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2014 | 19 | 2 |

Tytuł artykułu

An assessment of the effect of potassium fertilizing systems on maize nutritional status in critical stages of growth by plant analysis

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Warianty tytułu

PL
Ocena wpływu systemu nawożenia potasem na stan odżywienia kukurydzy w krytycznych fazach wzrostu metodą analizy roślinnej

Języki publikacji

EN

Abstrakty

EN
Yield of maize depends on nitrogen supply to the plant at critical stages of the formation of main yield components. In the rain-fed production system, the productivity of applied nitrogen is conditioned by water supply to growing crop. Potassium is considered to be a nutrient significantly affecting water use by crops. Therefore, an in-season nitrogen balance is needed to adjust N levels and predict yields. These assumptions were validated in a long-term static field experiment with four levels of potassium fertilizing. They were differentiated by two soil fertility levels (Medium, High) and applied fertilizer (K-, K+). The nutritional status of maize was evaluated at two stages: 5 th leaf and the beginning of flowering, using three approaches: i) nutrient concentration, ii) nitrogen to other nutrient ratios, iii) DRIS (Diagnosis Recommen - ded Integrated System) method. These studies showed that potassium management was the key contributor to the year-to-year grain yield variability. Thus, grain yield was the basis for verification of the tested indices. At the 5 th leaf stage only phosphorus (concentration and N/P ratio) can be considered as a potential predictor of the final yield of grain. The ear leaf as a vegetative part proved to be useful for evaluation of nutritional indices in maize and for making predictions about yield. The optimal system of potassium management can be defined according to its impact on the N/K, N/Mg and N/Ca ratios and, consequently, on yields of maize. The N/K ratio reached the saturation status, as presented by the quadratic regression model. The other two ratios affected grain yield in accordance to the linear regression model. The applied DRIS procedure corroborated the importance of potassium management as a factor significantly affecting the nutritional balance in maize. This crop has a potential to produce high yield of grain on medium K fertile soil provided potassium fertilizer is supplied whenever needed.
PL

Słowa kluczowe

Wydawca

-

Rocznik

Tom

19

Numer

2

Opis fizyczny

p.533-547,fig.,ref.

Twórcy

  • Chair of Agricultural Chemistry and Environmental Biogeochemistry, Poznan University of Life Sciences, Wojska Polskiego 71F street, 60-625 Poznan, Poland
autor
  • Chair of Agricultural Chemistry and Environmental Biogeochemistry, Poznan University of Life Sciences, Poznan, Poland
  • Chair of Agricultural Chemistry and Environmental Biogeochemistry, Poznan University of Life Sciences, Poznan, Poland

Bibliografia

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  • Elwali A.M.O., Gascho G.J., Summer ME.E. 1985. Dris norms for 11 nutrients in corn leaves. Agron. J., 77: 506-508.
  • Grzebisz W., Oertli J.J. 1994. Evaluation of universal extractants for determining plant available potassium in intensively cultivated soils. Comm. Plant Soil Anal., 24(11-12): 1295-1305.
  • Grzebisz W., Wrońska M., Diatta J.B., Dullin P. 2008a. Effect of zinc application at early stages of maize growth on the patterns of nutrients and dry matter accumulation by canopy. Part I. Zinc uptake patterns and its redistribution among maize organs. J. Elementol., 13(1): 17-28.
  • Grzebisz W., Wrońska M., Diatta J.B., Szczepaniak W. 2008b. Effect of zinc application at early stages of maize growth on the patterns of nutrients and dry matter accumulation by canopy. Part II. Nitrogen uptake and dry matter accumulation patterns. J. Elementol., 13(1): 29-39.
  • Grzebisz W., Baer A., Barłóg P., Szczepaniak W., Potarzycki J. 2010a. Effect of nitrogen and potassium fertilizing systems on maize grain yield. Fertilizers Fertilization. 40: 45-56.
  • Grzebisz W., Przygocka-Cyna K., Szczepaniak W., Diatta J.B., Potarzycki J. 2010b. Magnesium as a nutritional tool of nitrogen efficient management - plant production and environment. J. Elementol., 15(4):771-778.
  • Grzebisz W., Gransee A., Szczepaniak W., Diatta J.B. 2013. The effects of potassium fertilization on water use-efficiency in crop plants. J. Plant Nutr. Soil Sci., 176: 355-374.
  • Grzebisz W. 2013. Crop response to magnesium fertilization as affected by nitrogen supply Plant Soil, 368: 23-39.
  • Jones J.B., Eck H.V., Voss R. 1990. Plant analysis as an aid in fertilizing corn and grain sorghum. In: Soil testing and plant analysis. R.L. Westerman, (ed.) 3rd Soil Sci. Soc. Am. J., Book Ser. 3, Medison, WI: 521-527.
  • Jones R. J., Schreiber B. M.N., Roessler J.A. 1996. Kernel sink capacity in maize: Genotypic and maternal regulation. Crop Sci., 36: 301-306.
  • Kruczek A. 2005. Phosphorus utilization from fertilizer and accumulation of mineral components in the initial stage of maize development. Pol. J. Environ. Stud., 14(4): 467-475.
  • Mallarino A.P., Higashi S.L. 2009. Assessment of potassium supply for corn by analysis of plant parts. Soil Sci. Soc. Am. J., 73: 2177-2183.
  • Oosterhuis D.M., Loka D.A., Raper T.B. 2013. A Potassium and stress alleviation: Physiological functions and management of cotton. J. Plant Nutr. Soil Sci., 176: 331-343.
  • Otegui M., Bonhomme R. 1998. Grain yield components in maize. I. Ear growth and kernel set. Field Crops Res., 56: 247-256.
  • Parrent L.E. 2011. Diagnosis oft he nutrient compostional space of fruit crops. Rev. Bras. Frutic., Jaboticabal – SP, 3391: 321-334.
  • Potarzycki J. 2010. Influence of balanced fertilization on nutritional status of maize at anthesis. Fertilizers Fertilization, 39: 90-108.
  • Potarzycki J. 2011. Effect of magnesium or zinc suplementation at the background of nitrogen rate on nitrogen management by maize canopy cultivated in monoculture. Plant Soil Environ., 57: 19-25.
  • Schulte E.E., Kelling K.A. 1991. Analysis: a diagnostic tool. University of Wisconsin-Madison, NCH-46 Crop Fertilization, RR 4/91. Available online at: http://ces.purdue.edu/extmedia/NCH/NCH-46.html (Verified 2012.05. 25).
  • Soltanpour P.N., Malakouti M.J., Ronaghi A. 1995. Comparison of diagnosis and recommendation integrated system and nutrient sufficiency range for corn. Soil Sci. Soc. Am. J. 59: 133-139.
  • Subedi K., Ma B. 2005. Nitrogen uptake and partitioning in stay-green and leafy maize hybrids. Crops Sci., 45: 740-747.
  • Walworth J.L., Summer M.E. 1987. The Diagnosis and recommendation integrated system (DRIS). Adv. Soil Sci., 6: 149-188.

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