본 연구는 우리나라에서 수수-수단그라스 교잡종 (sorghum bicolor L.: SSH)에 대해 극단기상과 정상기상 간 생산량을 비교할 목적으로 수행하였다. SSH 데이터 (n=1,025)는 농촌진흥청의 신품종 적응성 실험보고서(1979 ―2019)로부터 수집하였다. 기상자료는 기상청으로부터 평균기온, 최저기온, 최고기온, 최대 강수량, 누적 강수량, 최대풍속, 평균풍속 및 일조시간을 10일 기준으로 계산하 여 수집하였다. 극단기상과 정상기상 간 구별을 위해 상 자 그림을 이용하여 탐색하였다. 극단기상과 정상기상 간 생산량 차이는 5% 유의수준 하에서 t-검정 및 ANOVA를 통해 확인하였다. 그 결과, 극단기상은 극단적으로 강한 바람을 동반한 봄 가뭄, 극단적으로 높은 강우량을 기록 하는 여름장마와 가을장마가 두드러졌다. 예측 생산량 피 해(kg/ha)는 각각 1,961―6,541, 2,161―4,526 및 508― 5,582로 나타났다. 본 연구는 우리나라의 SSH에 대한 취 약성 및 피해 산정에 도움이 되는 기초자료로서 극단기상 과 정상기상 사이의 생산량 차이를 확인하는 데 의의가 있다.
Intercropping cereals with legumes is known to improve forage production and crude protein yield. Sorghum × sudangrass hybrids (SSH) have excellent dry matter content and high cultivation temperatures. In this study, we investigated the growth characteristics, forage productivity, and feed value of intercropping SSH with different legumes in rice paddy fields. We used five treatments in this study SSH monocropping and four intercropping treatments of SSH with, lablab, cowpea, sesbania, and two cultivars of soybean (Chookdu 1 and 2). SSH plant height was not significantly different between the monocropping and intercropping treatments. However, the plant heights of lablab, cowpea, and sesbania were significantly higher than those of the two soybean cultivars. The total dry matter yield (kg/ha) was significantly higher in SSH monocropping than in intercropping; among the intercropping treatments, the one with SSH and Chookdu 2 yielded the highest total dry matter yield. The SSH feed value was significantly different between the monocropping and intercropping treatments, although there were no differences between the intercropping treatments. Among the intercropped legumes, lablab showed the highest neutral detergent fiber and acid detergent fiber contents, and cowpea had the highest crude protein content. These results reveal that intercropping SSH with legumes in paddy fields could be a promising cultivation technique to maintain stable forage productivity.
This study aimed to determine the trend in dry matter yield (DMY) of a new sorghum-sudangrass hybrid (SSH) in the central inland regions of Korea. The metadata (n=388) were collected from various reports of the experiments examining the adaptability of this new variety conducted by the Rural Development Administration (1988–2013). To determine the trend, the parameters of autoregressive (AR) and moving average (MA) were estimated from correlogram of Autocorrelation function (ACF) and partial ACF (PACF) using time series modeling. The results showed that the trend increased slightly year by year. Furthermore, ARIMA (1, 1, 0) was found to be the optimal model to describe the historical trend. This means that the trend in the DMY of the SSH was associated with changes over the past two years but not with changes from three years ago. Although climatic variables, such as temperature, precipitation, and sunshine were also considered as environmental factors for the annual trends, no clear association was observed between DMY and climates. Therefore, more precise processing and detailed definition of climate considering specific growth stages are required to validate this association. In particular, research on the impact of heavy rainfall and typhoons, which are expected to cause damage in the short term, on DMY trends is ongoing, and the model confirmed in this study is expected to play an important role in studying this aspect. Furthermore, we plan to add the environmental factors such as soil and cultivation management as well as climate to our future studies.
Sorghum×sudangrass hybrid (Sorghum bicolor (L.) Moench, SSH) is one of the most important summer forage crop and it is widely used for silage in Korea. Agriculture is highly dependent on the climate condition and experiencing significant loss of productivity due to climate change. This study was conducted to investigate the correlation analysis between productivity of forage SSH and climatic factors in Central Northern region of South Korea for 3 years (2017 to 2019). Plant height and dry matter yield of SSH were significantly higher in Gyeonggi-do than Ganwon-do. The productivity of SSH is more closely related with temperature than other climatic factors. Maximum temperature and Growing degree days in May and June showed a positive correlation. However, correlation between production of SSH and precipitation was not clear in this study, but rainy days showed a negative correlation (0.42). In conclusion, temperature is most important climatic factor to the maintenance of plant yield.
