This study compared the climatic conditions and fruit quality of the ‘Shiranuhi’ mandarin. This variety is expanding to inland areas due to climate change and global warming. The main producing area of ‘Shiranuhi’ mandarin is Jeju Island. In the inland areas where ‘Shiranuhi’ mandarin is grown, the average temperature is 12.9-13.9℃, which is 3-4℃ lower than the temperature in Seogwipo (16.9℃) on Jeju Island. In these inland areas, there are frequent critical minimum temperatures (below –3℃) in January or February, making the open field temperatures unsuitable for growing ‘Shiranuhi’ mandarins. However, farmers in these areas have managed to mitigate this risk by maintaining an average temperature of 18.3℃ inside plastic houses, which are actively heated from December to March. The earliest full bloom of ‘Shiranuhi’ was recorded in Jindo, Jeollanam-do on April 10. The earliest harvest date was observed in Seogwipo, Jeju on January 9, which indicates the shortest maturity period of 272 days. The cumulative temperature inside the greenhouse was highest in Wanju, Jeollabuk-do at 5,755℃. Buan, Jeollabuk-do (5,517℃) and Seogwipo, Jeju (5,518℃) had nearly identical temperatures. Significant differences in fruit quality were observed between the inland areas and Jeju Island. These differences were observed in fruit length, summit length, firmness, and the CIE b* value of the peel. The climate differences seem to have a greater influence on the factors that determine the fruit shape among the fruit quality characteristics. The yield per tree was higher in Seogwipo, Jeju (38.3kg) compared to the inland areas (30 to 34kg). Inland areas predominantly featured medium to small fruits (251-300g), while Jeju Island had a higher proportion of larger fruits (over 350g).

본 연구는 국내 육성 품종 ‘선플’과 ‘감황’ 과실 생산에 적합 한 수분수를 선발하기 위해 ‘SKK2’, ‘델리웅’, ‘보화’, ‘Chieftain’ 각각의 꽃가루로 인공수분하여 과실 품질과 종자의 발육을 조 사하였다. 착과율은 두 품종이 모든 처리구에서 96% 이상이 었다. ‘선플’은 ‘델리웅’ 처리에서 과중이 가장 높았고 2021년 은 ‘보화’ 처리에서 2022년은 ‘Chieftain’ 처리에서 가장 낮았 다. ‘감황’은 2021년에 ‘델리웅’ 처리에서 2022년은 ‘Chieftain’ 처리에서 과중이 가장 높아 연차 간 차이를 보였다. ‘선플’의 과실 품질 조사 결과, 2022년에 건물률은 ‘SKK2’처리에서 가장 높고 가용성 고형물 함량은 ‘Chieftain’에서 가장 높았으 며 2021년에는 처리 간 유의차가 없었다. ‘선플’의 총 종자 수 와 미숙 종자 수는 6배체 수분수 처리구에서 가장 많았고 천립 중은 4배체 수분수 처리구에서 무거웠다. ‘감황’의 과실 품질 조사 결과, 건물률과 산 함량은 2년 모두 ‘SKK2’ 처리에서 가 장 높았고 가용성 고형물 함량은 연차 간 차이를 나타냈다. ‘감 황’의 총 종자 수와 성숙 종자 수는 ‘델리웅’과 ‘Chieftain’ 처 리에서 가장 많았고 미숙 종자 수는 ‘SKK2’ 처리에서 가장 적 었다.

