This study aimed to investigate the impacts of extreme weather on the dry matter yield (DMY) of silage maize in South Korea. The maize data (n=3,041) were collected from various reports of the new variety of adaptability experiments by the Rural Development Administration (1978-2017). Eight weather variables were collected: mean temperature, low temperature, high temperature, maximum precipitation, accumulated precipitation, maximum wind speed, mean wind speed, and sunshine duration. These variables were calculated based on ten days within seeding to harvesting period. The box plot detected an outlier to distinguish extreme weather from normal weather. The difference in DMY between extreme and normal weather was determined using a t-test with a 5% significance level. As a result, outliers of high-extreme precipitation were observed in July and August. Low-extreme mean temperature was remarkable in middle May, middle June, and late July. Moreover, the difference in DMY between extreme and normal weather was greatest (5,597.76 kg/ha) during the maximum precipitation in early July. This indicates that the impact of heavy rainfall during the Korean monsoon season was fatal to the DMY of silage maize. However, in this study, the frequency of extreme weather was too low and should not be generalize. Thus, in the future, we plan to compare DMY with statistical simulations based on extreme distributions.
본 연구에서는 여러 가지 품종별 통보리가루를 20% 첨가 하여 보리 국수를 제조하고 제조된 국수의 품질특성과 β -glucan 함량 및 항산화활성 변화를 조사하였다. 호화특성 중 호화개시온도와 최고점도는 보릿가루 첨가에 따라 증가하였고, 치반점도는 감소하였다. 통보리가루 첨가 국수의 L 값은 밀가루 국수에 비해 낮았고 a값과 b값은 높았다. 조리 시 흡수율은 통보리가루 첨가국수에서 밀가루 국수보다 낮 게 나타났으며, swelling index는 메성보리는 높았고 찰성보 리는 밀가루 국수와 비슷하였다. 보리국수의 조리 후 경도, 검성은 밀가루 국수에 비해 약간 낮았으며, 메성보리가 찰 성보리보다 경도, 응집성, 검성이 높았고 메성 품종인 다한 이 가장 밀가루 국수와 유사한 특성을 보였다. 보릿가루 첨 가에 따라 국수의 β-glucan 함량은 증가하였으며, 조리 후 β-glucan 함량이 약간 증가하였고, 전분함량은 조리 후 감 소하였다. 보리첨가 국수의 항산화활성은 밀가루 국수보다 높았고 조리 후 감소하였다.
‘전미’는 2009년에 농촌진흥청 바이오에너지작물센터에서 전분용 고구마로 개발되었다. 이 품종은 ‘진홍미’를 모본으로 하고, 99IT55-2를 부본으로 하여 선발되었다. 2001부터 2003 년까지 계통선발시험과 2004년부터 2005년까지 2년 동안 생 산력검정시험을 수행하였고, 2006, 2008, 2009년 3년간 무안 등 전국 6개 도에서 지역적응시험을 수행하였다. ‘전미’의 엽 형은 심장형이고, 줄기 및 잎자루색은 녹색이다. 고구마 모양 은 방추형으로 표피색은 자색, 육색은 담황색이다. 선충 및 덩 굴쪼김병 저항성은 ‘중강’이며, 검은썩음병과 연부병도 ‘중강’ 이다. 전분가는 25.6%로 ‘율미’보다 높고, 전분수량은 6.8 t/ha 으로 ‘율미’ 보다 26% 높다. 총당 함량은 ‘전미’가 3.59 g/100 g, dry weight으로 ‘율미’에 비하여 20%가 높다. 당 종류별로 는 sucrose가 2.53 g/100g, dry weight으로 가장 많이 함유되 어 있다. ‘전미’의 조기재배 수량은 3개년 평균 26.1 t/ha으로 ‘율미’에 비하여 147%로 수량이 증수되었고, 만기 및 적기재 배는 26.2 t/ha으로 ‘율미’ 대비 139%로 수량이 높다. 조기재 배의 경우 주당 상품괴근수는 ‘전미’가 3.0개/주로 ‘율미’와 동일하였고, 상품괴근평균중은 151 g/개로 ‘율미’보다 12% 높다. 또한 만기 및 적기재배의 경우 주당 상품괴근수는 평균 3.0개/주로 ‘율미’ 2.3개/주개보다 많고, 상품괴근평균중은 178 g/개로 ‘율미’ 보다 높다.