Appropriate water level is the primary factor for the optimal yield of crop plants. The required water level varies according to the variety of the crops. In the present study, we investigated the optimum requirement of groundwater level(GWL) to grow sorghum and adzuki bean under paddy field soil. Here, we cultivated sorghum and adzuki bean using lysimeter filled with paddy soil under GWL 0 cm(NT) and GWL(20, 40 cm) where GWL 20 cm is maintained as a waterlogging condition. The plant growth promoting attributes were measured on the first day after treatment(0 DAT), 10 DAT and 20 DAT. The results showed that the growth parameter such as shoot length, leaf length, leaf width, and stem thickness of both sorghum and adzuki bean were constantly increased and were found higher at GWL 40 cm(except stem thickness and leaf width in sorghum at 20 DAT). The physiological parameters such as chlorophyll content and stomatal conductance were also found higher at GWL 40 cm in all DAT. In addition, the elements like P and K contents in adzuki bean, and Ca content in sorghum were constantly increased and was found higher in GWL 40 cm at all DAT. These results suggest that the GWL of 40 cm is appropriate for production of sorghum and adzuki bean especially in case of paddy soil.
This study was performed to persue the optimal cropping system for the cultivation of upland crops on rice-paddy field. It was conducted at Anseong-si Gyeonggi province of Korea from 2013 to 2015. In order to investigate growth and yield characteristics of sorghum under different paddyupland rotation systems, varieties of Nampungchal, Moktaksusu, Aneunbangisusu and Hwanggeumchal were examined. Four paddy-upland rotation systems of upland (1 year)-rice paddy (1 year)-upland (1 year), rice paddy (1 year)-rice paddy (1 year)-upland (1 year), rice paddy (1 year)-upland (1 year)- upland (1 year) and upland (1 year)-upland (1 year)-upland (1 year) systems were tested. The pH of upland (1 year)-upland (1 year)-upland (1 year) system exhibited the highest (pH 6.68), showing a tendency that the longer the upland years, the higher the soil pH. Among four paddy-upland rotation systems, the higher exchangeable Ca was obtained from upland (1 year)-upland (1 year)-upland (1 year) system (5.03 cmol+/kg), showing a tendency that the longer the upland years, the higher the exchangeable Ca. Upland (1 year)-upland (1 year)-upland (1 year) system exhibited the shortest days from seeding to heading (68 days) among four paddy-upland rotation systems and Hwanggeumchal showed the shortest days from seeding to heading (62 days) among four varieties. In the average of culm length and ear length, there was no significance between four paddy-upland rotation systems, but Moktaksusu (151.7 cm in culm length) and Aneunbangisusu (27.4 cm in ear length) exhibited the highest culm length and ear length respectively. The highest grains per ear was obtained from upland (1 year)-upland (1 year)- upland (1 year) system (1,068 grains) among four paddy-upland rotation systems and Nampungchal (1,107 grains) among four varieties. In average yield per 10a among four rotation systems, rice paddy (1 year)-upland (1 year)-upland (1 year) system produced the highest yield (221.2 kg/10a).
In the past years, few grain sorghum varieties with limited yield potential have been developed and grown in Korea. Hybrids tend to be more productive and resistive to unfavorable environmental conditions than pure line varieties. However, no hybrid cultivars are available and never have been planted for grain sorghum in Korea. The main aims of this study were to (i) verify if US x Korean and US x US hybrids increase grain yield in Korea; (ii) assess the performance of waxy hybrids in Korea and the US; (iii) estimate general combining ability and specific combining ability for the lines studied; and (iv) identify superior lines and hybrids for future use in breeding. Two distinct sets of waxy-endosperm sorghum hybrids derived from Korean landraces and US lines (Texas A&M University) were tested in the US and Korea. Compared to the parental lines, hybrids derived from US lines and Korean landraces showed yield increase that ranged from 2% to 127%. Hybrids created from US lines showed higher heterosis than US x Korean hybrids. Hybrid vigor was observed in the US and Korea, but shifts in ranks of hybrid performance occurred. The results indicate that it is feasible to develop grain sorghum hybrids adapted to Korean conditions only if delibrate selections take place in Korea. A combination of Korean and US sources could provide an acceptable germplasm base for developing Korean landrace based sorghum hybrids.
