Abstract
Pelletized plant-based fertilizers Ekofert K (red clover) and Ekofert L (lucerne) was compared to non-fertilized control and mineral N-fertilization (100 kg N ha-1) in sustainable onion cultivation (2012–2013). The organic fertilizers at pre-plant rates equivalent to 120, 180 and 240 kg N ha-1 were applied on a field fertilized with compost (25 t ha-1). The fertilizers Ekofert K and L significantly increased onion production as compared to the basic fertilization with compost alone. The increase in yield was favorably correlated with the applied fertilizer rates. The lowest rate of organic fertilizers ensured a yield at the level of mineral fertilization at the rate of 100 kg N ha-1 as single application. The higher rates of Ekofert K and L (180, 240 kg N ha-1) resulted in a marketable yield increase relative to single mineral fertilization. The use of organic as well as mineral fertilization increased nitrogen and chlorophyll contents in onion leaves, compared to the non-fertilized control treatment. The increase was positively correlated with fertilizer rates. The N-NO3 content in onion bulbs was in general not influenced by the application of organic fertilizers, compared to non-fertilized control treatment. Nitrogen content in the top soil (0–30 cm) was the highest after 5 weeks from incorporation of the fertilizers and diminished in following 4 weeks on average by 46% due to plant development and intensive nutrient uptake. After onion harvest, continued mineralization of soil organic matter and lack of uptake by plants increased average nitrogen content nearly to the level at stage of early plant growth. The N-NO3 content in soil increased with rates of the Ekofert fertilizers. In subsoil horizon (30–60 cm), the N-NO3 content was 2.5 times lower than in topsoil and significant only for the highest rate of the fertilizers.
Highlights
Agricultural activities are perceived as main sources of soil and ground water pollution, which caused by excessive application of mineral fertilizers and synthetic pesticides and by other non-biodegradable means, which has caused lot of threats to soil quality, fertility and biological activity [Savci 2012; Sun et al 2012; Pastén-Zapata et al 2014]
To reduce this negative environmental impact and to improve soil fertility, inputs of different forms of organic matter to soils are recommended
The effective of the organic fertilizers was compared with conventional mineral fertilization at a rate of 100 kg N per hectare applied as a single pre-plant treatment or split in two rates, each of 50 kg N per hectare, applied as pre-plant and side-dressing, and with the control plot without any additional fertilization
Summary
Agricultural activities are perceived as main sources of soil and ground water pollution, which caused by excessive application of mineral fertilizers and synthetic pesticides and by other non-biodegradable means, which has caused lot of threats to soil quality, fertility and biological activity [Savci 2012; Sun et al 2012; Pastén-Zapata et al 2014]. To reduce this negative environmental impact and to improve soil fertility, inputs of different forms of organic matter to soils are recommended. Their application, on the other hand, is not easy because
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