Characterization of Compost Made from Chicken Droppings and Fish Bones, and Its Application to Tomato Cultivation

Asian Journal of Advances in Agricultural Research Pub Date : 2023-05-17 DOI:10.9734/ajaar/2023/v22i2436

Dakole Daboy Charles, Okala Bouillong Noelly Manuela, Molemb Nemeté Aristide, Fonkoua Martin, D. Blaise, Nguefack Julienne

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Abstract

The effect of compost made from chicken droppings and fish bones on soil quality and tomato production was evaluated. The soil of Bokito (Central Region-Cameroon) was amended with four variants C1, C2, C3 and C4 of compost at 5%, 10%, and 15% compost/soil (w/w). The experimental device was completely randomized en bloc with 5 repetitions for each treatment. The physicochemical, biological and biochemical parameters of compost and amended soils, as well as tomato production were evaluated. The highest concentrations of nitrogen, phosphorus and potassium were obtained with C3 (1.96g/Kg) and C2 (0.42 g/Kg; 0.08 g/Kg) respectively. The different compost variants had a C/N ratio between 21.88 (C1) and 30.27 (C2) and their pH was basic. They were rich in exchangeable ions (Mg2+, Ca2+, K+, Na+) and poor in heavy metals (Pb, Zn, Cu). A significant increase in the C/N ratio was noted in all the amended soils compared to the unamended soil. It varied from 12.50±0.10 (unamended soil) to 30.55±2.04 (C1 10%). Exchangeable ion concentrations (Mg2+, Ca2+, K+, Na+) were higher in amended soils. The bacterial biomass varied from 347 x 105UFC/g (C4) to 609 x105UFC/g (C2) values significantly higher than that of the unamended soil (100 x105UFC/g). The fungal biomass varied from 470 x105UFC/g (C1) to 781 x105UFC/g (C2) values significantly higher than that of the unamended soil (120 x105UFC/g). The 15% C2 component presented the highest cellulase and protease activities with values 3 and 9 times higher than the unamended soil respectively. The compost variants C2 and C1 (15%) were generally more productive with respective values of 85 and 69 fruits, the tomato amended with the chemical fertilizer having given 24 fruits. These results show that compost made from chicken droppings and fish bones could contribute to the development of green manure to enrich the soil, thus improving tomato production.

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鸡粪鱼骨堆肥的特性及其在番茄栽培中的应用

评价了鸡粪鱼骨堆肥对土壤质量和番茄产量的影响。在博基托(喀麦隆中部地区)土壤中添加堆肥量分别为5%、10%和15% (w/w)的C1、C2、C3和C4 4种变体。实验装置完全随机分组，每次处理5次重复。评价了堆肥和改良土壤的理化、生物学和生化参数以及番茄产量。氮、磷、钾浓度最高的是C3 (1.96g/Kg)和C2 (0.42 g/Kg);0.08 g/Kg)。不同类型堆肥的C/N比值在21.88 (C1) ~ 30.27 (C2)之间，pH为碱性。它们富含交换离子(Mg2+、Ca2+、K+、Na+)，重金属(Pb、Zn、Cu)含量较低。所有改良土壤的碳氮比均显著高于未改良土壤。其变化范围为12.50±0.10(未改良土)~ 30.55±2.04 (C1 10%)。改良土壤的交换离子(Mg2+、Ca2+、K+、Na+)浓度较高。细菌生物量变化范围从347 × 105UFC/g (C4)到609 × 105UFC/g (C2)，显著高于未改良土壤(100 × 105UFC/g)。真菌生物量变化范围为470 x105UFC/g (C1) ~ 781 x105UFC/g (C2)，显著高于未改良土壤(120 x105UFC/g)。15% C2组分的纤维素酶和蛋白酶活性最高，分别是未处理土壤的3倍和9倍。堆肥变异体C2和C1(15%)的产量普遍较高，分别为85和69个果实，施用化学肥料的番茄产量为24个果实。上述结果表明，鸡粪和鱼骨堆肥可以促进绿肥的发展，从而丰富土壤，从而提高番茄产量。

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Asian Journal of Advances in Agricultural Research

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