Nitrogen (N) fertilizer management is one of the important aspects of economic production of sorghums in sustainable agriculture. The aim of the study was to evaluate the effects of different N application rates and its split N application methods on productivity, growth characteristics, N accumulation, N use efficiency (NUE), and feed value of Sorghum × Sudangrass hybrids. Treatments consisted of five N application rates (0, 150, 200, 250, and 300 kg ha-1) and two split N application methods (40% in basal N, 30% at the growing stage, and 30% after the first harvest vs. 50% in basal N and 50% after the first harvest). Plant height, leaf width, and stem diameter were increased (p≤0.05) with increasing N fertility rates at each harvest. Chlorophyll content (expressed as SPAD values) was the highest at a rate of 300 kg N ha 1 (first harvest, 46.32; second harvest, 33.09). It was the lowest at zero N (first harvest, 21.56; second harvest, 18.5). Total N, N uptake, and NUE were increased with higher N rates. Split N application had little effect on total N, amount of N uptake, or NUE. Total dry matter yields were the highest (21,715 kg ha-1) at a rate of 300 kg N ha-1. It was the lowest (10,054 kg ha-1) at zero N. Our results suggest that more than 300 kg N ha-1 can improve dry matter yield to be above 116% compared to zero N, thus enhancing the agronomic characters of sorghums. However, no significant effect had been found for split N application. Further work is needed to determine the optimal N levels and the effect of split N application rates.
1. 국내에서 수집한 수수의 성숙기 간장이 250 cm 이상되는자원은 5 종으로 전체 62 수집종의 8.1 %를 차지하였다.
2. 수형 특성 조사에서는 3개 분얼수를 가지는 자원은 전체수집종의 56.6%를 나타낸 것으로 보아, 평균 분얼수는 3개 인것으로 나타났다.
3. 잎의 특성조사에서 엽장이 90 cm 이상되는 자원은 14.5%로 분류되었다.
4. 분얼형에 있어서는 반밀수타원형이 전체 수수 수집종의32.3%를 차지하였다.
5. 전체 수집종 수장의 평균값은 29.2 cm로 나타났다.
본 연구에서는 수수의 생산량 증대와 자급률 향상을 위한 체계적인 재배기술을 확립하기 위한 기초자료를 얻고자 재식밀도 및 멀칭유무에 따른 생육 및 수량에 미치는 영향을 알아보았다.
멀칭유무에 따른 간장, 간경 및 지상부 생체중 모두 비닐멀칭구에서 길거나, 굵게 또는 무겁게 나타났으며 수량성에서도 116% 및 132%로 1, 2년차 모두 비닐멀칭구에서 높게 나타났다. 간장에서는 재식밀도가 높은 10 cm처리구에서 재식밀도가 낮은 30 cm처리구보다 각각 21.5, 23.3 cm 길게 나타났으며 간경에서는 간장과 반대로 재식밀도가 낮을수록 굵어져 30 cm 처리구에서 가장 굵은 21.7, 17.6 mm로 나타났다. 지상부생체중은 20 cm처리구에서 높은 값이 나타났다. 수량구성요소를 보면 재식밀도에서 이삭장, 종실중 및 천립중 모두 재식밀도 낮을수록 길거나 무겁게 나타났으나 수량에서는 연차간 모두
20 cm처리구에서 451 kg 10 a−1, 358 kg 10 a−1 으로 가장 높게 나타났다.
본 연구는 실험실에서 인위노화처리로 종자활력을 조절한 후 실시한 몇 가지 종자세 검정치와 포장출현력과의 관계를 설정하여 수수의 포장출현력 예측에 가장 적합한 종자세 검사방법을 구명하고자 수행하였다.
수수 종자의 종자세가 높은 상태에서는 표준발아검사에서의 유아장이 포장출현력 예측에 효과적이며, 노화된 종자에서는 저온발아검사(CGT)에서의 정상묘율이 포장출현율과 높은 상 관관계를 가지고 있었다(r = −0.998, p < 0.01).
포장출현력 예측에 효과적인 몇가지 종자세지수를 이용하여 stepwise multiple regression 분석을 실시한 결과 표준발아검사에서의 종자세 지수(vigor, SGT)가 95%의 높은 포장출현력 예측효과를 나타내었으며, 표준발아검사에서의 정상묘율(% normal seedling), 테트라졸리움의 종자세(vigor, TZ), 저온검사(cold test)에서의 정상묘율과 저온발아검사(CGT)에서의 정상묘율과 같은 변수를 회귀방정식에 추가함에 따라 포장출현율 예측효율을 증가시킬 수 있었다.