본 연구는 과피색에 따른 토마토 과실의 숙성 단계에 따른 기능성 물질 및 항산화 활성의 차이를 알아보기 위해 실시하 였다. 토마토 샘플은 성숙한 단계에서 과피색이 황색, 흑색, 적 색으로 구별되는 세 가지 토마토 품종을 이용하였다. 토마토 샘플을 녹색기, 변색기, 최색기, 완숙기의 4가지 숙성 단계에 서 수확한 후 당, 라이코펜, 아스코르브산, 폴리페놀 및 항산화 활성을 포함한 다양한 생리 활성 화합물을 분석하였다. 토마 토 과실의 주요 당분은 과당과 포도당이다. 황색 토마토의 과 당과 포도당 함량은 숙성 단계에 따라 점차 증가하였다. 그러 나 흑색 토마토와 적색 토마토는 변색기 단계에서 증가한 후 상대적으로 일정하게 유지되었다. 과피색에 관계없이 모든 토마토 과실에 함유된 라이코펜 함량은 숙성 단계에 따라 크 게 증가했습니다. 라이코펜 함량은 적색 토마토 과실의 성숙 단계에서 가장 높게 관찰되었다. 황색 토마토 과실의 아스코 르브산 함량은 낮았으며 숙성 단계 동안 상대적으로 일정하게 유지되었다. 흑색 토마토 과실의 아스코르브산 함량은 성숙 단계에서 2,249mg·kg-1으로 크게 증가한 반면, 적색 토마토 과실에서는 성숙 단계에서 3,529mg·kg-1으로 점차 증가했습 니다. 페놀성 화합물인 퀘르시트린은 토마토 과실에서 발견 되었지만, 성숙 단계에서 토마토 과실의 퀘르시트린 함량은 점차적으로 감소되었다. ABTS 라디칼 소거 활성은 최색기의 황색 토마토 과실에서 급격히 증가한 반면, 흑색 토마토와 적 색 토마토에서는 숙성 단계에 따라 점진적으로 증가하였다. 모든 토마토 과실의 DPPH 라디칼 소거 활성은 최색기에서 크 게 증가했다.

This research investigated the effects of the plant growth regulators (PGRs) on fruit characteristics and storability of ‘Shine Muscat’ grapes. The objective was to identify effective PGR treatment methods for high-quality production and efficient storage. The characteristics of ‘Shine Muscat’ fruits were more affected by the secondary treatment applied 14 days after full bloom than by the primary treatment applied at full bloom. The fruits treated with thidiazuron (TDZ) in the secondary treatment showed higher weight. However, the forchlorfenuron (CPPU) treated fruits exhibited lower acidity and higher soluble solids content, which led to a higher sugar-to-acid ratio. Additionally, it had higher firmness, contributing to a good texture and a brighter yellow-green skin color, thus indicating better quality. The storage period for ‘Shine Muscat’ varies depending on the storage method: up to 60 days in cold storage and up to 110 days in Controlled Atmosphere (CA) storage. Like other kinds of fruits, CA storage was more effective for long-term storage. Furthermore, considering that the quality characteristics manifested during the prestorage PGR treatment were maintained during CA storage, secondary treatment with CPPU was deemed effective for optimal quality and storage.

In this study, the expression of genes related to fruit ripening was investigated using realtime PCR. The study aimed to determine the effective conditions of calcium compounds (Calcium citrate, calcium chloride, calcium nitrate, GH-Ca, OS-Ca) and chitosan treatment to extend the shelf-life in the ‘Kumhong’ nectarine and ‘Madoka’ peach fruits. In this study, in the ‘Kumhong’ and ‘Madoka’ fruits, the expression of genes related to cell wall degradation, pectin lyase (PL), polygalacturonase (PG), and pectin methylesterase (PME), was inhibited by calcium, chitosan, or a mixture (Chitosan+CaCl2) treatment. In ‘Madoka’ peach, although the expression of the PG gene was suppressed at pre-harvest Ca and chitosan treatment, the expression of the PL gene was induced at pre- and post-harvest Ca and chitosan treatment compared to the control. The spray of calcium, chitosan itself, or a mixture (Chitosan+ CaCl2) on the trees at the ripening stage and harvested fruits can extend the shelf-life by suppressing the expression of cell wall degrading enzymes genes (PL, PG, PME) in ‘Kumhong’ nectarine and ‘Madoka’ peach tree. These results provide valuable information for the development of technology for the extension of the shelf-life of peach and nectarine fruits.

