To investigate the yield and precocity of Agaricus blazei using to different casing layers and cultivation environments, five casing layers were prepared with soil (different textures), wood charcoal, and calcitic lime. After colonization, the composts were placed in two growing rooms (controlled environment and plastic greenhouse) and cased. The cycle was 120 days. Yield and precocity data were evaluated in a factorial combination (5 soil types 92 cultivation environments) and 8 replications. The results showed low yields when cultivated in a controlled room (1.55 kg of mushrooms per box) and yield values of different soils ranged between 1.61 and 1.88 kg of mushrooms per box. The precocity values of the different soils and environments ranged between 62 and 51% in the first 50 days of production. The various soil types did not differ statistically for yield values (kg) and the plastic greenhouse provided higher yields. The texture of the different soils and environment directly influenced precocity in A. blazei yield.
RESUMO
Estudou-se o efeito da inoculação com o fungo micorrízico arbuscular (FMA),Glomus macrocarpum, da fumigação do substrato e da adição de fósforo solúvel (60, 120, 240 e 480 mg kg -1 de P no solo) sobre as variáveis altura, número de folhas e diâmetro do caule de plantas de mamoeiro cv. Sunrise Solo. O FMA e doses crescentes de fósforo, isoladamente, exerceram efeitos significativos sobre essas variáveis. Não houve efeito significativo do fator fumigação do substrato. O efeito da inoculação foi mais acentuado no tratamento com adição de 60 mg kg -1 de P no solo. A inoculação com G. macrocarpum reduziu a necessidade de fósforo para o mamoeiro, tanto que as variáveis estudadas em plantas inoculadas na ausência de adubação fosfática não diferiram de plantas não inoculadas em substrato adicionado de mais de 240 mg kg -1 de P no solo.
The aim of this study was to develop a systematic quality index for application in the cultivation of Agaricus bisporus (Lange) Imbach mushrooms, based on the physical, chemical and biological properties (indicators) of the compost and casing layers (factors). The relative importance (weight) of each of the factors and indicators, their normalized scores, the quality index values and the correlation with the mushroom yield were evaluated. Three casings (soil + peat moss, Dutch commercial casing, and peat moss + spent mushroom substrate) and two composts were used. The resulting quality index is reliable and useful for identifying problems and can also serve as a rapid tool for possible intervention when problems occur. There was little difference between the two composts used, both of them showing high factor index values. Although the peat + spent mushroom casing presented certain limitations because of its high electrical conductivity, the other two casings showed satisfactory factor index values.
The aim of this study was to assess the effect of the addition of different rates of colonized compost and formaldehyde treatment on production parameters (yield, biological efficiency, mushroom number, mushroom weight, and earliness) in a Dutch commercial casing using Phase III bulk compost as a base substrate for growing Agaricus bisporus. Four rates of spawn-run compost (0 g·m−2, 200 g·m−2, 400 g·m−2, and 600 g·m−2) and formaldehyde treatment (with or without) were used. The experiment was designed as a double factorial in a randomized complete block design. Each block contained six replicates per treatment (a compost bag with 20 kg). The compost added to casing (CACing) technique when applied properly and combined with the use of Phase III compost had significant benefits, including increased mushroom yield, weight, and reduced the growing cycle, especially with the rate of 600 g of spawn-run compost/m2 of casing. On the other hand, the application of formalin reduced yield with or without the CACing technique, which implies the need for an alternative treatment for disinfection. An alternative method may either be thermal or chemical treatments to the casing such as using formaldehyde before mixing the casing with spawn-run compost and before the addition of casing above the colonized compost.
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