표준발아검사와 저온발아검사는 노화정도가 다른 수수 종자의 종자세 검사방법으로 적합하다고 사료된다.
Two sorghum(Sorghum bicolor L. Moench cv. Hwanggeumchal-susu and Miryang 3) samples were milled using different milling methods, and their physicochemical properties were tested. Particle size was classified into five groups such as pin mill and low temperature-microparticulation(LTM; 10, 000, 20, 000, 30, 000, and 40, 000 rpm). The water absorption index (WAI), water solubility index(WSI), and a rapid Visco analyzer(RVA) were used to examine particle size distribution and color differences. Particle size of sorghum flour prepared using LTM was lower than that prepared using a pin mill. Particle size was further reduced by successive dry milling of the LTM flour. Lightness of colored pigments increased when particle size decreased. The WAI of Miryang 3 pin milling(M1) flour was the lowest after LTM, and WSI was higher in the order of M2, M3, M4, and M5. LTM sorghum flour had significantly higher pasting viscosity, as determined using a rapid Visco analyzer. LTM Miryang 3 sorghum flour(M2~M5) flour showed lower breakdown viscosity and higher final viscosity compared to those of M1 flour, resulting in an increased setback value.
The purpose of this study was to evaluate the appearance, sensory and physicochemical characteristics of muffin added glutinous(GSP) and non-glutinous sorghum powder(NGSP). As increasing the amounts of sorghum powder, proximate (moisture, ash and protein) and minerals composition(K, Ca, Mg and Na) of muffin were significant difference. The weight, volume, height, lightness(L-value) and yellowness(b-value) were decreased as increasing the amounts of sorghum powder. In the results of sensory evaluation, appearance, color, flavor, taste, texture and overall quality of untreated muffin were 1.4, 1.6, 1.4, 1.0, 1.1 and 0.9, and muffin added 10% GSP and NGSP were scored relatively high. Antioxidant compounds contents of muffin added sorghum powder were increased as increasing the amounts of sorghum powder. DPPH and ABTS free radical scavenging activities on methanolic extracts of untreated muffin were 0.74 and 1.31 ㎎ TE/g ER, respectively. DPPH and ABTS free radical scavenging activities of 100% GSP muffin were 9.40 and 19.14 ㎎ TE/g ER, and 100% NGSP muffin were 10.59 and 18.78 ㎎ TE/g ER, respectively. The results of this study show that notable antioxidant compounds and antioxidant activity on muffin added sorghum powder are considered to have significant health benefits.
본 연구는 탄소 : 질소(탄질)비가 다른 유기자재를 시용하였을 때 시기별 양분의 동태와 유기재배 수수*수단그라스의 비료이용율에 미치는 영향을 조사하였다. 처리구는 질소함량 210kg/ha 수준으로 축분퇴비, 알팔파, 유박, 화학비료를 포함하였다. 유박과 알팔파는 가장 낮은 탄질비를 나타내었고 축분퇴비는 33.7 : 1의 가장 높은 탄질비를 보였다. 축분퇴비는 시용량이 가장 많았고 이에 따라 토양내 양분농도를 증가시켰다. 탄질비가 낮은 유박과 알팔파는 축분퇴비에 비해서 질소의 무기화율을 촉진시켰다. 질소이용효율은 화학비료구에 비해서 알팔파와 유박이 약 60% 전후를 나타내었고, 축분퇴비는 20% 이하의 효율이 관찰되었다. 인산의 이용효율은 알팔파가 가장 높았고 축분퇴비가 가장 낮았다. 이에 따라 탄질비를 고려한 유기자재를 선택해서 밭토양에 시비를 해야 할 것으로 판단되었다.
We measured cobalt content in sorghum (Sorghum bicolor (L.) Moench.) by atomic absorption spectrophotometry: their absorbance and back ground values. These analyses were with AA-680 of Shimadzu. The mode was BGC; wave length, 240.8 ㎚, 240.7 ㎚, 240.6 ㎚, respectively. The recommended wave length is 240.7 ㎚ for Co analysis. It was done through several ratios among 4 factors; mean of absorbance(AM), standard deviation of absorbance (AS), mean of background(BM), standard deviation of background.(BS). The result was t㏊t 240.6 ㎚ was the favourable. And t㏊t of 240.8 ㎚ was better t㏊n t㏊t of 240.7 ㎚ for the Co analysis.