Effect of Magnesium Nutrition of Onion (Allium cepa L.). Part I. Yielding and Nutrient Status

Barker AV, Pilbeam DJ. Handbook of Plant Nutrition. Boca Raton: Taylor & Francis Group; 2007, 146-181. DOI: 10.1201/9781420014877.fmatt.10.1201/9781420014877.fmattSearch in Google Scholar

Kirkby EA, Mengel K. The role of magnesium in plant nutrition. Z Pflanzenern Bodenk. 1976;2:209-222.Search in Google Scholar

Marschner H. Mineral Nutrition of Higher Plants. 2^nd ed. New York: Academic Press; 1995.Search in Google Scholar

Neales TF. Components of the total magnesium content within the leaves of white clover and perennial rye grass. Nature. 1956;177:388-389. DOI: 10.1038/177388a0.10.1038/177388a0Search in Google Scholar

Huang B. Nutrient accumulation and associated root characteristics in response to drought stress in tall fescue cultivars. Hort Science. 2001;36(1):148-152. DOI: 35400009866683.0380.10.21273/HORTSCI.36.1.148Search in Google Scholar

Kolb TE, McCormick LH. Etiology of sugar maple decline in four Pennsylvania stands. Can J Forest Res. 1993;23(11):2395-2402. DOI: 10.1139/x93-296.10.1139/x93-296Search in Google Scholar

Huang JW, Grunes DL. Effects of root temperature and nitrogen form on magnesium uptake and translocation by wheat seedlings. J Plant Nutr. 1992;15(6/7):991-1005.10.1080/01904169209364376Search in Google Scholar

Jensén P, Perby J. Growth and accumulation of N, K⁺, Ca²⁺, and Mg²⁺ in barley exposed to various nutrient regimes and root/shoot temperatures. Physiol Plant. 1986;67:159-165. DOI: 10.1111/j.1399-3054.1986.tb02438.x.10.1111/j.1399-3054.1986.tb02438.xSearch in Google Scholar

Marier TE. Solution pH influences on growth and mineral element concentrations of ‘Waimanalo’ papaya seedlings. J Plant Nutr. 1998;212:601-2612. DOI: 10.1080/01904169809365591.10.1080/01904169809365591Search in Google Scholar

Melakeberhan H, Jones AL, Bird GW. Effects of soil pH and Pratylenchus penetrans on the mortality of ‘Mazzard’ cherry seedlings and their susceptibility to Pseudomonas syringae pv. syringae. Can. J Plant Pathol. 2000;22:131-137. DOI: 10.1080/07060660009500486.10.1080/07060660009500486Search in Google Scholar

Tan KZ, Keltjens WG, Findenegg GR. Acid soil damage in sorghum genotypes - role of magnesium - deficiency and root impairment. Plant Soil. 1992;139(2):149-155. DOI: 10.1007/BF00009305.10.1007/BF00009305Search in Google Scholar

http://www.onions-usa.org/contact/contact.phpSearch in Google Scholar

Niemirowicz-Szczytt K. Hodowla roślin warzywnych. Warszawa: SGGW; 1993 (in Polish).Search in Google Scholar

Skąpski H, Dąbrowska B. Uprawa warzyw w polu. Warszawa: SGGW; 1994 (in Polish). ISBN 83-00-02846-3.Search in Google Scholar

Rumpel J. Uprawa cebuli. Warszawa: Hortpress; 2000 (in Polish).Search in Google Scholar

Nowosielski O. Metody oznaczania potrzeb nawożenia. Warszawa: PWRiL; 1974, 1-91 (in Polish).Search in Google Scholar

IUNG. Metody badań laboratoryjnych w stacjach chemiczno-rolniczych. Cz. III. Badanie gleb, ziem i podłoży spod warzyw i kwiatów oraz części wskaźnikowych roślin w celach diagnostycznych. Puławy: IUNG; 1983, 28-81 (in Polish).Search in Google Scholar

Sady W. Nawożenie warzyw polowych. Warszawa: Plantpress; 2000, 8-33 (in Polish).Search in Google Scholar

Metodyka Integrowanej Produkcji Cebuli. Warszawa: Państwowa Inspekcja Ochrony Roślin i Nasiennictwa; 2005, 1-38 (in Polish).Search in Google Scholar

Breś W, Golcz A, Komosa A, Kozik E, Tyksiński W. Nawożenie roślin ogrodniczych. Poznań: Wydawnictwo Uniwersytetu Przyrodniczego w Poznaniu; 2008, 5-189 (in Polish). ISBN 978-83-7160-548-2.Search in Google Scholar

Dobrzański A, Adamicki F. Uprawa cebuli. Kraków: Plantpress; 2006 (in Polish).Search in Google Scholar

Nowosielski O. Znaczenie potasu i magnezu w uprawie roślin ogrodniczych. In: Materiały na Konferencję Ogólnopolską. Skierniewice: Instytut Warzywnictwa; 1994, 9-13 (in Polish).Search in Google Scholar

Adamicki F, Dobrzański A. Cebula. Technologia uprawy i przechowywania. Skierniewice: Instytut Warzywnictwa; 1999 (in Polish).Search in Google Scholar

Gurgul E, Kołota E, Herman B, Biczak R. The effect of magnesium and potassium fertilization on chlorophyll, sugars and ascorbic acid contents of onion and chive leaves. Zesz Nauk AR we Wrocławiu. 1998; Rolnictwo LXXIII, 347:155-164; ISSN 0137-1959.Search in Google Scholar

Wyszkowski M. Effect of magnesium on yield formation and the mutual relations between some ions in crops. Olsztyn: Rozpr Monograf UW-M; 2001, 52.Search in Google Scholar

