Evaluation Of Maize And Rice Response To Application Of Urban Green Biowaste Compost At Dakawa In Morogoro Region

ABSTRACT

Maize and rice are the primary staple cereal food crops in Tanzania, ranking first and second, respectively. The two crops are also used as cash crops in some parts of the country. Despite their importance as food and cash crops, their yields per unit area are generally very low. Recently yield of maize has been noted to be 1.4 t ha-1 while the potential yield is 5 t ha-1 and rice yield averages between 0.5-2 t ha-1 for upland ecologies and 4.5-6.0 t ha-1 for irrigated ecologies compared to the potential yield of 5 t ha-1 and 10-11 t ha-1 respectively. There are many factors causing such low yields, but soil nutrient depletion ranks high. A study was carried out from August 2018 to June 2019 to assess the response of maize and rice to applied urban green biowaste compost (UGBC). The study included laboratory soil and biowaste compost analysis, pot experiment and field trial.

Results for soil analysis indicated that Dakawa soil is sandy clay loam with a near neutral pH of 7.27, low organic carbon (0.63 %) and very low total N (0.01%). The soil had high levels of extractable phosphorus and sulphur which were 27.81 and 27.93 mg kg-1, respectively. The CEC of the soil was very low with a value of 4.2 Cmolc kg-1. The levels of Fe, Cu and Mn were 62.7, 1.59, and 30.98 mg kg-1, respectively. These values were above the established critical ranges; this means that the soil had sufficient Fe, Cu and Mn. The level of Zn was 0.9 mg kg-1. This level of Zn was lower than the critical range indicating possible Zn deficiency of the soil. On the other hand, results urban green biowastes compost (UGBC) revealed that UGBC had a high pH of 9.52, very high organic carbon with 17.37 % value. Total N was 1.0 % which was below the established typical composition of N in urban compost. The C:N ratio was 17.37 implying that UGBC was suitable for soil application. The level of P and K in UGBC were 0.43 and 2.15 %, considered sufficient. The concentrations of micronutrients (Zn, Fe, Mn and Cu) were

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139, 4956, 387, 8 mg kg-1, respectively which were all below the established critical concentrations in urban biowaste compost. The concentrations of heavy metals (Cr, Ni, As and Pb) in UGBC were 126, 11, 9 and 9 mg kg-1, respectively. These levels of Cr, Ni, As and Pb were below the maximum acceptable limit of these elements in compost set by Japan, Australia and United states. This implies that, these materials qualify for soil application. Based on these findings, the present study concluded that Dakawa soils have pH which is suitable for maize and rice production. The UGBC materials can be used as organic fertilizer subject to fortification with N, Zn, Cu, Fe and Mn nutrients.

Results from pot experiment indicated that use of pelletized urban green biowaste compost (PUGBC) from 0 to 600 mg N kg-1 soil increased plant heights from 59.19 to 82.52 cm for maize and from 80.43 to 84.87 cm for rice. Maize dry matter yield increased from 3.8 to 8.77 g pot-1 and rice grain weight increased from 14.84 to 26.19 g pot-1. The increase in all cases was statistically significant (P=0.05). However, the highest maize and rice plant heights of 92.61cm and 100.43 cm, respectively and maize dry matter yield of 14.46 g pot-1 were recorded in combined fertilization of 300 mg N (PUGBC) kg-1 soil + 300 mg N (UREA) kg-1 soil. Maximum number of effective tillers (9.62), number of panicles per plant (9.62), panicle length (21.8 cm), panicle weight (2.982 g) and grains weight per pot (85.17 g) for rice crop were registered in sole application of inorganic fertilizer (600 mg N (UREA) kg-1 soil). Results of non-pelletized urban green biowaste compost (NPUGBC) followed the same trend as those of PUGBC for both maize and rice crops. The overall results indicated that use of combined fertilization of 300 mg N (PUGBC) kg-1 soil + 300 mg N (UREA) kg-1 soil) or 300 mg N (NPUGBC) kg-1 soil + 300 mg N (UREA) kg-1 soil) improved maize growth and yield parameters. The use of inorganic fertilizer alone (600 mg N (UREA) kg-1 soil) improved rice growth parameters and yield. Based on these findings it was recommended that the use of combined fertilization of 300 mg N (PUGBC) kg-1 soil + 300 mg N (UREA) kg-1 soil) or 300 mg N

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(NPUGBC) kg-1 soil + 300 mg N (UREA) kg-1 soil) is the best option for better maize yield and use of inorganic fertilizer alone (600 mg N (UREA) kg-1 soil) is the best option for rice production. However, these results required verification in the field.

