Mina Taghizadeh; Mohammad Ali Arab; Mosa Solgi
Abstract
Yield quality and quantity in hydroponic greenhouses usually rely on optimum crop root health and effective nutrient mobility. This study evaluated the effects of applying arbuscular mycorrhizal fungi and biochar on different growth characteristics of commercial rose cultivars in a hydroponic cultivation ...
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Yield quality and quantity in hydroponic greenhouses usually rely on optimum crop root health and effective nutrient mobility. This study evaluated the effects of applying arbuscular mycorrhizal fungi and biochar on different growth characteristics of commercial rose cultivars in a hydroponic cultivation system. In this experiment, Rosa hybrida cultivars were ‘Angelina’ and ‘Dolce Vita’. Treatments included concentrations of 0, 1.5, 3 and 6 g L-1 biochar, and 0 and 7 g L-1 of arbuscular mycorrhizal fungi as organic biofertilizers for the growth of rose plants. Biofertilizer application at 3 g L-1 biochar and 7 g L-1 arbuscular mycorrhizal fungi optimally increased flowering shoot diameter, flower diameter, flowering shoot length, and leaf phosphorus content. The ‘Dolce Vita’ cultivar responded more favorably to higher concentrations of arbuscular mycorrhizal fungi and biochar than the ‘Angelina’ cultivar in the hydroponic culture medium. Stem diameter, stem length, and flower diameter in both cultivars improved in response to higher biochar concentrations. The increased flowering shoot length resulted from root colonization by arbuscular mycorrhizal fungi and an enhanced nutrient uptake, especially phosphorus. A higher nutrient supply increased cell division and shoot growth.
Lida Ganbari Torkamany; Hassan Mahdavikia; Esmaeil Rezaei-Chiyaneh; Mohsen Barin; Martin Leonardo Battaglia
Abstract
To determine effects of different fertilizer sources on the yield and quality parameters of Moldavian balm (MB) in intercropping with Fenugreek (FG), two factors were analyzed. The first one included three cropping patterns: MB pure stand, FG pure stand, and intercropping of two rows of MB with two rows ...
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To determine effects of different fertilizer sources on the yield and quality parameters of Moldavian balm (MB) in intercropping with Fenugreek (FG), two factors were analyzed. The first one included three cropping patterns: MB pure stand, FG pure stand, and intercropping of two rows of MB with two rows of FG (2FG:2MB); the second factor was fertilizer sources: control plants, 100% chemical fertilizer (NPK), 100% bacterial biofertilizers + 25% synthetic fertilizer (BF+25NPK), 75% humic acid (HA)+ 25% synthetic fertilizer (75HA+25NPK), and 75% vermicompost (V)+ 25% synthetic fertilizer (75V+25NPK). Results showed that the highest basic microbial respiration , substrate induced respiration and microbial biomass carbon was observed in intercropping of 2FG:2MB fertilized with 75V+25NPK. This treatment also increased the seed yield of FG and dry matter yield of MB by 54% and 80%, respectively, and resulted in the maximum essential oil (EO) content of MB (0.77%) and oil content of FG (14.2%). In addition, the intercrop of 2FG:2MB fertilized with 75V+25NPK improved the EO quality of MB plants by increasing its geranyl acetate and geranial concentration, and also improved the oil quality in FG by maximizing its unsaturated fatty acids content such as oleic and linoleic acids. Overall, we conclude that intercropping of 2MB:2FG fertilized with a fertilizer mix composed of vermicompost (75%) and synthetic NPK fertilizer (25%) can be suggested to farmers as an eco-friendly and sustainable system practice for improving EO and oil content as well as quality of FG and MB plants, respectively.
Zahra Shahbazi; Amin Salehi; Saeid Hazrati; Mohsen Movahedi Dehnavi
Abstract
The application of organic fertilizers alone or in combination with bio-fertilizers is important for sustainable agriculture, healthy agricultural production and restoring soil quality. Compost, vermicompost and mycorrhiza amendments could improve soil quality and plant yield. However, little is known ...
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The application of organic fertilizers alone or in combination with bio-fertilizers is important for sustainable agriculture, healthy agricultural production and restoring soil quality. Compost, vermicompost and mycorrhiza amendments could improve soil quality and plant yield. However, little is known about their impact on yield and quality of European borage (Borago officinalis L.). To evaluate the effects of vermicompost, granulated compost, and mycorrhiza on qualitative and quantitative traits of B. officinalis an experiment was carried out based on a randomized complete block design arranged in a factorial experiment with three replications. Organic fertilizers in five levels (0, 5 and 10 t/ha vermicompost and 3 and 6 t/ha granulated compost) and mycorrhiza (Glomus mosseae) in two levels (with and without) were considered. It was shown that the effects of organic fertilizer and mycorrhiza application on nitrogen content were significant in such a way that the maximum nitrogen content was obtained by 10 t/ha vermicompost and mycorrhiza inoculation treatment. The main effects of organic fertilizer and mycorrhiza on phosphorus and potassium contents were also significant. The maximum values were obtained when 10 t/ha vermicompost and mycorrhiza were applied together. Total chlorophyll content, flower-bearing branches, mucilage, and phenol were measured in all three harvests. The results indicated that the interaction effect of harvesting time, organic fertilizer, and mycorrhiza was only significant on chlorophyll content. The maximum chlorophyll content (0.958 mg g-1 freshweight) was detected in the third harvest when 10 t/ha vermicompost and mycorrhiza were applied. Maximum mucilage content (4.23%), phenol content (5.07%) and flower-bearing branches (57.45 g m-2) were obtained by 10 t/ha vermicompost treatment. The results suggested that chemical fertilizers could be replaced by organic fertilizer and mycorrhiza to reduce soil and water contamination in the agroecosystems.