Kleiber T, Bosiacki M, Markiewicz B. Effect of the controlled fertilization on the mineral components of chosen varieties of onion (Allium cepa L.). Part I. Macroelements. Ecological Chemistry and Engineering. 2010;17(2-3):269-278. ISSN 1898-6188.Search in Google Scholar

Coolong TW, Kopsell DA, Kopsell DE, Randle WM. Nitrogen and sulfur influence nutrient usage and accumulation in onion. J Plant Nutr. 2004;27(9):1667-1686. DOI: 10.1081/PLN-200026010.10.1081/PLN-200026010Search in Google Scholar

Zink FW. Studies on the growth rate and nutrient absorption of onion. Hilgardia. 1966;37(8):203-218.10.3733/hilg.v37n08p203Search in Google Scholar

Mills HA, Jones Jr. JB. Plant Analysis Handbook. II. Athens (GA): MicroMacro Publishing Inc.; 1996, 6-62.Search in Google Scholar

Tahvonen R. Contents of selected elements in some fruits, berries and vegetables on the Finnish market in 1987-1989. J Food Comp Anal. 1993;6:75-86. DOI: 10.1006/jfca.1993.1009.10.1006/jfca.1993.1009Search in Google Scholar

Błażewicz-Woźniak M, Kęsik T, Wach D, Konopiński M. The influence of conservation tillage on the mineral elements content in soil and chemical composition of onion. Acta Sci Pol Hortorum Cultus. 2008;7(2):61-72. ISSN 1644-0692.Search in Google Scholar

Lasa B, Frechilla S, Aleu M, González-Moro B, Lamsfus C, Aparicio-Tejo PM. Effects of low and high levels of magnesium on the response of sunflower plants grown with ammonium and nitrate. Plant Soil. 2000;225:167-174. DOI: 10.1023/A:1026568329860.10.1023/A:1026568329860Search in Google Scholar

Puech L, Mehne-Jakobs B. Histology of magnesium-deficient Norway spruce needles influenced by nitrogen source. Tree Physiol. 1997;17(5):301-310. DOI: 10.1093/treephys/17.5.301.10.1093/treephys/17.5.30114759853Search in Google Scholar

Wilcox GE, Hoff JE, Jones CM. Ammonium reduction of Ca and Mg content of tomato and sweetcorn leaf tissue and influence on incidence of blossom end root of tomato fruit. J Amer Soc Hort Sci. 1973;98:86-89.Search in Google Scholar

Chance III WO, Somda ZC, Mills HA. Effect of nitrogen form during the flowering period on zucchini squash growth and nutrient element uptake. J Plant Nutr. 1999;22:597-607. DOI: 0.1080/01904169909365655.10.1080/01904169909365655Search in Google Scholar

James DW, Hurst CJ, Tindall TA. Alfalfa cultivar response to phosphorus and potassium deficiency - Elemental composition of the herbage. J Plant Nutr. 1995;18(11):2447-2464. DOI: 10.1080/01904169509365076.10.1080/01904169509365076Search in Google Scholar

Fageria NK, Zimmermann FJP, Baligar VC. Lime and phosphorus interactions on growth and nutrient uptake by upland rice, wheat, common bean, and corn in an oxisol. J Plant Nutr. 1995;18(11):2519-2532. DOI: 10.1080/01904169509365081.10.1080/01904169509365081Search in Google Scholar

Reinbott TM, Blevins DG. Phosphorus and temperature effects and magnesium, calcium, and potassium in wheat and tall fescue leaves. Agron J. 1994;86(3):523-529. DOI: 10.1080/01904169509365081.10.1080/01904169509365081Search in Google Scholar

Reinbott TM, Blevins DG. Phosphorus nutritional effects on root hydraulic conductance, xylem water flow and flux of magnesium and calcium in squash plants. Plant Soil. 1999;209(2):263-273. DOI: 10.1023/A:1004646732225.10.1023/A:1004646732225Search in Google Scholar

Cao W, Tibbitts TW. Growth, carbon dioxide exchange and mineral accumulation in potatoes grown at different magnesium concentrations. J Plant Nutr. 1992;15(9):1359-1371. DOI: 10.1080/01904169209364403.10.1080/0190416920936440311537503Search in Google Scholar

Appenroth KJ, Gabrys H, Scheuerlein RW. Ion antagonism in phytochrome-mediated calciumdependent germination of turions of Spirodela polyrhiza (L.) Schleiden. Planta. 1999;208:583-587. DOI: 10.1007/s004250050596.10.1007/s004250050596Search in Google Scholar

Carvajal M, Martínez V, Cerdá A. Influence of magnesium and salinity on tomato plants grown in hydroponic culture. J Plant Nutr. 1999;22:177-190. DOI: 10.1080/01904169909365616.10.1080/01904169909365616Search in Google Scholar

Hicklenton PR, Cairns KG. Calcium and magnesium nutrition of containerized Cotoneaster dammeri ‘Coral Beauty’. J Environ Hort. 1992;10(2):104-107.Search in Google Scholar

Schwartz S, Bar-Yosef B. Magnesium uptake by tomato plants as affected by Mg and Ca concentration in solution culture and plant age. J Agron. 1983;75(2):267-272.10.2134/agronj1983.00021962007500020026xSearch in Google Scholar

Choudhury TMA, Khanif YM. Evaluation of effects of nitrogen and magnesium fertilization on rice yield and fertilizer nitrogen efficiency using 15N tracer technique. J Plant Nutr. 2001;24(6),855-871. DOI: 10.1081/PLN-100103778.10.1081/PLN-100103778Search in Google Scholar