참다래(‘헤이워드’) 과실을 저온 및 상온 저장 중에, 여러 다른 파장의 light emitting diode (LED) 광원을 조사한 후 과실의 경도, 당도 및 산함량의 변화를 분석하였다. 과실 경도는 4℃보다 25℃...
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https://www.riss.kr/link?id=A60263237
2010
Korean
참다래 ; 후숙 ; LED ; 파장 ; 저장 ; Kiwifruit ; After-ripening ; Storage ; Wavelength
KCI등재
학술저널
88-94(7쪽)
6
0
상세조회0
다운로드국문 초록 (Abstract)
참다래(‘헤이워드’) 과실을 저온 및 상온 저장 중에, 여러 다른 파장의 light emitting diode (LED) 광원을 조사한 후 과실의 경도, 당도 및 산함량의 변화를 분석하였다. 과실 경도는 4℃보다 25℃...
참다래(‘헤이워드’) 과실을 저온 및 상온 저장 중에, 여러 다른 파장의 light emitting diode (LED) 광원을 조사한 후 과실의 경도, 당도 및 산함량의 변화를 분석하였다. 과실 경도는 4℃보다 25℃에서 크게 감소하였고, 1주 동안 LED 파장을 조사했을 때, 440 nm와 660 nm의 LED 광원을 처리한 참다래가 암실처리 보다 경도가 높게 유지되었고 380 nm UV등과 470 nm 백색 LED를 처리한 과실은 암실의 조건에 비하여 경도가 낮게 조사되었다. 밀봉을 한 참다래는 공기 중에 개방된 참다래보다 모든 처리구에서 경도가 더 높았다. 당도는 25℃에서 공기 중에 개방한 경우, 470 nm 백색 LED 처리구에서는 낮게 나타났으나 암조건과 380nm UV등 처리에서는 15℃Brix 이상을 나타내었다. 참다래 과실의 산함량은 660 nm 적색 LED 처리구에서 52% 감소하였다. 밀봉된 참다래에서 440 nm 청색 LED, 470 nm 백색 LED, 660 nm 적색 LED 광원을 처리하였을 때, 암실에 놓여진 참다래보다 산함량이 각각 52.6, 55.6 및 52.8% 감소하였다. 참다래에 대한 다양한 파장의 LED 조사효과 중에서, 산함량의 감소는 향후 참다래 과실의 수확 후 후숙기간을 조절하는데 활용될 수 있을 것이다. LED 광원은 정확하고 매우 좁은 영역의 파장을 적은 용량의 전력 소모량으로 구현하기 때문에 대표적인 청정 기술로 분류되며, 이러한 LED 광원을 이용한 참다래 과실의 산도 조절은 기존의 에틸렌 등의 화학물 처리보다 안전한 친환경 과실을 생산할 수 있는 청정기술이라 평가된다.
다국어 초록 (Multilingual Abstract)
The physiological roles of various wavelength of light emitting diode (LED) on ‘Hayward’ kiwifruit experiencing after-ripening were investigated. Various wavelengths from LED light source were irradiated on kiwifruits kept in plastic bags or under...
The physiological roles of various wavelength of light emitting diode (LED) on ‘Hayward’ kiwifruit experiencing after-ripening were investigated. Various wavelengths from LED light source were irradiated on kiwifruits kept in plastic bags or under open air at 25℃. During two weeks of storage, firmness of Hayward kiwifruits was decreased by 25℃ treatment than by 4℃ treatment. In the 25℃ storage condition, the firmness of kiwifruits was decreased by the treatment of 380 nm UV and 470nm white LED light source. Sweetness of kiwifruits treated with 380 nm UV LED and dark condition at 25℃ increased higher than 15℃Brix. The acidity of kiwifruits under open air was decreased 52% by incubating at 25℃ with 660 nm red LED treatment. The acidity of kiwifruits in plastic bags was decreased 52.6, 55.6, 52.8% by the treatment of 440 nm blue, 470 nm white and 660 nm red LED light source, respectively, compared to that of kiwifruits incubated in darkness at 25℃. Decreased acidity irradiated by 660 nm red LED light source can be applied for regulating periods of the kiwifruit after-ripening process. LED light sources emit very narrow wavelength with a power-saving mode, therefore, the usage of these LED light source for regulating the after-ripening process can be classified as a clean biotechnology producing safe and environment-friendly kiwifruits.