본 연구는 코이어 배지를 이용한 오이 수경재배에서 배지 포 수액의 종류와 정식 방법에 따른 생육 및 생산성을 검증하여 가장 효율성이 높은 재배 방법의 선발을 위하여 수행되었다. 포수액은 배양액(S)과 원수(W), 육묘는 암면큐브 육묘(RC), 암면 플러그묘(RP), 슬라브 직파(DS)로 하였다. 재배 기간을 동일하게 하기 위하여 기준일은 파종일로 하였다. 초기 생육 량은 S 처리에 서 유의하게 높았으나, 생육기간이 길어질수록 처리 간 차이가 감소하였다. 정식 방법과 생육량 간에는 관계 성이 나타나지 않았으나, 포수 방법에 따라 동일한 정식방법 간에도 다른 결과가 나타났다. 생산성도 동일한 경향으로 초 기 수확기인 파종 후 6－8주까지는 S 처리에서 수확과의 수가 유의하게 많았으며, 이후 동일한 기간 수량의 격차가 해소되 었다. 누적 수량은 초기 수확량의 차이로 인하여 S 처리에서 유의하게 높았다. 식물체의 생육과 과실 생산성은 유사한 경 향으로 선형적인 관계성을 나타내었다. 정식 방법 간에는 상 관성을 나타내지 않았으나, S의 DS 처리가 초기 근권부 안정 적인 양·수분 공급으로 초기 생육 및 수량이 가장 많은 경향이 었다. 따라서 S 처리한 배지에 DS 방식이 식물체의 생육 및 생 산성에 가장 유리할 뿐만 아니라 재배단계 간소화를 통한 노 동력 및 생산 원가 절감으로 경제성 측면에서도 기여할 수 있 을 것으로 생각된다.

This study investigated the effects of pectinase treatment and skin contact time on the quality characteristics of Dae-hong peach wine. Wine was produced with variations in enzyme treatment and skin contact time (1 hour, 2 hours, 1 day, 2 days, and until the completion of fermentation). Enzyme treatment increased the production yield by 6%, as well as ethanol and redness levels, compared to the non-treated control. Volatile components were higher when the skin contact time was 2 hours or 1 day. Results were compared according to enzyme treatment and skin contact time and found to be influenced by methanol and 3-methyl-1-butanol. Enzyme treatment effectively enhanced yields and volatile compound contents. However, skin contact should be concluded a day before 1 day to ensure compliance with methanol legislative requirements. Therefore, our findings show that enzymatic treatment with shorter skin contact time preserves the distinctive characteristics of Dae-hong peaches and ensures the production of safe and flavorful wine.

This study was conducted to determine the optimal irrigation starting point by analyzing tree growth, physiological responses, fruit quality, and productivity in peach orchards. Seven-year-old ‘Kawanakajima Hakuto’ peach trees were used in an experimental field (35°49′30.4″N, 127°01′33.2″E) located within the National Institute of Horticultural and Herbal Science located in Wanju-gun, Jeollabuk-do. The irrigation starting point was set with four levels of –20, –40, –60, and –80 kPa from June to September 2022. While there were no significant differences in increase of trunk cross-section area and leaf area among treatments, shoot length and diameter decreased in the –80 kPa and –20 kPa treatments. The photosynthetic rate measured in August was highest for –60 kPa (17.7 μmol·m-2·s-1), followed by –40 kPa (15.6 μmol·m-2·s-1), –20 kPa (14.5 μmol·m-2·s-1) and –80 kPa (14.0 μmol·m-2·s-1). SPAD value measured in May and August was lower in the –80 kPa and –20 kPa treatments than in the –60 kPa and –40 kPa treatments. The harvest date reached three days earlier in the –20 kPa treatment compared to other treatments. The fruit weight was highest in the –60 kPa (379.1 g), followed by –40 kPa (344.0 g), –80 kPa (321.0 g) and –20 kPa (274.9 g). Firmness was the lowest in the –20 kPa treatment. The soluble solid content was highest in the –60 kPa treatment (13.3°Bx).The ratio of marketable fruits was highest in the –60 kPa treatment (50.7%) and lowest in the –80 kPa treatment (23.4%). In conclusion, we suggest that setting the irrigation starting point at –60 kPa could improve the fruit quality and yield in peach orchards.

