also higher in black earth than the other soils examined, and in soils with higher pH. The hypothesis that Azospitillum is associated with Trema micrantha roots was refuted. Roots and soils collected under cultivated grasses showed a higher incidence of Azospirillum when fertilized with phosphorus and line.
Results indicate the nitrogen fixation did occur in association with roots in some soils, but not with roots of primary or secondary forest on clayey latosol in the vicinity of Manaus, which is the most common soil in Central Amazonia. The possible reasons for this are discussed.
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