| Title | Valorisation of Biowaste and Aquatic Invasive Plants Through Compost Production for Agricultural Use |
|---|---|
| ID_Doc | 23655 |
| Authors | Banunle, A; Fei-Baffoe, B; Miezah, K; Ewusi-Mensah, N; Jorgensen, U; Aidoo, R; Amoah, A; Addo-Fordjour, P; Abaidoo, RC |
| Title | Valorisation of Biowaste and Aquatic Invasive Plants Through Compost Production for Agricultural Use |
| Year | 2023 |
| Published | Waste And Biomass Valorization, 14, 12 |
| Abstract | This study evaluates the quality of compost produced from household biowaste (CBIO), aquatic invasive plants (CAIP) and a mixture of the invasive plants and biowaste (CBAIP) and the effect of their application on maize yield in comparison with mineral fertilizer (NPK). The composts were produced using Aerobin 400 Composter with aquatic invasive plant harvested from the Owabi dam and solid biowaste collected from households within the Owabi catchment in the Ashanti Region of Ghana as feedstock. A field experiment in a 35 x 19 m plot of maize was conducted with 9 treatments of the different compost produced and mineral fertilizers in a randomized complete block design (RCBD) with 4 replications. The results show that the composts produced have acceptable quality with regards to nutrients (NPK), organic matter (OM), organic carbon (OC), bulk density, porosity, and heavy metal contents (Cu, Zn, Cd, Pb, As, Ni) among other properties. Grain yields following treatment with CAIP (2.06 +/- 0.692 tons/ha), CBAIP (2.15 +/- 0.668 tons/ha) and CBIO (2.052 +/- 0.915 tons/ha) were similar to grain yields from NPK application (2.55 +/- 0.611 tons/ha) but significantly higher than the control (1.34 +/- 0.500 tons/ha) at 5%. The results show that the different compost types produced have beneficial impacts on maize yields comparable to NPK application. It is, therefore, concluded that aquatic invasive plants and biowaste are suitable feedstock to produce high-quality compost that can be applied to significantly improve grain yields. |
Similar Articles
| ID | Score | Article |
|---|---|---|
4748
|
Ofei-Quartey, MNL; Appiah-Effah, E; Akodwaa-Boadi, K; Ampaw, B; Taylor, TS; Millogo, ZEN Enhancing the economic potential of organic waste by co-composting using ratio modelling toward a circular economy(2023)Journal Of Material Cycles And Waste Management, 25, 3 | |
| 16058
|
Baptista, CFT; Rodrigues, RP; Quina, MJ Composting of Biowaste Generated in University Canteens and Rural Households: Converting Waste into a Valuable Product(2024)Sustainability, 16, 11 | |
| 20399
|
Santos, LC; Cazetta, JO; da Cruz, MCP; Lopes, IG Evaluation of a Compost Prepared with Biodegradable Waste from Aquaculture Production(2022)Communications In Soil Science And Plant Analysis, 53, 20 | |
| 29601
|
Ugak, MA; Mohamad, NE; Rajin, M; Lamaming, J; Saalah, S; Yaser, A Passive aerated in-vessel composting of food waste with the addition of Sabah ragi for campus sustainability: mass balance, dwarf crape jasmine growth and techno-economic study(2023)Journal Of Material Cycles And Waste Management, 25.0, 2 | |
| 24468
|
Tamas, A; Dusa, EM; Ignat, GA; Vrînceanu, N; Stan, V Effects Of Compost On Plant And Soil: Study Case In Successive Crops(2022)Scientific Papers-Series A-Agronomy, 65, 2 | |
| 9603
|
Kliopova, I; Staniskis, JK; Stunzenas, E; Jurovickaja, E Bio-nutrient recycling with a novel integrated biodegradable waste management system for catering companies(2019) | |
| 10148
|
Jakubus, M A Comparative Study of Composts Prepared from Various Organic Wastes Based on Biological and Chemical Parameters(2020)Agronomy-Basel, 10, 6 |