Barley, ranking fifth among all crops in the world today behind maize, wheat, rice and soybean, has been an important food source in many areas in the world. Moreover having high nutritional value. Current consumers have interest in nutrition and health. So, the interest in barley for other food and industrial applications is increasing. Noodles, which have been consumed largely in korea, are usually made from wheat flour, salt and appropriate amount of water. The objective of this study is to substitute wheat flour with barleys in order to produce new products of white salted noodles and to investigate the effects of substituting flours on quality characteristics of noodles. We investigated the Hunter colour values(lightness, redness, yellowness) of barley noodles. Lightness and yellowness were decreased and redness were increased in barley cooked noodles compare to wheat noodle. As compared to the wheat noodle, barley noodle at 10, 20, 30% substitution ratios had lower hardness, which decreased continuously with substitution levels. Springiness and cohesiveness were also lower than wheat noodles.
A New six-rowed Naked Barley Cultivar “Nurichal” with good coking quality was developed by cross with HB88154-B-25-1 line and Hinchalssalbory by the Winter Cereal and Forage Crop Research Div. NICS, RDA in 2010. HB15305-B-B-31-2 was selected in 2006 and designated as ‘Iksan 95’. It showed good agronomic performance in the regional yield trials (RYT) from 2008 to 2010 and was released with the name of ‘Nurichal’ possessing good water absorption and expansion. The average heading and maturing dates of ‘Nurichal’ were April 24 and May 30 in paddy field, which were two day and one day later than those of the check cultivar ‘Saechalssalbori’ respectively. The new cultivar, ‘Nurichal’, had 82cm of culm length that was 5cm shorter than that of ‘Saechalssalbori’, and 4.0cm of spike length. It showed 774 spikes per m2, 63 grains per spike, 25.0 g of 1,000-grain weight, and 793 g of test weight. ‘Nurichal’ showed a little weaker winter hardiness than those of the check cultivar, ‘Saechalssalbori’ and showed similar lodging resistance with check cultivar. It sowed stronger resistance to barley yellow mosaic virus (BaYMV) compare to check cultivar. Grain shape was small and round. Protein content was 10.3% and β-glucan content was 6.8%. Its average yield of the pearled grain in the regional yield trial was 3.84 MT/ha in paddy field, which were higher 2% than those of the check cultivar. Its water absorption was similar and expansion was higher than ‘Saechalssalbori’. This cultivar would be suitable for the area above the daily minimum temperature of -6℃ in January in Korean peninsula.
A New Six-rowed Naked Barley Cultivar “Ganghocheong” with High anthocyanin content and green aleurone the cross between Iri26 and Sagukgwa67 by the National Institute of Crop Science, RDA in 2009. An elite line HB14190-B-61-3-2-3-3-5-1 was selected in 2004 and designated as ‘Iksan 92’. It showed good agronomic performance in the regional yield trials (RYT) from 2007 to 2009 and was released with the name of “Ganghocheong” possessing high anthocyanin content and green lemma non-waxy endosperm. The average heading and maturing dates of “Ganghocheong” were April 20 and May 29 in paddy field, which were two days earlier and same than those of the check cultivar ‘Saessalbori’ respectively. The new cultivar, “Ganghocheong”, had 81cm of culm length and 6.0cm of spike length. It showed 702 spikes per m2, 60 grains per spike, 30.0 g of 1,000-grain weight, and 794 g of test weight. “Ganghocheong” showed better resistance to BaYMV (Barley yellow mosaic virus) than those of the check cultivar, ‘Saessalbori’. Its average yield of the pearled grain in the regional yield trial was 4.02 MT/ha in paddy field, which were 1% lower than that of the check cultivar, respectively. Anthocyanin content was 122.1㎍/g that was higher 2 times than that of zasoojeongchalssalbori. This cultivar would be suitable for the area above the daily minimum temperature of -6℃ in January in Korean peninsula.
