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Impact of the foliar application of potassium nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans
The agricultural areas of the world face problems that create difficulties when producing food and the excessive use of fertilizers is generating a negative environmental impact. An alternative that appears as a solution to this problem is the use of nanofertilizers. Within nanofertilizers an area o...
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| Published in: | Notulae botanicae Horti agrobotanici Cluj-Napoca 2022, Vol.50 (1), p.12569 |
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| container_title | Notulae botanicae Horti agrobotanici Cluj-Napoca |
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| creator | MÁRQUEZ-PRIETO, Ana K. PALACIO-MÁRQUEZ, Alejandro SANCHEZ, Esteban MACIAS-LÓPEZ, Bertha C. PÉREZ-ÁLVAREZ, Sandra VILLALOBOS-CANO, Octavio PRECIADO-RANGEL, Pablo |
| description | The agricultural areas of the world face problems that create difficulties when producing food and the excessive use of fertilizers is generating a negative environmental impact. An alternative that appears as a solution to this problem is the use of nanofertilizers. Within nanofertilizers an area of opportunity is the application of macronutrients, which report an increase in absorption efficiency of 19% compared to conventional fertilizers. Potassium (K) is one of the three macronutrients most used in agriculture and its deficiency affects key processes in plant development, limiting crop production. However, the number of publications where K is used as a nanofertilizer is limited, despite this, products in this form are already on the market. Therefore, the aim of this research work was to study the effect of the foliar application of K nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans cv. ‘Strike’. K was applied in the form of a nanofertilizer in doses of 0, 50, 100 and 200 ppm. The biomass accumulation, yield, nitrate reductase enzyme activity, photosynthetic activity and photosynthetic pigments were evaluated. The dose of 100 ppm of K nanofertilizer obtained a higher accumulation of biomass, nitrate reductase activity, photosynthetic activity, SPAD values and total chlorophyll content. While the 200-ppm dose obtained a higher increase in yield. The results obtained suggest that the application of K nanofertilizers benefits the physiological development of plants. However, more studies are required to compare the application of nanofertilizers with traditional fertilizers. |
| doi_str_mv | 10.15835/nbha50112569 |
| format | article |
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An alternative that appears as a solution to this problem is the use of nanofertilizers. Within nanofertilizers an area of opportunity is the application of macronutrients, which report an increase in absorption efficiency of 19% compared to conventional fertilizers. Potassium (K) is one of the three macronutrients most used in agriculture and its deficiency affects key processes in plant development, limiting crop production. However, the number of publications where K is used as a nanofertilizer is limited, despite this, products in this form are already on the market. Therefore, the aim of this research work was to study the effect of the foliar application of K nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans cv. ‘Strike’. K was applied in the form of a nanofertilizer in doses of 0, 50, 100 and 200 ppm. The biomass accumulation, yield, nitrate reductase enzyme activity, photosynthetic activity and photosynthetic pigments were evaluated. The dose of 100 ppm of K nanofertilizer obtained a higher accumulation of biomass, nitrate reductase activity, photosynthetic activity, SPAD values and total chlorophyll content. While the 200-ppm dose obtained a higher increase in yield. The results obtained suggest that the application of K nanofertilizers benefits the physiological development of plants. However, more studies are required to compare the application of nanofertilizers with traditional fertilizers.</description><identifier>ISSN: 0255-965X</identifier><identifier>EISSN: 1842-4309</identifier><identifier>DOI: 10.15835/nbha50112569</identifier><language>eng</language><publisher>Cluj-Napoca: Notulae Botanicae Horti Agrobotanici Cluj-Napoca</publisher><subject>Accumulation ; Assimilation ; Beans ; Biological assimilation ; Biomass ; Chlorophyll ; Crop production ; Crop yield ; Environmental impact ; Enzymatic activity ; Enzyme activity ; Fertilizers ; Foliar applications ; Food production ; nanoparticles ; nanotechnology ; Nitrate reductase ; Nitrogen ; Phaseolus vulgaris L ; Photosynthesis ; photosynthetic activity ; Photosynthetic pigments ; Pigments ; Potassium ; Reductases</subject><ispartof>Notulae botanicae Horti agrobotanici Cluj-Napoca, 2022, Vol.50 (1), p.12569</ispartof><rights>2022. 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An alternative that appears as a solution to this problem is the use of nanofertilizers. Within nanofertilizers an area of opportunity is the application of macronutrients, which report an increase in absorption efficiency of 19% compared to conventional fertilizers. Potassium (K) is one of the three macronutrients most used in agriculture and its deficiency affects key processes in plant development, limiting crop production. However, the number of publications where K is used as a nanofertilizer is limited, despite this, products in this form are already on the market. Therefore, the aim of this research work was to study the effect of the foliar application of K nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans cv. ‘Strike’. K was applied in the form of a nanofertilizer in doses of 0, 50, 100 and 200 ppm. The biomass accumulation, yield, nitrate reductase enzyme activity, photosynthetic activity and photosynthetic pigments were evaluated. The dose of 100 ppm of K nanofertilizer obtained a higher accumulation of biomass, nitrate reductase activity, photosynthetic activity, SPAD values and total chlorophyll content. While the 200-ppm dose obtained a higher increase in yield. The results obtained suggest that the application of K nanofertilizers benefits the physiological development of plants. 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An alternative that appears as a solution to this problem is the use of nanofertilizers. Within nanofertilizers an area of opportunity is the application of macronutrients, which report an increase in absorption efficiency of 19% compared to conventional fertilizers. Potassium (K) is one of the three macronutrients most used in agriculture and its deficiency affects key processes in plant development, limiting crop production. However, the number of publications where K is used as a nanofertilizer is limited, despite this, products in this form are already on the market. Therefore, the aim of this research work was to study the effect of the foliar application of K nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans cv. ‘Strike’. K was applied in the form of a nanofertilizer in doses of 0, 50, 100 and 200 ppm. The biomass accumulation, yield, nitrate reductase enzyme activity, photosynthetic activity and photosynthetic pigments were evaluated. The dose of 100 ppm of K nanofertilizer obtained a higher accumulation of biomass, nitrate reductase activity, photosynthetic activity, SPAD values and total chlorophyll content. While the 200-ppm dose obtained a higher increase in yield. The results obtained suggest that the application of K nanofertilizers benefits the physiological development of plants. However, more studies are required to compare the application of nanofertilizers with traditional fertilizers.</abstract><cop>Cluj-Napoca</cop><pub>Notulae Botanicae Horti Agrobotanici Cluj-Napoca</pub><doi>10.15835/nbha50112569</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Accumulation Assimilation Beans Biological assimilation Biomass Chlorophyll Crop production Crop yield Environmental impact Enzymatic activity Enzyme activity Fertilizers Foliar applications Food production nanoparticles nanotechnology Nitrate reductase Nitrogen Phaseolus vulgaris L Photosynthesis photosynthetic activity Photosynthetic pigments Pigments Potassium Reductases |
| title | Impact of the foliar application of potassium nanofertilizer on biomass, yield, nitrogen assimilation and photosynthetic activity in green beans |
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