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Acta Agron Sin ›› 2016, Vol. 42 ›› Issue (04): 619-623.doi: 10.3724/SP.J.1006.2016.00619

• RESEARCH NOTES • Previous Articles    

Effects of Nitrogen Forms and Its Application Time on Plant Growth and Tuber Yield of Potato

SUYALA Qi-Qige,QIN Yong-Lin,JIA Li-Guo,FAN Ming-Shou*   

  1. College of Agronomy, Inner Mongolia Agricultural University, Hohhot 010019, China
  • Received:2015-08-01 Revised:2016-01-11 Online:2016-04-12 Published:2016-01-19
  • Contact: 樊明寿, E-mail: fmswh@126.com, Tel: 0471-4307390 E-mail:qiqige608@163.com
  • Supported by:

    This study was supported by the National Natural Science Foundation of China (31160411), Inner Mongolia Major Special Project “Innovation of Resource Use Efficiency Improvement Technology during Seed Potato Propagation and Commercial Potato Production”.

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Abstract:

The effects of nitrogen form on potato plant growth, tuber formation and tuber yield were studied under sand cultural condition using cultivars Kexin 1 and Favorita in 2013 and 2014. The results showed that there were no significantly different influences on plant height, leaf area, leaf SPAD value, plant dry matter accumulation and tuber weight when applied nitrite (NO3-N) or ammonia (NH4-N) before tuberization. However, there were higher leaf SPAD value,faster plant growth and higher tuber yield under application of NH4-N after tuberization compared with that of NO3-N. Moreover, no significant effect was detected on tuber dry matter distribution under different forms of nitrogen applied. Thus, potato nitrogen management including N fertilizer form and its application time should be adjusted according to the aim of commercial potato production or seed potato propagation.

Key words: Potato, N form, Application time, Growth, Yield

[1] Elgharably A, Marschner P, Rengasamy P. Wheat growth in a saline sandy loam soil as affected by N form and application rate. Plant Soil, 2010, 328: 303–312

[2] Guo X R, Zu Y G, Tang Z H. Physiological responses of Catharanthus roseus to different nitrogen forms. Acta Physiol Plant, 2012, 34: 589–598

[3] 邢瑶, 马兴华. 氮素形态对植物生长影响的研究进展. 中国农业科技导报, 2015, 17(2): 109–117

Xing Y, Ma X H. Research progress on effect of nitrogen form on plant growth. J Agric Sci, 2015, 17(2): 109–117 (in Chinese with English abstract)

[4] Davis J M, Loescher W H, Hammond M X, Thornton R E. Response of potatoes to nitrogen form and to change in nitrogen form at tuber initiation. J Am Soc Hort Sci, 1986, 111: 70–72

[5] 芶久兰, 孙锐锋, 何佳芳, 秦松, 肖厚军, 周瑞荣, 袁玲. 种植模式和氮肥形态对威芋3号马铃薯产量及品质的影响. 中国马铃薯, 2011, 25(3): 36–41

Gou J L, Sun R F, He J F, Qin S, Xiao H J, Zhou R R, Yuan L. Effect of different cropping patterns and nitrogenous fertilizer forms on potato yield and quality. Chin Potato J, 2011, 25(3): 36–41 (in Chinese with English abstract)

[6] 焦峰, 王鹏, 翟瑞常. 氮素形态对马铃薯氮素积累与分配的影响. 中国土壤与肥料, 2012, (2): 39–44

Jiao F, Wang P, Zhai R C. Effects of forms of nitrogen fertilizer on N accumulation and distribution of potato. China Soils Fert, 2012, (2): 39–44 (in Chinese with English abstract)

[7] Ganmore-Neumann R, Kafkafi U. Root temperature and percentage NO-3/NH+4 effect on tomato plant development: I. Morphology and growth. Agron J, 1980, 72: 758–761

[8] Mcelhannon W S, Mills H A. Influence of percent NO-3/NH+4 on growth, N absorption, and assimilation by lima beans in solution culture. Agron J, 1978, 70: 1027–1032

[9] Sasseville D N, Mills H A. N form and concentration: effects on N absorption, growth, and total N accumulation with southernpeas. J Am Soc Hort Sci, 1979, 104: 586–591

[10] Kafkafi U. Root temperature, concentration and the ratio NO-3/NH+4 effect on plant development. J Plant Nutr, 1990, 13: 1291–1306

[11] Walch-Liu P, Neumann G, Bangerth F, Engels C. Rapid effects of nitrogen form on leaf morphogenesis in tobacco. J Exp Bot, 2000, 51: 227–237

[12] 张伟, 高世铭, 王亚宏. 不同形态氮素比对马铃薯氮素分布、光合参数及产量的影响. 甘肃农业大学学报, 2009, 44(6): 39–43

Zhang W, Gao S M, Wang Y H. Effects of NO-3/NH+4 ratio on nitrogen distribution , photosynthetic parameter and yield of potato. Gansu Agric Univ, 2009, 44(6): 39–43 (in Chinese with English abstract)

[13] 苏亚拉其其格, 樊明寿, 贾立国, 陈杨, 秦永林. 氮素形态对马铃薯块茎形成的影响及机理. 土壤通报, 2015, 46: 509–512

Suyala-Qiqige, Fan M S, Jia L G, Chen Y, Qin Y L. Influence of nitrogen form on potato tuberization and its possible mechanism. Chin J Soil Sci, 2015, 46: 509–512 (in Chinese with English abstract)

[14] Gao Y, Jia L G, Hu B, Alva A, Fan M S. Potato stolon and tuber growth influenced by nitrogen form. Plant Prod Sci, 2014, 17: 138–143

[15] Marschner H. Mineral Nutrition of Higher Plants, 2nd edn. London: Academic Press, 1995. pp 47–50

[16] Cao W X, Tibbitts T W. Responses of potatoes to solution pH levels with different forms of nitrogen. J Plant Nutr, 1994, 17: 109–126

[17] Osaki M, Shirai J, Shinano T, Tadano T. Effects of ammonium and nitrate assimilation on the growth and tuber swelling of potato plants. Soil Sci Plant Nutr, 1995, 41: 709–719

[18] Serio F, Ella A, Santamaria P, Signore A. Influence of nitrogen form on yield and nitrate content of sub-irrigated early potato. J Sci Food Agric, 2004, 84: 1428–1432
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