Abstract
Soil salinity is a major environmental stress causing significant loss of crop productivity. Barley (Hordeum vulgare L.) is one of the few field crops that can grow in salt-affected fields and varietal differences in productivity under salinity conditions were known. To clarify the trait most responsible for grain production under salt stress, barley cultivars that were salt tolerant (OUE812) or salt sensitive (OUC613) were grown from seedling to harvest stage in vermiculite containing various concentrations of NaCl. Dry weight of aboveground parts and grain weight decreased significantly with increasing NaCl concentration. The dry weight of the aboveground parts and grain weight decreased more significantly in OUC613 than in OUE812 for plants treated with 150 mM and 200 mM NaCl. A marked reduction in ripening percentage caused significantly decreased grain production in OUC613 as compared with OUE812. In plants treated with 200 mM NaCl, the photosynthetic rate decreased three weeks after starting the NaCl treatment, but a significant difference between cultivars in photosynthetic rate did not appear until seven weeks of NaCl treatment. OUE812 kept a higher photosynthetic rate during ripening than did OUC613 and dry matter production during the period from ripening to harvest was significantly larger in OUE812 than in OUC613. Keeping a higher photosynthetic rate might have contributed to higher grain production in OUE812. Higher ripening percentage and higher rate of photosynthesis during ripening might be target traits in breeding to improve the tolerance of barley to long-term salt stress.
Highlights
Soil salinity is a major environmental stress that causes significant losses of crop productivity and adversely affects agriculture around the world
Cultivated barley accessions of OUC613 and OUE812 were grown in 14 L pots (25 cm diameter, 30 cm height) with vermiculite (Fukushima Vermiculite Co., Fukushima, Japan)
No difference was observed between the dry weights of the aboveground parts of OUC613 and OUE812 in the control, and the reduction in dry weight of plants treated with 150 mM and 200 mM NaCl was lower in OUE812 than in OUC613
Summary
Soil salinity is a major environmental stress that causes significant losses of crop productivity and adversely affects agriculture around the world. Over 6% of the world’s land is affected by either salinity or sodicity, with saline soils and sodic soils covering approximately 400 and 430 million ha, respectively (FAO Land and Plant Nutrition Management Service, 2008). In addition to salt-affected soils that have developed due to natural soil-forming processes, salinization due to man-made factors, mainly as a consequence of improper methods of irrigation and tree clearing which lead to water table and salt table rise, is an increasingly important issue (Pessarakli & Szabolcs, 2011). Of the current 230 million ha of irrigated land, approximately 20% is salt-affected (FAO Land and Plant Nutrition Management Service, 2008). It is important to be able to grow salt-tolerant crops for reliable crop performance in salinized soil, and from this perspective, it is necessary to develop salt-tolerant crops
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