Nitrogen Use Efficiency and Yield of Maize under Deficit Irrigation
DOI:
https://doi.org/10.52151/jae2011484.1460Keywords:
Nitrogen use efficiency, deficit inigation, maize yield, soil miostune deficitAbstract
The NUE in maize (hybrid BIO-9681) crop with different levels of nitrogen under varying irrigation levels was estimated through an experiment conducted during 2009 and 2010. The field experiment comprised of four levels of irrigation and four levels of nitrogen application rates replicated thrice in a randomized complete block design. Irrigation water treatments in the main plots were: rainfed (W1); 50 % deficit irrigation (W2), 25 % deficit irrigation (W3) and full irrigation (W4). Nitrogen levels in sub plots were 0 (N1), 75 (N2), 150 (N3) and 225 (N4) kg.ha-1. Application of nitrogen significantly affected the grain yield and NUE for N2 and N3 (75 and 150 kg N.ha”1) treatments at 0.01 and 0.05 probability levels, respectively. However, the difference in yield and NUE were non-significant for N3 and N4 treatments. Maximum grain yield and biomass was observed for W4N4 treatment amounting to 6050 kg.ha-1 and 18650 kg.ha-1, respectively, during 2009. On the other hand, grain yield and biomass during 2010 was highest for W4N4 treatment amounting to 5860 kg.ha-1 and 18010 kg.ha-1, respectively. The highest NUE (19.6 kg grain.kgN-1) was obtained for W4N2 treatment combination during 2009, while it was highest (21.7 kg grain.kgN-1) for W3N2 treatment during 2010. Overall, the NUE decreased with increasing nitrogen level beyond 75 kg N.ha-1 (N2) at all irrigation levels.
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References
Arun Kumar M A; Gali SK; Hebsur N S. 2007. Effect of different levels of NPK on growth and yield parameters of sweet corn. Karnataka J. Agric. Sci., 20 (1), 41 – 43.
Cakir R. 2004. Effect of water stress at different development stages on vegetative and reproductive growth of corn. Field Crops Res., 89, 1–16.
Cathcart R J; Swanton C J. 2003. Nitrogen management will influence threshold values of green foxtail (Setaria viridis) in corn. Weed Sci., 51, 975-986.
Chaudhary R S; Rana K S; Kantwa S R. 2002. Effect of cropping system and nitrogen on growth and yield of maize (Zea mays L.). Annals of Agric. Res., 23(3), 461-464.
Dagdelen N; Yilmaz E; Sezgin F; Gurbuz T. 2006.Water– yield relation and water use efficiency of cotton (Gossypium hirsutum L.) and second crop corn (Zea mays L.) in western Turkey. Agri. Water Manage., 82, 63–85.
El-Douby K A; Ali E A; Toaima S A E. 2001. Effect of nitrogen fertilizer defoliation and plant density on maize grain yield. Egypt J. Agric. Res., 79(3), 965-981.
Li F; Wei C, Zhang F, Zhang J; Nong M; Kang S. 2010. Water-use efficiency and physiological responses of maize under partial root-zone irrigation. Agric. Water Manage., 97, 1156–1164.
Gehl R J; Schmidt J P; Maddux L D; Gordon W B. 2005. Corn yield response to nitrogen rate and timing in sandy irrigated soils. Agron. J., 97, 1230-1238.
O’Neill P M; Shanahan J F; Schepers J S. 2004. Agronomic responses of corn hybrids from different areas to deficit and adequate level of water and nitrogen. Agron J., 96, 1660–1667.
Pandey R K; Maranville J W; Admou A. 2001. Tropical wheat response to irrigation and nitrogen in a Sahelian environment. I. Grain yield, yield components and water use efficiency. European J. Agron., 15, 93–105.
Sabir M R; Ahmad I; Shahzad M A. 2000. Effect of nitrogen and phosphorus on yield and quality of two hybrids of maize (Zea mays L.). J. Agric. Res., 38(4), 339-346.
Shah Z; Shah S H; Peoples M B; Schwenke G D. 2007.N effects on nitrogen fixation and yields of legume-cereal rotations and soil organic fertility. Field Crops Res., 83, 1-11.