목차 (Table of Contents)
참고문헌 (Reference)
1 김경희, "저선량 감마선 조사된 헤이워드 참다래의 품질 특성" 동아시아식생활학회 18 (18): 49-57, 2008
2 고영진, "우리나라 참다래 저장병 발병율과 병원균" 한국식물병리학회 9 (9): 196-200, 2003
3 Zheludev, N, "The Life and Times of the LED - A 100-year History" 1 (1): 189-192, 2007
4 Khanam, N, "Suppression of Red Light-induced Resistance in Broad Beans to Botrytis cinerea by Salicylic Acid" 66 (66): 20-29, 2005
5 Park, K, "Studies on the Modeling of Controlled Environment in Leaf Vegetable Crops. II. Effects of Various Light Sources on the Growth" 1 (1): 135-141, 1992
6 Islam, S, "Some Characteristics of Red Light Induced Substance(s) against Botrytis cinerea Produced in Broad Bean Leaflets" 147 (147): 65-70, 1999
7 Stec, M, "Role of Fruit Firmness in the Sensory Evaluation of Kiwifruit (Actinidia deliciosa cv. Hayward),"" 47 (47): 417-433, 1989
8 Park, Y. S, "Ripening Effect of Kiwifruit Influenced by Ethylene Treatment" 20 (20): 91-, 2002
9 Rahman, M, "Red light-induced Resistance in Broad Bean (Vicia faba L.) to Leaf Spot Disease Caused by Alternaria tenuissima" 151 (151): 86-91, 2003
10 Lee, C, "Post-storage Softening and Physiological Changes of 'Hayward' Kiwifruit Stored under Low Temperature and Controlled Atmosphere" 42 (42): 87-90, 2001
1 김경희, "저선량 감마선 조사된 헤이워드 참다래의 품질 특성" 동아시아식생활학회 18 (18): 49-57, 2008
2 고영진, "우리나라 참다래 저장병 발병율과 병원균" 한국식물병리학회 9 (9): 196-200, 2003
3 Zheludev, N, "The Life and Times of the LED - A 100-year History" 1 (1): 189-192, 2007
4 Khanam, N, "Suppression of Red Light-induced Resistance in Broad Beans to Botrytis cinerea by Salicylic Acid" 66 (66): 20-29, 2005
5 Park, K, "Studies on the Modeling of Controlled Environment in Leaf Vegetable Crops. II. Effects of Various Light Sources on the Growth" 1 (1): 135-141, 1992
6 Islam, S, "Some Characteristics of Red Light Induced Substance(s) against Botrytis cinerea Produced in Broad Bean Leaflets" 147 (147): 65-70, 1999
7 Stec, M, "Role of Fruit Firmness in the Sensory Evaluation of Kiwifruit (Actinidia deliciosa cv. Hayward),"" 47 (47): 417-433, 1989
8 Park, Y. S, "Ripening Effect of Kiwifruit Influenced by Ethylene Treatment" 20 (20): 91-, 2002
9 Rahman, M, "Red light-induced Resistance in Broad Bean (Vicia faba L.) to Leaf Spot Disease Caused by Alternaria tenuissima" 151 (151): 86-91, 2003
10 Lee, C, "Post-storage Softening and Physiological Changes of 'Hayward' Kiwifruit Stored under Low Temperature and Controlled Atmosphere" 42 (42): 87-90, 2001
11 Goins, G, "Photomorphogenesis, Photosynthesis, and Seed Yield of Wheat Plants Grown under Red Light-emitting Diodes (LEDs) with and without Supplemental Blue Lighting" 48 (48): 1407-, 1997
12 Islam, S, "Light-induced Resistance of Broad Bean against Botrytis cinerea" 146 (146): 479-485, 1998
13 Cohnstaedt, L, "Light-emitting Diode Technology Improves Insect Trapping" 24 (24): 331-334, 2008
14 Arase, S, "Light Enhanced Resistance to Magnaporthe grisea Infection in the Rice Sekiguchi Lesion Mutant" 148 (148): 197-203, 2000
