Effects of low ozone exposure of spring wheat on net CO2 uptake, Rubisco, leaf senescence and grain filling

KATINKA OJANPERÄ; EIJA PÄTSIKKÄ; TOIVO YLÄRANTA

doi:10.1046/j.1469-8137.1998.00120.x

Abstract

Effects of ozone on spring wheat (Triticum aestivum L. cv. Satu) were studied in an open-top chamber experiment during two growing seasons (1992–1993) at Jokioinen in south-west Finland. The wheat was exposed to filtered air (CF), non-filtered air (NF), non-filtered air+35 nl l−1 ozone for 8 h d−1 (NF+) and ambient air (AA). Each treatment was replicated five times. Two wk after anthesis, after 4 wk of ozone treatment (NF+, 45 nl l−1 1000–1800 hours, seasonal mean) the net CO2 uptake of wheat flag leaves was decreased by c. 40% relative to CF and NF treatments, both initial and total activity of Rubisco and the quantity of protein-bound SH groups were decreased significantly. Added ozone also significantly accelerated flag leaf senescence recorded as a decrease in chloroplast size. The effect was significant 2 wk after anthesis, and senescence was complete after 4 wk. In the CF and NF treatments senescence was complete 5 wk after anthesis. The significant effect of ozone on the chloroplasts and net CO2 uptake 2 wk after anthesis did not affect the grain filling rate. However, since the grain filling period was shorter for ozone fumigated plants, kernels were smaller. The decrease in 1000-grain weight explained most of the yield reduction in the plants under NF+ treatment. The results indicate that wheat plants are well buffered against substantial decrease in source activity, and that shortened flag leaf duration is the major factor causing ozone-induced yield loss.

Crossref Citations

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Ollerenshaw, J.H and Lyons, T 1999. Impacts of ozone on the growth and yield of field-grown winter wheat. Environmental Pollution, Vol. 106, Issue. 1, p. 67.

Gelang, Johanna Pleijel, Hakan Sild, Ebe Danielsson, Helena Younis, Suhaila and Sellden, Gun 2000. Rate and duration of grain filling in relation to flag leaf senescence and grain yield in spring wheat (Triticum aestivum) exposed to different concentrations of ozone. Physiologia Plantarum, Vol. 110, Issue. 3, p. 366.

Donnelly, Alison Jones, Mike B Burke, James I and Schnieders, Bert 2000. Elevated CO2 provides protection from O3 induced photosynthetic damage and chlorophyll loss in flag leaves of spring wheat (Triticum aestivum L., cv. ‘Minaret’). Agriculture, Ecosystems & Environment, Vol. 80, Issue. 1-2, p. 159.

Ewert, Frank and Porter, John R. 2000. Ozone effects on wheat in relation to CO2: modelling short‐term and long‐term responses of leaf photosynthesis and leaf duration. Global Change Biology, Vol. 6, Issue. 7, p. 735.

Zheng, Youbin Lyons, Tom and Barnes, Jeremy 2000. Effects of ozone on the production and utilization of assimilates in Plantago major. Environmental and Experimental Botany, Vol. 43, Issue. 2, p. 171.

Gelang, Johanna Pleijel, Håkan Sild, Ebe Danielsson, Helena Younis, Suhaila and Selldén, Gun 2000. Rate and duration of grain filling in relation to flag leaf senescence and grain yield in spring wheat (Triticum aestivum) exposed to different concentrations of ozone. Physiologia Plantarum, Vol. 110, Issue. 3, p. 366.

McKee, I. F. and Long, S. P. 2001. Plant growth regulators control ozone damage to wheat yield. New Phytologist, Vol. 152, Issue. 1, p. 41.

Kleier, C Farnsworth, B and Winner, W 2001. Photosynthesis and biomass allocation of radish cv. “Cherry Belle” in response to root temperature and ozone. Environmental Pollution, Vol. 111, Issue. 1, p. 127.

Donnelly, Alison Craigon, Jim Black, Colin R. Colls, Jeremy J. and Landon, Geoff 2001. Does elevated CO2 ameliorate the impact of O3 on chlorophyll content and photosynthesis in potato (Solanum tuberosum)?. Physiologia Plantarum, Vol. 111, Issue. 4, p. 501.

Lawson, Tracy Craigon, J.i.m. Tulloch, Ann-Marie Black, Colin R. Colls, Jeremy J. and Landon, Geoff 2001. Photosynthetic responses to elevated CO2and O3 in field-grown potato(Solanum tuberosum). Journal of Plant Physiology, Vol. 158, Issue. 3, p. 309.

Vorne, V Ojanperä, K De Temmerman, L Bindi, M Högy, P Jones, M.B Lawson, T and Persson, K 2002. Effects of elevated carbon dioxide and ozone on potato tuber quality in the European multiple-site experiment ‘CHIP-project’. European Journal of Agronomy, Vol. 17, Issue. 4, p. 369.

del Valle-Tascon, S. and Carrasco-Rodriguez, J. L. 2004. Production Practices and Quality Assessment of Food Crops Volume 1. p. 189.

Pell, Eva J. Miller, Jennifer D. and Bielenberg, Douglas G. 2004. Plant Cell Death Processes. p. 295.

Kanerva, Teri Regina, Kristiina Rämö, Kaisa Karhu, Kristiina Ojanperä, Katinka and Manninen, Sirkku 2005. Mesocosms Mimic Natural Meadows as regards Greenhouse Gas Fluxes and Potential Activities of Nitrifying and Denitrifying Bacteria. Plant and Soil, Vol. 276, Issue. 1-2, p. 287.

Wahid, A. 2006. Influence of atmospheric pollutants on agriculture in developing countries: A case study with three new wheat varieties in Pakistan. Science of The Total Environment, Vol. 371, Issue. 1-3, p. 304.

Wang, Xiaoke Zheng, Qiwei Yao, Fangfang Chen, Zhan Feng, Zhaozhong and Manning, W.J. 2007. Assessing the impact of ambient ozone on growth and yield of a rice (Oryza sativa L.) and a wheat (Triticum aestivum L.) cultivar grown in the Yangtze Delta, China, using three rates of application of ethylenediurea (EDU). Environmental Pollution, Vol. 148, Issue. 2, p. 390.

Marco, F. Calvo, E. Carrasco, P. and Sanz, M. J. 2007. Analysis of molecular markers in three different tomato cultivars exposed to ozone stress. Plant Cell Reports, Vol. 27, Issue. 1, p. 197.

Bassin, Seraina Volk, Matthias Suter, Matthias Buchmann, Nina and Fuhrer, Jürg 2007. Nitrogen deposition but not ozone affects productivity and community composition of subalpine grassland after 3 yr of treatment. New Phytologist, Vol. 175, Issue. 3, p. 523.

Leitao, L. Bethenod, O. and Biolley, J.‐P. 2007. The Impact of Ozone on Juvenile Maize (Zea mays L.) Plant Photosynthesis: Effects on Vegetative Biomass, Pigmentation, and Carboxylases (PEPc and Rubisco). Plant Biology, Vol. 9, Issue. 4, p. 478.

Black, V. J. Stewart, C. A. Roberts, J. A. and Black, C. R. 2007. Ozone affects gas exchange, growth and reproductive development in Brassica campestris (Wisconsin Fast Plants). New Phytologist, Vol. 176, Issue. 1, p. 150.

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Effects of low ozone exposure of spring wheat on net CO2 uptake, Rubisco, leaf senescence and grain filling

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