Melon fruits exhibit a wide range of morphological variations in fruit shape, sugar content, net quality, diameter and weight, which are largely dependent on the variety. These characteristics significantly affect marketability. For netted varieties, the uniformity and pattern of the net serve as key factors in determining the external quality of the melon and act as indicators of its internal quality. In this study, we evaluated the effect of fruit morphology and growth on netting by analyzing the changes in melon fruit quality under LED light treatment and monitoring fruit growth. Computer vision analysis was used for quantitative evaluation of fruit net quality, and a three-variable logistic model was applied to simulate fruit growth. The results showed that melons grown under LED conditions exhibited more uniform fruit shape and improvements in both net quality and sugar content compared to the control group. The results of the logistic model showed minimal error values and consistent curve slopes across treatments, confirming its ability to accurately predict fruit growth patterns under varying light conditions. This study provides an understanding of the effects of fruit shape and growth on net quality.

This study was conducted to investigate optimal conditions for cutting propagation of the strawberry cultivar “Sulhyang” through the collection methods of cuttings (runners tips), leaf number of cuttings, and cutting time. Cuttings were collected from the mother plant in the nursery bed (MP) and plants after fruit harvest (HP); the leaf number of cuttings was 0, 1, and 2, and the cutting time was at one-week intervals from June 4 to July 9. The survival rates for MP and HP cuttings were notably high, reaching 99.5% and 98.7%, respectively, but no significant difference was found. The number of roots were higher in MP cuttings, and there was no significant difference in crown and leaf growth. The fruit yields were 419.2 and 428.4 g, for MP and HP cuttings, respectively. The survival rates according to leaf number of cuttings were 98.1% and 98.3% for 1 and 2 remaining leaves, respectively, and remarkably lower at 25.3% for no remaining leaves. The root numbers were 26.0 and 26.3 for 1 and 2 remaining leaves, respectively, compared with 23.5 for no remaining leaves, with no significant differences in crown and leaf growth. The fruit yields were 424.4 and 421.5 g for 1 and 2 remaining leaves, respectively, and 396.7 g for no remaining leaves. The survival rates according to cutting time was over 97.2% in all cutting time without any difference in each treatment. The root, shoot, and crown of the nursery plant before planting showed the best growth in the cuttings on June 4 and 11, resulting in the highest fruit yields of 433.3 and 426.4 g, respectively, with the lowest yields at 384.5 g for cutting time on July 9. Both MP and HP materials proved suitable for strawberry cuttings. The optimal leaf number for cuttings was at least 1, and the optimal cutting time in Gyeongnam area was evaluated as around June 4-11.

This study examines the characteristics of berries from secondary bearing shoots of ‘Scintilla’ southern highbush blueberry, grown hydroponically in the Jinju, Gimhae, and Uiryeong regions of Gyeongnam Province. Typically, ‘Scintilla’ forms flower buds at the tips of regular bearing shoots during the previous season, yielding berries in the current season. However, under heated cultivation, we observed a proliferation of secondary bearing shoots that produce berries in the same growing season. Flowering and harvesting on secondary bearing shoots were delayed by 52 and 36 days, respectively, compared to regular bearing shoots. However, these shoots exhibited a 54% increase in diameter and a 10% increase in length. We found no significant difference in berry size and soluble solid content between the two types of shoots. Notably, berries from the secondary bearing shoots had higher potassium and lower calcium and magnesium concentrations. We conclude that berries from secondary bearing shoots could be marketable, provided the bushes are healthy. These findings provide valuable insights for optimizing cultural practices to improve the yield and quality of blueberries under specific environmental conditions.

