Zai Pit Effects on Selected Soil Properties and Cowpea (Vigna unguiculata) Growth and Grain Yield in Two Selected Dryland Regions of Kenya

S. Oduor, N. Mungai, S. Owido
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引用次数: 4

Abstract

Erratic rainfall and temperature regimes, strongly affect agricultural productivity. To address the reduction in production, this study assessed the effect of Zai pit depths on selected soil properties and cowpea growth and grain yield. Zai pit technology was tested in two locations falling under Agroecological Zone IV (relatively dry areas) i.e. Machakos in Machakos County and Naivasha in Nakuru County, Kenya, aiming to determine the combined effect of four Zai pit depths and two levels of manure (plots with manure and plots without manure) on selected soil properties, growth and yield of cowpea. Experiment was laid out in split plot arrangement, with manure levels as the main plot factor and Zai pit depths (Flat: Z0, 30 cm: Z30, 45 cm: Z45 and 60 cm: Z60) as subplot factor, replicated four times. Cowpea (M66 variety) was used as the test crop. Inorganic nitrogen (Nin) and extractable phosphorus (Pex) were significantly (P < 0.05) higher, at 1.37 mg·kg−1 for Nin and 80.4 mg·kg−1 for Pex in Zai pits compared to flat plots which were at 0.91 mg·kg−1 for Nin and 47.1 mg·kg−1 for Pex. The values of Nin and Pex also varied depending on depths, with Z45 having highest Nin at 1.17 against the least, at 0.89 in the Z0, while Pex was highest in Z30 at 102.3 mg·kg−1 while Z0 having the least Pex of 89.7 mg·kg−1. Generally, crops in Zai pitted plots were larger in diameter (0.46 cm) and height (34.20 cm) than crops in flat plots at (0.42 cm) and (18.11 cm) diameter and height respectively. Better performance was observed in yield, with Z45 yielding 853.33 kg·Ha−1 against 685.0 kg·Ha−1 in Flat plots in Machakos while 931.66 kg·Ha−1 in Z45 against 563.33 kg·Ha−1 from Flat plots in Naivasha. This study demonstrated great potential of Zai pit technology on crop production, as reflected on improved growth and yield of cowpeas. Combining Zai pits with manure increases soil Nin, Pex and is a guarantee of great crop performance in terms of high final yields.
宰坑对肯尼亚两个旱地选定土壤性状和豇豆生长及粮食产量的影响
不稳定的降雨和温度状况严重影响农业生产力。为了解决产量减少的问题,本研究评估了宰坑深度对选定土壤性质、豇豆生长和粮食产量的影响。在肯尼亚马查科斯县的马查科斯和纳库鲁县的奈瓦沙这两个属于农业生态区IV(相对干旱地区)的地点进行宰坑技术试验,旨在确定四种宰坑深度和两种粪肥水平(有粪肥和无粪肥地块)对选定土壤性质、豇豆生长和产量的综合影响。试验采用分畦布置,以粪肥水平为主要小区因子,仔坑深度(平:Z0、30 cm、Z30、45 cm、Z45和60 cm: Z60)为次小区因子,重复4次。试验作物为豇豆(M66品种)。在仔坑中,无机氮(Nin)和可萃取磷(Pex)含量分别为1.37 mg·kg - 1和80.4 mg·kg - 1,显著高于平原(Nin为0.91 mg·kg - 1, Pex为47.1 mg·kg - 1)。Nin和Pex的值也随深度的变化而变化,Z45的Nin最高为1.17,Z0的最小为0.89,Z30的Pex最高为102.3 mg·kg−1,Z0的Pex最小为89.7 mg·kg−1。一般而言,坑地作物的直径(0.46 cm)和高(34.20 cm)比平地作物的直径(0.42 cm)和高(18.11 cm)大。在产量方面表现较好,Z45在machaos平田产量为853.33 kg·Ha - 1,而在machaos平田产量为685.0 kg·Ha - 1; Z45在Naivasha平田产量为931.66 kg·Ha - 1,而在Naivasha平田产量为563.33 kg·Ha - 1。本研究证明了载坑技术在作物生产上的巨大潜力,这反映在豇豆的生长和产量的改善上。将仔坑与粪肥相结合,可提高土壤中磷、磷的含量,保证作物高产。
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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