Evaluating the impact of using compost from different plant residues on the quantitative and qualitative performance of strawberries
Subject Areas : Journal of Quality and Durability of Agricultural Products and Food Stuffsmarziyeh feizipour 1 , ebrahim fataei 2 , Shahrazad Khorramnejadian 3
1 - PhD student, Department of Environment, Damavand Branch, Islamic Azad University, Damavand, Iran
2 - Professor, Department of Environment, Ardabil Branch, Islamic Azad University, Ardabil, Iran
3 - Associate professor, Department of Environment, Damavand Branch, Islamic Azad University, Damavand, Iran
Keywords: Strawberry, Crop Waste, Compost,
Abstract :
The use of compost from crop waste can help improve soil structure and increase the effectiveness of water and soil nutrients, and also reduce the need for chemical fertilizers and pesticides. The aim of the study was to investigate the effect of biocompost produced and enriched with zinc and manganese elements on the quantitative and qualitative yield of strawberries. The present study is descriptive-analytical. To conduct this study, agricultural waste was first collected from the surface of greenhouses and agricultural fields and transferred to the biocompost production site in the summer using the Windows method. Plant residues were used for sampling and the carbon to nitrogen ratio (C/N) was calculated by measuring the percentage of organic carbon and the percentage of total nitrogen, phosphorus, potassium and trace elements in plant residues before decay. To analyze the research data, significance tests were used in the SAS software environment and Ghrafer software was used to draw graphs. The findings showed that Biocompost produced with rapeseed, eggplant, cucumber and wheat and enriched with zinc and manganese at a rate of 1 kg/m2 had a significant effect on strawberry qualitative yield parameters such as pH, vitamin C, total phenols, total anthocyanins, total flavonoids, ellagic acid, flavor index, antioxidant activity, and also on strawberry quantitative yield such as total soluble solids, tiller number, plant height, plant fresh weight, and root fresh weight. The results showed that this value was higher in treatment 5 (rapeseed biocompost enriched with zinc and manganese at a rate of 1 kg/m2) than in other treatments (p≤0.01). According to the results of the study, it can be said that treatment 5 (rapeseed biocompost enriched with zinc and manganese at a rate of 1 kg/m2), treatment 4 (eggplant biocompost enriched with zinc and manganese at a rate of 1 kg/m2), Treatment 3 (green cucumber biocompost enriched with zinc and manganese at a rate of 1 kg/m2), Treatment 2 (wheat biocompost enriched with zinc and manganese at a rate of 1 kg/m2) and Treatment 1 (equal combination of green cucumber, wheat, rapeseed, eggplant biocompost at a rate of 1 kg/m2) had a significant effect on the quantitative and qualitative yield of strawberries. The results indicate that the use of biocompost from rapeseed, eggplant, green cucumber, wheat waste enriched with zinc and manganese has a significant effect on the quantitative and qualitative yield of strawberries under drought stress conditions.