The effects of weather variations on winter hulless barley were analyzed using data obtained from winter crop situation test at Iksan from 1985 to 2015. The wintering stage in the 16 years from 2000 to 2015 has become colder and shorter than that in the previous 15 years from 1985 to 1999. This has resulted in an early sequence of regrowth date, heading date, and ripening date. Heading date of hulless barley was mostly influenced by regrowth date and period of stem elongation. Futher, the regrowth date and period of stem elongation were strongly negatively correlated with the average air temperature in February and the maximum air temperature in March, respectively. The number of spikes per m 2 and 1000-grain weight of Saechalssal cultivated from 2003 to 2015 showed strong positive correlations with yield. In early heading years, yield increased with extended ripening period and with increased 1000-grain weight. There was a strong negative correlation between 1000-grain weight and the average temperature during the ripening period. In the 15 years from 1985 to 1999, warm winters contributed to yield increase with increase in the number of spikes per m 2 and a long ripening period. In contrast, in the recent 16 years from 2000 to 2015, the large variability in air temperature during the wintering stage, the decreasing number of spikes per m 2 and the steadily increasing air temperature and decreasing precipitation during the ripening stage have caused high temperature stress and yield loss in late heading years.
The objective of this study was to investigate the effect of drip irrigation level on soil salinity and growth of broccoli (Brassica oleracea L. var. italica) at the 'Saemangeum Reclaimed Tidal Land' from April to June, 2015. Drip irrigation was conducted at 1.5, 3.0 and 6.0mm•day -1 level for reduction of resalinization in the plastic vinyl house using 10cm spacing drip irrigation tape. At harvesting stage, the average EC of surface soil was 10.9dS•m -1 for 1.5mm•day -1 , 11.5dS•m -1 for 3.0mm•day -1 and 5.1dS•m -1 for 6.0mm•day -1 and was significantly reduced by 52~56% in 6.0mm•day -1 treated plot compared to those in 1.5 and 3.0mm•day -1 plots. The fresh bud weights of 1.5, 3.0 and 6.0mm•day -1 treatment plots were 60.9, 129.1 and 371.3g•plant -1 , respectively. The estimated soil EC for 50% yield reduction was 7.6dS•m -1 and the desalinization depth by drip irrigation was 30~40cm in soil profile. The total amount of drip irrigation water was estimated to be 422mm and the daily drip irrigation level was 6.0mm•day -1 for the prevention of resalinization during the broccoli growing period at the 'Saemangeum Reclaimed Tidal Land'. Our results suggested that drip irrigation shows effectiveness on the lowering the soil salinity according to the drip irrigation quantity but it needs more research on this study because dynamics of salts in soil can vary with many factors such as soil physico-chemical properties and seasonal climate.
Jungmo1024' is a blast resistant early maturing rice cultivar with high temperature tolerance during grain filling stage. 'Jungmo1024' was derived from a sodium azide treatment on 'Suweon472', a high yielding japonica elite line which was latterly registered as 'Namil'. Comparison with the agronomical traits of 'Namil', 'Jungmo1024' was uniquely characterized as the induced gained function due to the reduced culm length, increased tiller number, strong blast resistance and especially high temperature tolerance during grain filling stage. The high temperature tolerance of 'Jungmo1024' was supported by two years experiments by comparing the head rice ratio produced in ordinary paddy field and green house condition. The heading date of 'Jungmo1024' was July 29 in central plain area, which was 9 days earlier than that of 'Hwaseong'. The milled rice yield performance of 'Jungmo1024' was about 4.98 MT/ha in local adaptability test for three years. 'Jungmo1024' had 69 cm in culm length, which was 15 cm shorter than that of 'Hwaseong', 20 cm in panicle length, 16 in tiller number, and 22.3g in 1,000 grain-weight of brown rice. 'Jungmo1024' exhibited strong rice blast resistance, but do not have any clear resistance gene sources against bacterial blight, viral diseases and insect fests. 'Jungmo1024', nevertheless, would be a useful rice cultivar could be used as a donor line for the breeding programs for developing southern plane adaptable early maturing rice cultivars with enhanced rice blast resistance, lodging tolerance, and especially high temperature tolerance during grain filling stage.
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