Department of Biological Sciences, National University of Singapore, 16 Science Drive 4, 117558, Singapore.
Environmental Research Institute, National University of Singapore, 1 Create Way, 138602, Singapore.
Waste Manag. 2021 Jul 1;130:155-166. doi: 10.1016/j.wasman.2021.05.025. Epub 2021 Jun 2.
Black soldier fly (BSF) larval bioconversion can recycle nutrients in organic wastes into larval biomass and frass. While the frass has been commonly marketed as a soil amendment, its usefulness in soilless cultivation remains largely unexplored. Growth experiments were conducted to investigate the effectiveness of surplus food-derived and okara-derived BSF larval frass as an incorporated compost, side-dress fertilizer and frass-tea drench for the cultivation of pak choi and lettuce in waste-wood derived biochar growing media. Pak choi yields from treatments with surplus food-derived frass and biochar at a 10:90 (v/v) ratio and inorganic fertilizer were comparable to those of the control which consisted of soil, peat-based compost and inorganic fertilizer. However, yields decreased with increasing frass incorporation rates owing to high salinity and potentially low oxygen conditions in the growing media. When used as a fertilizer on biochar-coir growing media, the direct application of frass as a side-dress fertilizer was 1.6-6.8 times more effective in promoting lettuce growth than the application as a frass-tea drench. Frass fertilizers derived from surplus food outperformed those derived from okara by 1.3-5.3 times. Lettuce yields were not significantly different between the treatment with surplus food-derived frass applied as a side-dress fertilizer and the control of liquid inorganic fertilizer. Variations in fertilizing potential were attributed to nutrient availability and the presence of plant growth promoting microbes in the growing media. BSF larval frass derived from food waste shows promise in partially replacing unsustainable agricultural inputs for leafy vegetable cultivation, including soil and inorganic fertilizers.
黑水虻幼虫生物转化可以将有机废物中的营养物质回收转化为幼虫生物质和粪便。虽然粪便通常被作为土壤改良剂销售,但它在无土栽培中的用途在很大程度上仍未得到探索。本研究进行了生长实验,以调查剩余食物和豆渣来源的黑水虻幼虫粪便作为掺入堆肥、侧施肥料和粪便茶浸提液在废木材衍生生物炭栽培基质中用于小白菜和生菜栽培的有效性。用剩余食物衍生的粪便和生物炭以 10:90(v/v)的比例以及无机肥处理的小白菜产量与由土壤、基于泥炭的堆肥和无机肥组成的对照相当。然而,由于生长基质中高盐分和潜在低氧条件,随着粪便掺入率的增加,产量下降。当用作生物炭-椰糠生长基质上的肥料时,直接作为侧施肥料施用粪便比作为粪便茶浸提液施用促进生菜生长的效果高 1.6-6.8 倍。剩余食物衍生的粪便肥料比豆渣衍生的粪便肥料的效果高 1.3-5.3 倍。作为侧施肥料施用的剩余食物衍生的粪便处理的生菜产量与液体无机肥对照无显著差异。施肥潜力的变化归因于生长基质中养分的有效性和植物生长促进微生物的存在。源自食物废物的黑水虻幼虫粪便在部分替代可持续农业投入物用于叶菜类蔬菜栽培方面具有潜力,包括土壤和无机肥料。
