Effects of Phosphorus Fertilizer Rates and Its Placement Methods on Residual Soil Phosphorus, Yield, and Phosphorus Uptake of Maize: At Bedele District, Ethiopia

American Journal of Agriculture and Forestry Pub Date : 2021-10-30 DOI:10.11648/J.AJAF.20210905.16

B. Dube, A. Chimdi

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Abstract

In spitefulness of the increase in land areas under maize production, yield is still low due to declining soil fertility because of un-appropriate use of fertilizer rates and placement methods. Therefore this study was conducted to determine P fertilization rates and the relative effectiveness of different placement methods on the yield, P uptake of maize and concentration of P in the soil. The experiment was carried out at Bedele district. Four level of P fertilizer (0, 23, 46 and 69 P2O5 kgha-1) and three placement methods of P application (broadcasting P and seeds, surface banding P to the side of the seeds, and deep band P fertilizer below the seeds) were implemented as treatments with three replications in randomized complete block design. Dry biomass, grain yield, straw yield, harvest index, residual soil P, and total P in grain were highly significantly (P< 0.01) influenced by effect of P fertilizer rates and placement methods. Total P in the soil significantly (P<0.05) influenced by placement methods. Mean plant height, total N in the grain and total N in the stalks highly significant (P<0.01) influenced by effect of P fertilizer rates and its placement methods. The mean days to maturity highly significantly (P<0.01) influenced only by P fertilizer rates. The highest grain yield (78.40 qt ha-1) and biomass yield (142.11 qt ha-1) were noted from surface banding of P fertilizer to the sides of the seeds at application of 69 P2O5 kg /ha respectively when compared with the no P2O5 application. However, P and N uptakes by Maize ranged from 0.84% with no P2O5 to 1.32% at the rate of 69 kg P2O5 ha-1 and 0.656% with no P2O5 to 1.04% at rate of 69 kg P2O5 ha-1, respectively. Also, the residual soil P after harvest of the maize ranged from 1.312 with no P2O5 to 11.79ppm was recorded at application of 69 kg P2O5 ha-1. Therefore, using surface banding P fertilizer to the sides of the seeds with 69kg P2O5 ha-1 to increase the production of maize over increase the efficiency of P uptake.

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磷肥施用量及施放方式对玉米土壤残磷、产量和磷吸收的影响——在埃塞俄比亚比德勒地区

尽管玉米种植面积有所增加，但由于施肥和布施方法不合理，土壤肥力下降，产量仍然很低。因此，本研究旨在确定施磷肥量以及不同施磷肥方式对玉米产量、磷吸收量和土壤磷浓度的相对影响。实验是在比德尔区进行的。采用随机完全区组设计，采用4个水平的磷肥(0、23、46和69 P2O5 kga -1)和3种施磷肥方式(撒播磷肥和种子、表面磷肥向种子侧面施磷肥和种子下方施磷肥)作为3个重复的处理。干生物量、粮食产量、秸秆产量、收获指数、残土磷和籽粒全磷受磷肥施用量和施放方式的极显著影响(P< 0.01)。土壤全磷含量受放置方式影响显著(P<0.05)。施磷肥和施磷肥方式对水稻株高、籽粒全氮和茎秆全氮的影响极显著(P<0.01)。平均成熟期仅受施磷量影响极显著(P<0.01)。与不施用P2O5相比，施用69 P2O5 kg /ha时，从表面向种子侧面施磷肥的籽粒产量最高(78.40 qt ha-1)，生物量产量最高(142.11 qt ha-1)。在69 kg P2O5 hm -1处理下，无P2O5处理下玉米对P和N的吸收量分别为0.84% ~ 1.32%和0.656% ~ 1.04%。施用69 kg P2O5 ha-1时，收获后土壤残磷含量为1.312 ~ 11.79ppm。因此，在籽粒侧面施磷肥69kg P2O5 hm -1，不仅能提高玉米的产量，而且能提高玉米对磷的吸收效率。

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American Journal of Agriculture and Forestry

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