15 Kwack, Y. B, "Kiwifruit (Actinidia deliciosa L.)"
16 Tamulaitis, G, "High-power Light-emitting Diode Based Facility for Plant Cultivation" 38 (38): 3182-3187, 2005
17 Beever, D, "Fruit Development and Fruit Physiology" Richards Publication 165-246, 1990
18 Barta, D, "Evaluation of Light Emitting Diode Characteristics for a Space-based Plant Irradiation Source" 12 (12): 141-149, 1992
19 Kim, K, "Ethylene and Temperature Effects on Softening and White Core Inclusions of Stored in Air or Controlled Atmospheres" 111 (111): 149-153, 2007
20 Benge, J, "Empirical Modelling of Postharvest Changes in the Firmness of Kiwifruit" 19 (19): 211-220, 2000
21 Ferguson, A. R, "Domestication of Kiwifruit," in Warrington, I. J., and Weston, G. C., Eds., Kiwifruit: Science and management" Ray Richards 165-246, 1990
22 Okamoto, K, "Development of Plant Growth Apparatus using Blue and Red LED as Artificial Light Source" 440 : 111-116, 1996
23 Yamanaka, H, "Determination of Oxalate in Foods by Enzymatic Analysis" 24 (24): 454-458, 1983
24 Moreno, I, "Designing Light-emitting Diode Arrays for Uniform Near-field Irradiance" 45 (45): 2265-2272, 2006
25 Shotipruk, A, "Conceptual Design of LED-based Hydroponic Photobioreactor for High-density Plant Cultivation" 15 (15): 1058-1064, 1999
26 Bula, R, "Commercial Involvement in the Development of Space-based Plant Growing Technology" 12 (12): 5-10, 1992
27 MacRae, E, "Changes in the Softening and Composition of Kiwifruit (Actinidia deliciosa) Affected by Maturity at Harvest and Postharvest Treatments" 49 (49): 413-430, 1989
28 Park, Y, "Changes in Firmness, Fruit Composition, Respiration and Ethylene Production of Kiwifruit during Storage" 36 (36): 67-73, 1995
29 Jackson, P, "Changes in Firmness of the Outer Pericarp, Inner Pericarp, and Core of Actinidia Species during Ripening" 25 (25): 185-189, 1997
30 Redgwell, R, "Cell Wall Dissolution in Ripening Kiwifruit (Actinidia deliciosa) Solubilization of the Pecticpolymers" 98 (98): 71-81, 1992
31 Perera, C, "Calcium Oxalate Crystals: The Irritant Factor in Kiwifruit" 55 (55): 1066-1069, 1990
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초임계이산화탄소를 이용한 폴리비닐아세테이트의 합성과 그로부터 폴리비닐알코올의 제조
학술지 이력
연월일 | 이력구분 | 이력상세 | 등재구분 |
---|---|---|---|
2027 | 평가예정 | 재인증평가 신청대상 (재인증) | |
2021-01-01 | 평가 | 등재학술지 유지 (재인증) | |
2018-11-01 | 학술지명변경 | 한글명 : 청정기술 -> Clean Technology외국어명 : CLEAN TECHNOLOGY -> Clean Technology | |
2018-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
2015-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
2011-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
2008-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
2007-07-04 | 학술지명변경 | 한글명 : 한국청정기술학회지 -> 청정기술 | |
2007-01-01 | 평가 | 등재후보 1차 PASS (등재후보1차) | |
2005-01-01 | 평가 | 등재후보학술지 선정 (신규평가) |
학술지 인용정보
기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
---|---|---|---|
2016 | 0.26 | 0.26 | 0.25 |
KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
0.29 | 0.28 | 0.4 | 0.1 |