Results from field trial indicated that rice crop had a maximum plant height (99.23 cm), number of effective tillers per hill (17.07) and chlorophyll content (51.72) were obtained in a combined fertilization of 75 kg N (UGBC) ha-1 + 75 kg N (UREA) ha-1 treatment. It was followed by sole application of 150 kg N (UREA) ha-1 with values of 96.57 cm, 16.57 and 49.17 for plant height, effective tillers per hill and chlorophyll content, respectively. The significant (P=0.05) lowest values for plant height (88.89 cm), effective tillers per hill (11.67) and chlorophyll content (46.95) were observed in the control (0 kg N ha-1). The significant highest grain yield of 8127 kg ha-1 equivalent to 8.13 t ha-1 was produced in the treatment combination (75 kg N (UGBC) ha-1 + 75 kg N (UREA) ha-1). This yield was approaching the potential yield of rice (10 to 11 t ha-1) under irrigation ecology in Tanzania. It was followed by 150 kg N (UREA) ha-1 treatment (7751 kg) and the third treatment was 150 kg N (UGBC) ha-1 (6867 kg). The minimum yield was recorded in the control treatment (5594 kg). The four treatments exhibited significant difference (P=0.05) from each other for grain yield. The same trend of results was observed for maize crop whereby the use of integrated fertilization of 150 kg N (UGBC) ha-1 + 150 kg N (UREA) ha-1 produced the highest maize grain yield of 8691 kg ha-1 equivalent to 8.69 t ha-1. This yield was far above the potential yield of maize (5 t ha-1) in Tanzania. The present study therefore concluded that the integrated use of 75 kg N (UGBC) ha-1 + 75 kg N (UREA) ha-1 is the best treatment for rice production while the integrated use of 150 kg N (UGBC) ha-1 + 150 kg N (UREA) ha-1 is the best treatment for maize production. Thus, farmers are recommended to use 75 kg N (UGBC) ha-1 + 75 kg N (UREA) ha-1 for best growth performance and high yield of rice and use of 150 kg N (UGBC) ha-1 + 150 kg N (UREA) ha-1 for best growth performance and high yield of maize.

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APA

MANGU, I (2021). Evaluation Of Maize And Rice Response To Application Of Urban Green Biowaste Compost At Dakawa In Morogoro Region. Afribary. Retrieved from https://track.afribary.com/works/evaluation-of-maize-and-rice-response-to-application-of-urban-green-biowaste-compost-at-dakawa-in-morogoro-region

MLA 8th

MANGU, IBRAHIM "Evaluation Of Maize And Rice Response To Application Of Urban Green Biowaste Compost At Dakawa In Morogoro Region" Afribary. Afribary, 09 May. 2021, https://track.afribary.com/works/evaluation-of-maize-and-rice-response-to-application-of-urban-green-biowaste-compost-at-dakawa-in-morogoro-region. Accessed 23 Nov. 2024.

MLA7

MANGU, IBRAHIM . "Evaluation Of Maize And Rice Response To Application Of Urban Green Biowaste Compost At Dakawa In Morogoro Region". Afribary, Afribary, 09 May. 2021. Web. 23 Nov. 2024. < https://track.afribary.com/works/evaluation-of-maize-and-rice-response-to-application-of-urban-green-biowaste-compost-at-dakawa-in-morogoro-region >.

Chicago

MANGU, IBRAHIM . "Evaluation Of Maize And Rice Response To Application Of Urban Green Biowaste Compost At Dakawa In Morogoro Region" Afribary (2021). Accessed November 23, 2024. https://track.afribary.com/works/evaluation-of-maize-and-rice-response-to-application-of-urban-green-biowaste-compost-at-dakawa-in-morogoro-region