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Abstract
A pot culture experiment of nitrogen forms [nitrate (NO−
3
): ammonium (NH
+
4
)] with four ratios (100:0, 75:25, 50:50, and 25:75) in nutrient solutions was conducted to examine the effect of nitrogen forms on the growth and polyamine contents of developing seeds of vegetable soybean [Glycine max (L.) Merr. cv. ‘Li-xiang 95-1′]. Results showed that the best plant growth vigor was observed in 
(75%), and then in 
(50%). However, the fresh and dry weight of biomass decreased when a high concentration of either 
(100%) or 
(75%) was the primary nitrogen source in the nutrient solution. The numbers of flowers and pods in 
(75%) were significantly decreased compared with other ammonium-nitrate ratios in which the numbers of flowers and pods were not influenced by nitrogen forms. During the development of seeds, levels of free Put and Spd decreased, and the decrease extents were more marked in 100:0 and 25:75 (
:
), but the change of free Spm was opposite. Levels of conjugated and bound polyamines in all nitrogen forms increased, but the increases in 75:25 and 50:50 (
:
) were not so obvious as in 100:0 and 25:75 (
:
) treatments. The possible roles of polyamines in the adaptive mechanism of vegetable soybean seeds to different nitrogen forms were discussed.
ACKNOWLEDGMENTS
This work was financially supported by the Chinese National Programs for High Technology Research and Development (Project number 2006AA10A110) and Chinese National Key Specialized Project (2009ZX08004-011B). Lei Chen and Qizn-Qian Liu contributed equally to this work.
