Levels of Biochar and NPS Fertilizer Rates on Growth, Yield Component, and Yield of Maize (Zea mays L.) at Guto Gida, Western Ethiopia

IF 1.8 Q2 AGRONOMY

Advances in Agriculture Pub Date : 2022-07-31 DOI:10.1155/2022/5400431

Abdela Tufa, Adugna Hunduma, Mohammad Najmus Saquib Hasan, Fayera Asefa, B. Nandeshwar

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引用次数: 2

Abstract

Mixed application of organic and inorganic fertilizers in mixture improves soil fertility and crop productivity. However, the identification of combined application level is important. Therefore, a field experiment was conducted in 2020 in the Guto Gida district to assess the effect of maize cob biochar levels and inorganic NPS fertilizer rates on the growth and yield of maize. The study was conducted in factorial combinations of five rates of maize cob biochar and three rates of inorganic NPS fertilizer using a randomized complete block design with three replications. The main effect of the biochar level and NPS rate significantly affected crop phenology and biomass yield, whereas the number of kernels ear−1 was affected by the main effect of NPS rate. The combined application of biochar and NPS fertilizer significantly influenced plant height, leaf area index, ear weight, thousand kernel weight, grain yield, and percentage of grain yield. The interaction of biochar at 8 t·ha−1 with 100 kg·ha−1 NPS resulted in highest leaf area index (5.56), grain yield (7.03 t·ha−1), and yield increment (18.11%) followed by 8 t·ha−1 × 50 kg·ha−1 and all biochar levels with 100 kg·ha−1 NPS. In addition, the highest values of ear weight (276 g) and thousand kernel weight (47.81 g) were recorded in plots treated with combined application of biochar and NPS fertilizer at rates of 8 t·ha−1 × 50 kg·ha−1 and 4 t·ha−1 × 100 kg·ha−1, respectively, whereas plots not treated with both biochar and NPS resulted in lowest yield followed by 0 t·ha−1 × 50 kg·ha−1. In conclusion, integrated application of maize cob biochar at 8 t·ha−1 with NPS fertilizer at 50 kg·ha−1 improved the yield of maize by about 16.85% with net benefit of 61700.50 ETB ha−1 and marginal rate of return 733.68%, and therefore, the application of biochar at this rate with mineral NPS fertilizer at 50 kg·ha−1 is considered as suitable for the study area.

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生物炭水平和氮磷肥施肥量对埃塞俄比亚西部Guto Gida玉米生长、产量组成和产量的影响

有机肥和无机肥混施可提高土壤肥力和作物生产力。然而，联合应用级别的识别是很重要的。为此，本研究于2020年在古托吉达地区开展了玉米芯生物炭水平和无机氮磷肥施用量对玉米生长和产量的影响。试验采用随机完全区组设计，采用3个重复，5个配比的玉米芯生物炭和3个配比的无机NPS肥的因子组合。生物炭水平和NPS速率的主效应显著影响作物物候和生物量产量，穗- 1粒数受NPS速率的主效应影响。生物炭与氮磷肥配施对水稻株高、叶面积指数、穗重、千粒重、籽粒产量和籽粒产出率有显著影响。8 t·ha−1生物炭与100 kg·ha−1 NPS处理的叶面积指数最高(5.56)，籽粒产量最高(7.03 t·ha−1)，产量增幅最高(18.11%)，其次为8 t·ha−1 × 50 kg·ha−1，所有生物炭水平均为100 kg·ha−1 NPS处理。此外，生物炭和NPS配施8 t·ha - 1 × 50 kg·ha - 1和4 t·ha - 1 × 100 kg·ha - 1处理的玉米穗重和千粒重最高，分别为276 g和47.81 g，而未同时施用生物炭和NPS的玉米产量最低，其次为0 t·ha - 1 × 50 kg·ha - 1。综上所述，8 t·ha−1玉米芯生物炭与50 kg·ha−1 NPS肥综合施用可使玉米产量提高约16.85%，净效益为61700.50 ETB ha−1，边际收益率为733.68%，因此，该用量的生物炭与50 kg·ha−1无机NPS肥配合施用较为适宜。

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来源期刊

Advances in Agriculture Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

2.60

自引率

0.00%

发文量

100

审稿时长

18 weeks