Acacia senegal (L.) Wild. Associates with a Diversity of Beneficial Micro-symbionts in the Arid and Semi-arid Lands of Kenya

J. M. Kimiti, J. Machua, D. Odee
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Abstract

between all authors. All authors designed the study and selected the study sites. Authors JMK and JMM collected samples from the selected sites and coordinated all sample analysis and statistical analyses. Author JMM tabulated the analyzed data. However, the author JMK reorganized data into its current status, wrote the first draft of the manuscript and managed all literature searches. Author DWO provided advisory role oversaw final paper shape up. All authors read and approved the final manuscript. ABSTRACT Aims: To determine the populations and diversity of beneficial microsymbionts (rhizobia and mycorrhiza) which associates with Acacia senegal varieties at selected sites in semi-arid areas of Kenya. Place and Duration of Study: Kenya Forestry Research Institute (KEFRI) Biotechnology Laboratories and selected semi-arid sites of Kenya, between 2009 and 2010. Methodology: We estimated rhizobia populations, identified mycorhiza abundance and diversity and estimated plant growth of A. senegal plants grown in soils collected from the selected semi-arid sites. Results: Rhizobia populations were generally low, below 30 cells.g -1 soil, in most of the sites but were relatively higher in areas with high forest cover such as Kimalel (559 cells.g -1 soil) and Ntumburi (104 cells.g -1 soil). Seven mycorrhizae species were identified in the selected sites and all the species were represented in all selected sites except Gigaspora spp which was totally absent in Baringo and poorly represented in all sites. Glomus etunicata and Glomus intra were the most abundant mychorrhizal species, and were most abundant in Baringo, at Kimalel (76.7% and 58.3%, respectively) and Rimoi (54.7% and 44.7%, respectively). The same species were also abundant at Daaba (26.3% and 55.7%, respectively) in Isiolo. In overall, mychorhiza were most abundant in Baringo, where Kimalel had in overall highest numbers (20.2%), followed by Isiolo where Daaba had in overall highest mychorrhizal number (13.8%) and finally Kajiado, where Kajiado sub-site had higher mycorhizal number (4.8%) compared to the Namanga sub-site (3.3%). It was established that mycorrhiza survived in harsher conditions (Daaba) than rhizobia. Conclusions: We concluded that drylands of Kenya have low rhizobia populations, implying need for rhizobia inoculation to enhance rhizobia benefits in A. senegal tree species. We also concluded that the drylands have diverse and abundant mycorrhiza species which vary across sites, and which can be utilized for enhanced mycorrhizal benefits.
塞内加尔相思(L.)野外。肯尼亚干旱和半干旱地区有益微生物共生体的多样性
所有作者之间。所有作者都设计了研究并选择了研究地点。作者JMK和JMM从选定的地点收集样本,并协调所有样本分析和统计分析。作者JMM将分析数据制成表格。然而,作者JMK将数据重新整理成目前的状态,撰写了手稿的初稿,并管理了所有的文献检索。作者DWO提供了咨询作用,监督了最终论文的形成。所有作者都阅读并批准了最终的手稿。摘要目的:在肯尼亚半干旱地区的特定地点,确定与塞内加尔合欢品种相关的有益微生物(根瘤菌和菌根)的数量和多样性。研究地点和时间:2009年至2010年,肯尼亚林业研究所(KEFRI)生物技术实验室和肯尼亚选定的半干旱地点。方法:我们估计了根瘤菌种群,确定了菌根丰度和多样性,并估计了从选定的半干旱地点收集的土壤中生长的塞内加尔沙蒿的植物生长。结果:根瘤菌数量普遍偏低,在30个细胞以下。g -1土壤,但在高森林覆盖地区(如Kimalel)相对较高(559 cells)。g -1土壤)和Ntumburi(104个细胞)。G -1土壤)。结果表明,7种菌根菌在所有样点均有代表性,但在巴林戈完全没有,在所有样点均代表性不足。Glomus etunicata和Glomus intra菌根真菌种类最多,分别在Baringo、Kimalel和Rimoi的丰度分别为76.7%和58.3%和54.7%和44.7%。在伊西奥洛的达阿巴也有大量相同的物种,分别为26.3%和55.7%。总体而言,Baringo菌根数量最多,其中Kimalel菌根数量最多(20.2%),其次是Isiolo菌根数量,其中Daaba菌根数量最多(13.8%),最后是子站点菌根数量(4.8%)高于Namanga子站点(3.3%)。确定菌根比根瘤菌在更恶劣的条件下(Daaba)存活。结论:肯尼亚旱地根瘤菌数量较少,需要接种根瘤菌来提高塞内加尔桤木的根瘤菌效益。我们还认为,旱地菌根种类丰富多样,且在不同的立地存在差异,可以用来提高菌根效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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