Barley is a good source of dietary fiber, β-glucan, which confer a number of human health benefits. The properties of a white wheat bread could be changed by adding regular and waxy barley flour in small amounts to a white wheat bread recipe. The objectives were to replace wheat flour with different levels of regular and waxy barley flour, and to examine their effects on bread qualities. Barley grains, Sassal(SS) as regular andSachalssal(SCS) as waxy cultivars, were ground usinga hammer mill equipped with 0.8 mm screen. A commercial bread wheat flour (WF) was used as a base flour. The blends with three levels (10, 20, 30%) of barley flour substitution were prepared, and the baking process was followed by the AACC official 10-10A. When barley flour substitution increased, beta-glucan was significantly increased: the highest beta-glucan in the waxy barley flour blends (0.1% in WF, 1.91% in 30% SCS). While WF bread had the highest loaf volume, substituting 20% SS did not statistically (p<0.05) affect the loaf volume, however a significantly lower loaf volume at 30% barley flour. On the other hand, the loaf volume of SCS breads lowered significantly by substitution statistically. The hardness and chewiness increased by replacing barley flour from 10 to 30% progressively: a remarkable increase in adhesiveness at 30% SCS bread. From the results, substitution of 10% barley flour regardless of regular and waxy did not affect bread volume and firmness, being suitable to use 20% SS barley flour without a significant change in loaf volume. From the nutritional point of view, substituting barley flour up to 20% would be an effective way to increase the dietary fiber on white wheat based breads.
Pearling, an important primary process on food barley utilization, refers to the gradual removal of grain tissues starting from the outer grain tissues/layers, bran, and germ. The removal of barley bran through pearling yields a bright white kernel that is ideal for various food applications. The removed grain layers are usually sold as feed. However, its use for producing various innovative food products such as high-fiber functional pasta. Here we investigated composition of pearled barley. Barley grains from two hull-less varieties, Saechalssal and Hinchalssal, were pearled to various degrees(10-60%). The composition (protein, β-glucan, fat, ash, total phenol and proanthocyanidin) of pearled barley fractions flour(PF) was determined. Protein, fat, ash, total phenol and proanthocyanidin content was decreased in PF according to increasing pearling degree. Hunter L value and whiteness was increased. β-glucan content also was increased from 3.35, 2.73% to 8.9, 9.3% in Sachalssal and Hinchlssal individually. PF of Sachalssal and Hinchalssal showed different content in all components. Protein content was the highest in 90~80% flour fraction. Total phenol, proanthocyanidin and crude fat content was the highest in outer grain layer, bran(100~90% fraction) than other fractions.
These experiments was carried out to get high quality of forage to cultivate mixed barley and winter pea with different seeding rates, 200 and 140 kg/ha in barley, and seeding rates in winter pea were 0, 50 and 100 kg/ha. And these were tested in Iksan from 2006 to 2007 for two years. The results were followed.
Dry weight in only barley seeding of 200 kg/ha was 0.9 ton/ha higher than only barley seeding of 140 kg/ha. Fresh and dry weight in barley seeding of 200 kg/ha and mixed winter pea were each 1.4, 0.7 ton/ha higher than barley seeding of 140 kg/ha and mixed winter pea. And crude protein in barley seeding of 200 kg/ha and mixed winter pea was from 0.3 to 0.8 %, and 140 kg/ha and mixed winter pea was from 1 to 1.6 %.
The rates of fresh and dry weight to all yield in winter pea were each from 8 to 15, from 4 to 21 % in barley seeding of 200 kg/ha and mixed winter pea, and were from 9 to 20, from 5 to 26 % in barley seeding of 140 kg/ha and mixed winter pea.