To harvest marketable cucumbers, high quality seedlings must be used. Producing seedlings in the greenhouse during the low radiation period decreases marketability due to insufficient light for growth. Supplemental lighting with artificial light of different quality can be used to improve low light conditions and produce high quality seedlings. Therefore, this study was conducted to select the appropriate supplemental light sources on the growth and seedling quality of grafted cucumber seedlings during the low radiation period. Three cultivars of cucumber were used as scions for grafting; ‘NakWonSeongcheongjang’, ‘Sinsedae’, and ‘Goodmorning baekdadagi’. Figleaf gourd (Cucurbita ficifolia) ‘Heukjong’ was used as the rootstock. The seeds were sown on January 26, 2023, and grafted on February 9, 2023. After graft-taking, cucumbers in plug trays were treated with RB light-emitting diodes (LED, red and blue LED, red:blue = 8:2), W LED (white LED, R:G:B = 5:3:2), and HPS (high-pressure sodium lamp), respectively. Non-treatment was used as the control. Supplemental lighting was applied 2 hours before sunrise and 2 hours after sunset for 19 days. The stem diameter and fresh and dry weights of roots did not differ significantly by supplemental light sources. The plant height and hypocotyl length were decreased in W LED. However, the leaf length, leaf width, leaf area, and fresh and dry weights of shoots were the highest in the RB LED. Seedling qualities such as crop growth rate, net assimilation rate, and compactness were also increased in RB LED and W LED. After transplanting, most of the growth was not significant, but early yield of cucumber was higher in LED than non-treatment. In conclusion, using RB LED, W LED for supplemental light source during low radiation period in grafted cucumber seedlings improved growth, seedling quality, and early yield of cucumber.

This study aimed to investigate the changes in bioactive compounds across the ripening stages of three pepper cultivars, each characterized by unique skin colors. The samples used in this study consisted of three pepper cultivars distinguished by their skin colors as green, purple, and yellow green at breaker ripening stage. Samples were harvested at each of the four ripening stages, including premature, breaker, turning, and mature, and subjected to analysis for various bioactive compounds, including capsaicin, ascorbic acid, kaempferol, quercetin, and sugars. In all cultivars with varying skin colors, the capsaicin content within green pepper fruits consistently increased as the ripening stages advanced. Ascorbic acid was most abundant during the premature stage of development in purple and green cultivars, subsequently declining as maturation progressed. In the case of the purple cultivar, kaempferol content decreased by approximately 30% at the mature stage, while the green cultivar exhibited a gradual increase in kaempferol content with maturation. Conversely, the kaempferol content of the yellow green cultivar rapidly declined as maturation progressed. Regarding quercetin content, the purple and green cultivars tended to decrease with maturity, while the yellow green cultivar displayed an increasing trend. Furthermore, the accumulation patterns of glucose, fructose, and sucrose, the predominant free sugars in green pepper fruit, demonstrated an inclination to increase as the maturation stage advanced in both purple and green cultivars. In contrast, the yellow green cultivar initially showed an elevation in free sugar content during the immature stage, followed by a minor reduction during maturation and a subsequent rise during the mature stage. Each pepper cultivar, distinguished by its unique skin color, exhibits varying levels of bioactive substances at different ripening stages. Therefore, optimal harvesting and utilization should align with periods when the desired substance content is at its peak.

