响应面法在长期农业试验中确定玉米产量和微生物总数最大化的最佳因素中的应用,肯尼亚

Wambua Alex Mwaniki, Koske Joseph, Mutiso John, M. Wellington, K. Catherine, Eboi Bramuel
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引用次数: 3

摘要

农业是肯尼亚经济发展的主要支柱,占肯尼亚国内生产总值的70%以上。该部门面临着许多挑战,导致经常和经常性的粮食短缺。玉米谷物产量下降是需要采取紧急干预措施以解决该国迫在眉睫的粮食危机的主要挑战之一。玉米在肯尼亚的粮食安全中发挥着重要作用,在大多数情况下,缺乏玉米就意味着粮食不安全。正是由于对这种作物的重视,专门建立了玉米长期农业试验(LTAE)来研究玉米的产量。国内发表的许多LTAE论文仅是单因素分析,缺乏响应面法(RSM)方法在解决玉米籽粒产量(y 1)和土壤有机质(SOM)关键组成部分微生物总数(y 2)低和下降所面临的挑战及其优化方面的应用。因此,本文的重点是RSM在玉米产量和总微生物种群优化中的应用。具体而言,本文确定了影响玉米籽粒产量和微生物总种群(细菌、真菌、放线菌、根瘤菌)的最显著因素(论文筛选阶段),构建了高效、适宜的玉米产量和微生物总种群最优设置的实验设计,确定了玉米籽粒产量和微生物总种群的单变量最优设置。主要数据汇总自肯尼亚农畜研究组织(KALRO)在Kabete的国家农业研究实验室(NARL)的LTAE,次要数据来自设在设定的田间实验设计点之外的实验点。确定了两个处理因子(农家肥(FYM)和低水平氮磷(NP))为最显著的处理因子,采用2星点的限定中心复合设计(CCCD)为最有效的设计。CCCD通过了DAET的最优标准。单因素条件下,玉米产量最佳设置为3.8 × 103kg /ha,微生物总数最佳设置为3.6 × 106kg /ha。本研究证实,通过优化投入处理因子,使玉米产量和最大微生物总数保持在最佳水平是可能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Response Surface Methodology for Determining Optimal Factors in Maximization of Maize Grain Yield and Total Microbial Count in Long Term Agricultural Experiment, Kenya
The Agriculture sector is the main stay of the Kenyan economic development contributing over 70% of the Gross Domestic Product (GDP). The sector is faced with numerous challenges leading to frequent and recurrent food shortages. Declining maize grain yield is one among the major challenges that call for urgent interventions to address the looming food crisis in the country. Maize play a big role in the Kenyan food security and in most case lack of the same is taken to mean food insecurity. It is due the importance attached to the crop that a Long Term Agricultural Experiments (LTAE) was set up specifically to research on the Maize grain yield. Many paper published on the LTAE in the country are only single factors analysis and lack the application of Response Surface Methodology (RSM) approaches in solving challenges facing the low and declining maize grain yield ( y 1 ), total microbe population ( y 2 ) a crucial component of Soil Organic Matter (SOM) and their optimization. The focus of this paper therefore is the application of RSM in maize grain yield and total microbial population optimization. Specifically, the paper determined the most significant factors for maize grain yield and total microbial population (bacteria, fungi, actinomycetes, rhizobia), (screening phase of the paper), constructed of an efficient and appropriate experimental design for evaluating the optimal settings of maize yield and total microbial population count and determined univariate optimal settings for maize grain yield and total microbial population. The primary data was summarized from LTAE in National Agricultural Research Laboratories (NARL) in Kabete under the Kenya Agriculture and Livestock Research Organization (KALRO) and secondary data imputed for experimental points falling outside the set field experimental design points. Two treatment factors were identified as the most significant treatment factors (Farm Yard Manure (FYM) and Nitrogen and Phosphorus (NP)) at their low levels and Circumscribed Central Composite Design (CCCD) with two star points as the most efficient design. CCCD passed most optimal criteria of DAET. Univariately, optimal setting for maize grain yield was realized at 3.8x10 3 kg/ha and that of the total microbial population at 3.6x10 6 count. The study confirmed that it was possible to optimize the input treatment factor that lead to the optimization of both maize grain yield and maintaining maximal total microbial population count at its optimal levels.
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