Soil Fungal and Bacterial Populations in White Lupin (Lupinus albus) - Maize (Zea mays L) Cropping System Amended With Minjingu Phosphate Rock

Joyce J. Lelei; Richard N. Onwonga

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Soil Fungal and Bacterial Populations in White Lupin (Lupinus albus) - Maize (Zea mays L) Cropping System Amended With Minjingu Phosphate Rock

机译：用Minjingu磷酸盐岩改良的白羽扇豆（Lupinus albus）-玉米（Zea mays L）种植系统的土壤真菌和细菌种群

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Aims: To determine fungal and bacterial populations under white lupin ( Lupinus albus ) - maize ( Zea mays L) cropping system amended with Minjingu Phosphate Rock (MPR). Study Design: A randomized complete block design with four replicates was used. Treatments were; (i) control i.e. fallow (F) – maize (M) rotation with triple super phosphate fertilizer (TSP) applied (M_TSP - F), (ii) fallow - maize rotation with MPR applied (M_MPR - F), (iii) white lupin (L) – maize rotation with MPR applied (M_MPR - L) and (iv) maize/white lupin intercrop with MPR applied (M/L_MPR - F). Place and duration of study: The experiment was conducted in Njoro sub-County, Kenya during the long (LRS) and short rain seasons (SRS) of 2010 and 2011. Methodology: Population of bacteria and fungi were determined at seedling, flowering and maturity stages of crop development by serial dilution plate method (Johnson and Curl, 1972). Results: Significantly higher bacterial population was recorded in M_TSP- F at maize seedling and 50% flowering in LRS of 2010 and 2011. At maturity, treatments M/L_MPR – F in LRS of 2010 and M/L_MPR – F and M_MPR- L in LRS of 2011 had significantly higher population. In the SRS of both years, bacterial population was significantly higher in M_TSP- F and M/L_MPR – F at all sampling periods. In the LRS of 2010, fungal population was significantly higher in M_TSP-F at maize seedling and in M_TSP- F and M/L_MPR – F at 50% flowering and maturity. In the LRS of 2011, fungal population was significantly higher in M/L_MPR – F followed by M_MPR- L at all maize growth stages. During the SRS of both years fungal population was significantly higher in M_MPR- L across all sampling periods. Positive correlation between fungal and bacterial populations was found at termination of experiment. Conclusion: White lupin-maize cropping system with application of MPR increased soil bacterial and fungal population, an indication of improved soil health and hence cropping system sustainability.

机译：目的：确定用Minjingu磷酸盐岩（MPR）修订的白羽扇豆（Lupinus albus）-玉米（Zea mays L）种植系统下的真菌和细菌种群。研究设计：使用具有四个重复的随机完整块设计。治疗是; （i）控制，即休耕（F）–玉米（M）施用三重超级磷酸盐肥料（TSP）的轮作（M _{TSP -F），（ii）休耕-施用MPR的玉米轮作（M _{MPR -F），（iii）白羽扇豆（L）–施用MPR的玉米轮作（M _{MPR -L）和（iv）带有MPR的玉米/白羽扇豆间作应用（M / L _{MPR -F）。研究的地点和持续时间：该实验在2010年和2011年的长（LRS）和短雨季（SRS）期间在肯尼亚的Njoro县进行。方法：在幼苗，开花和成熟时确定细菌和真菌的种群连续稀释平板法在农作物发育的各个阶段（Johnson和Curl，1972年）。结果：2010年和2011年，玉米幼苗的M _{TSP -F中的细菌数量显着增加，LRS中的开花率为50％。成熟时，处理M / L _{MPR – 2010年LRS中的F和2011年LRS中的M / L _{MPR – F和M _{MPR -L的人口明显较高。在这两个年份的SRS中，在所有采样期间，M _{TSP -F和M / L _{MPR -F中的细菌种群均显着增加。在2010年的LRS中，玉米幼苗的M _{TSP -F以及M _{TSP -F和M / L _{MPR –开花和成熟度为50％时为F。在2011年的LRS中，在所有玉米生育阶段，M / L -F的真菌种群均显着高于M / MP / MP> -L。在这两个年份的SRS中，在所有采样期间，M _{MPR -L中的真菌种群均显着较高。在实验结束时发现真菌和细菌种群之间存在正相关。结论：施用MPR的白色羽扇豆玉米种植系统增加了土壤细菌和真菌种群，这表明土壤健康状况得到改善，因此种植系统具有可持续性。}}}}}}}}}}}}}}

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《Journal of Agriculture and Ecology Research International》 |2014年第1期|共17页
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Joyce J. Lelei; Richard N. Onwonga;
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Soil Fungal and Bacterial Populations in White Lupin (Lupinus albus) - Maize (Zea mays L) Cropping System Amended With Minjingu Phosphate Rock

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