Yellow-fleshed "Sweet Gold" kiwifruit on Jeju Island were studied to examine how irrigation and soil moisture control affected changes in photosynthetic traits and fruit quality during fruit maturation (120 to 170 days after full bloom). Concerning photosynthetic characteristics, the photosynthetic rate decreased by 10-19%, stomatal conductance by 24-47%, and transpiration rate by 8-25%, when compared to conventional irrigation, as irrigation was reduced and soil moisture content decreased. Fruit weight showed a tendency to increase until harvest, and while a lower soil moisture content led to a less pronounced increase in fruit weight, this difference was not statistically significant. The dry matter rate exhibited a similar trend to the change in fruit weight. Sugar content demonstrated a continuous increase after 130 days, with lower irrigation amounts resulting in higher levels of sugar content due to decreased soil moisture. The Hue value (h°) exhibited a continuous decrease after 140 days from full bloom, correlating with declining soil moisture content. After 130 days from full bloom, soluble sugar content increased rapidly while starch content gradually decreased after 150 days from full bloom. However, with conventional irrigation, the increase in soluble sugar content tended to be less noticeable. This study confirmed that in yellow-fleshed ‘Sweet Gold’ kiwifruit, managing irrigation and soil moisture reduction during the ripening period can lead to decreased fruit weight but increased dry matter, sugar content, and expression of flesh color, ultimately enhancing fruit quality and expediting ripening.

호박꽃과실파리(Z. scutellata)는 박과작물에 피해를 주는 중요한 해충이다. 현재 큐루어(Cuelure)는 국내에서 검역 대상 해충으로 규정된 오이과실파리, 타우과실파리, 및 퀸슬랜드과실파리와 더불어 호박꽃과실파리 수컷 성충의 예찰에 다양한 제형으로 활용되고 있다. 본 연구는 액 체, 고체, 및 왁스제형의 큐루어에 대한 호박꽃과실파리 수컷 성충의 야외 유인효과를 검증하기 위한 것으로 2021년 4월부터 10월까지 제주 2개 지역과 경북 1개 조사에서 2주 간격으로 모니터링하였다. 호박꽃과실파리의 발생밀도가 높은 제주지역에서는 7월부터 8월에 액체와 왁스제형의 큐루어에 호박꽃과실파리가 더 많이 유인되어 통계적인 유의차가 있었으나, 호박꽃과실파리의 발생밀도가 낮은 경북지역에서는 제형별 유인력 에 차이가 없었다. 야외조사 결과를 바탕으로 액체와 왁스제형의 큐루어가 호박꽃과실파리 수컷 성충 예찰에 권장되며, 이 두 제형의 큐루어에 유 인되는 검역 대상 과실파리류의 국내 예찰에 효과적일 수 있다.

노랑비취알락하늘소(가칭)의 제주 유입과 정착을 보고하는 논문에서 오리엔탈과실파리에 대하여 “제주지역에 유입되어 현재 발견되고 있 다”라고 잘못된 인용을 하고 있는 것이 발견되었다. 다행히도 해당 문장이 빨리 발견되어 “제주지역에 유입될 가능성이 있는”으로 수정되었다. 이 를 계기로 검역적으로 민감한 해충의 국내분포여부에 대하여 기술하는 경우 매우 신중하게 검증해야할 필요가 있음을 연구자들에게 강조하고자 한 다. 클라이멕스 모델의 저온 스트레스 지수로 추정한 결과 오리엔탈과실파리는 2022~2023년 겨울 제주에서 생존이 불가능한 것으로 예측되었다. 그러나 노랑비취알락하늘소는 2023년 겨울 영하의 기온을 겪고 월동후 여름철 발생이 확인되었으며 정착에 성공한 것으로 판단된다.

