RESEARCH ARTICLE Assessment of growth and yield losses in two Zea mays L. cultivars (quality protein maize and nonquality protein maize) under projected levels of ozone Aditya Abha Singh & S. B. Agrawal & J. P. Shahi & Madhoolika Agrawal Received: 17 May 2013 /Accepted: 23 September 2013 /Published online: 11 October 2013 # Springer-Verlag Berlin Heidelberg 2013 Abstract Rapid industrialization and economic developments have increased the tropospheric ozone (O 3 ) budget since preindustrial times, and presently, it is supposed to be a major threat to crop productivity. Maize (Zea mays L.), a C4 plant is the third most important staple crop at global level with a great deal of economic importance. The present study was conducted to evaluate the performance of two maize cultivars [HQPM1: quality protein maize (QPM)] and [DHM117: nonquality protein maize (NQPM)] to variable O 3 doses. Experimental setup included filtered chambers, nonfiltered chambers (NFC), and two elevated doses of O 3 viz. NFC+ 15 ppb O 3 (NFC+15) and NFC+30 ppb O 3 (NFC+30). During initial growth period, both QPM and NQPM plants showed hormetic effect that is beneficial due to exposure of low doses of a toxicant (NFC and NFC+15 ppb O 3 ), but at later stages, growth attributes were negatively affected by O 3 . Growth indices showed the variable pattern of photosynthate translo- cation under O 3 stress. Foliar injury in the form of interveinal chlorosis and reddening of leaves due to increased production of anthocyanin pigments was observed at higher concentra- tions of O 3 . One-dimensional gel electrophoresis of leaves taken from NFC+30 showed reductions of major photosyn- thetic proteins, and differential response was observed between the two test cultivars. Decline in the number of male flowers at elevated O 3 doses suggested damaging effect of O 3 on repro- ductive structures which might be a cause of productivity losses. Variable carbon allocation pattern particularly to husk leaves, foliar injury, and damage of photosynthetic proteins led to significant reductions in economic yield at higher O 3 doses. PCA showed that both the cultivars responded more or less similarly to O 3 stress in their respective groupings of growth and yield parameters, but magnitude of their response was variable. It is further supported by difference in the significance of correlations between variables of yield and AOT40. Cultivar response reflects that QPM performed better than NQPM against elevated O 3 . Keywords Tropospheric ozone . Zea mays L. . QPM . Growth . Foliar injury . Photosynthetic proteins . Yield Introduction Rapid industrialization and expanding economy have guided us towards an increased emission of O 3 precursors leading to an increase in its concentration (Wang and Mauzerall 2004; Van Dingenen et al. 2009). Background O 3 concentrations have doubled since preindustrial times to the level ranging from 20 to 45 nL/L (Vingarzan 2004). According to Meehl et al. (2007), if there is unremitting emission of O 3 precursors as suggested by various models (increase of 20–25 % in O 3 Responsible editor: Philippe Garrigues A. A. Singh : S. B. Agrawal (*) : M. Agrawal Laboratory of Air Pollution and Global Climate Change, Department of Botany, Banaras Hindu University, Varanasi 221005, India e-mail: sbagrawal56@gmail.com A. A. Singh e-mail: abha2512.singh@gmail.com M. Agrawal e-mail: madhoo58@yahoo.com J. P. Shahi Department of Genetics and Plant Breeding, Institute of Agricultural Sciences, Banaras Hindu University, Varanasi 221005, India e-mail: jpshahi1@yahoo.com Environ Sci Pollut Res (2014) 21:2628–2641 DOI 10.1007/s11356-013-2188-6