This study aims to select eggplant cultivars adaptive to the hot temperature period greenhouse climate by water consumption, and growth performance of plants and fruits of different European eggplant cultivars, including ‘Bartok (BA)’, ‘Bowie (BO)’, ‘Black Pearl (BP)’, ‘Ishbilia (I)’, ‘Mabel (M)’, ‘Vestale (VE)’ and ‘Velia (VL)’, in substrate hydroponic cultivation under hot and humid greenhouse conditions. On the 118 DAT, the leaf number and stem dry weight were highest in ‘VL’, followed by ‘M’, and there was no significant difference in leaf dry weight among cultivars. The marketable fruit number per plant was 16.4 for ‘M’, which was higher than other cultivars, and ‘VE’ and ‘VL’ were 8.5 and 8.8, respectively. The weight per fruit was low for ‘M’ at 136 g, and the highest in ‘VE’ and ‘VL’ at 332 and 281 g, respectively. There was no significant difference in fruit production per plant. In this study, ‘M’, which has high water use efficiency and a large number of fruits, and ‘VL’, which required less quantity to water consumption for producing 200 g of fruit and had a high product weight, will have excellent adaptability in the UAE greenhouse condition.

This study was conducted to apply with an air duct for the cooling and a utilizing cultivating method that uses the fruiting node and the defoliation to the high-temperature vertical and hydroponic cultivation of the oriental melon. The lower fruiting node (LF) was to remove all third vines generated from 5 nodes of a secondary vine. The higher fruiting node (HF) was fruiting on the third vine generated from a first node of the third vine. The direction of the stem string; upward (UW), downward (DW). Four treatment conditions were applied with the LF-UW, LF-DW, HF-UW (control), and HF-DW. The leaf age of melon leaves was measured for photosynthesis at 3 days intervals, and the fruit characteristic was conducted on 79 fruits in each treatment. The photosynthesis rate steadily increased after leaf development, reaching 20.8 μmol CO2·m-2·s-1 on the 10 days, gradually increasing to 21.3 μmol CO2·m-2·s-1 on the 19 days, and reaching 23.4 μmol CO2·m-2·s-1 on the 32 days. After that, it lowered to 16.8 μmol CO2·m-2·s-1 on the 38 days and dropped significantly to 7.6 μmol CO2·m-2·s-1 on the 47 days. As a result of the fruit characteristics by fruiting nodes, the treatments of the fruit length was 12.6-13.4 cm, respectively, which was significant, and the fruit width was 7.9- 8.6 cm, respectively, was not significant. The soluble content ranged from 12.9 to 15.7°Brix, and the significance of all treatments, and higher than of LF-DW and HF-UW. The photosynthesis rate of melon leaves was good until 32 days after leaf development, but after that, the rate decreased. As for fruit quality, it was conformed that melons can be cultivated at the LF because the fruit enlargement and soluble content dose not decrease even when set at the LF. Results indicated that those can be used for LF and defoliation in the development of vertical and hydroponic cultivation method in high-temperature season.

생물환경조절학회지 30권 3호에 게재된 논문의 그래프를 수정합니다.

A new strawberry cultivar ‘Misohyang’ was originated from the cross between ‘Darselect’ and ‘Wongyo 3111’ in 2009. Among hybrids, ‘Misohyang’, a superior individual possessing vigorous growth, capacity to early differentiate flower buds, and excellent physiological characteristics, was selected. Several tests conducted from 2012 to 2014 revealed that this cultivar was suitable for forcing culture due to its faster flowering and harvest time than ‘Seolhyang’. Fruits of ‘Misohyang’ were conical in shape with a red color, which turned dark red color when fruits were fully ripened. Although sugar contents in ‘Misohyang’ fruits were lower than those in ‘Seolhyang’, their aromatic properties were excellent in terms of synergy effect on perception of sweet flavor. In addition, ‘Misohyang’ fruits could maintain high hardness despite a warm temperature during spring. These physiological characteristics of fruits contribute to its high yields in spring, with an average fruit weight of 20 g. Regarding disease resistance, ‘Misohyang’ showed sensitivity to powdery mildew during nursery period and fruit ripening stage. Since the cultivar ‘Misohyang’ has an excellent flavor with attractive red color, sustainable hardness, and high yields in spring, it is expected to be popularly consumed not only for its fresh fruits, but also for its processed fruits.