본문은 1964-'65년에 걸쳐 한국의 남부지방 특히 대구지방에서 많이 재배되고 있는 감나무에 수년전부터 심한 피해를 주고 있는 Oriental moth의 생태학적인 사항에 관한 연구의 결과를 수록하였다. (1) Oriental moth의 우화 최성기는 대구지방에서 6월중순경이다. 그리고 산란은 전부 엽이면에 하며 엽상에서도 엽선단부에 대부분 란이 산란되었다. (2) 란기간은 1964년의 평균이 일이었고 1965년은 로서 양년 모두 약 6일간이었다. 그리고 실내 사육실에서 부화율은 1964년이 였고 1965년이 었다. (3) 기주식물별 생장률에 있어서 체장생장은 4기주, 감나무, 고욤나무. 네군도단풍. 플라타너스에서 1령충에서 3령충까지는 고욤나무, 감나무, 플라타너스, 네군도단풍의 순위었으나 4령충 부터는 반대로 감나무, 고욤나무, 네군도단풍과 플라타너스의 순위였다. 두폭의 생장률도 동일한 경향을 나타내었다. 그리고 플라타너스엽을 식이로 한 개체들은 사육 20일 경과 후 전부 사멸하였다. (4) 본충은 1년에 1회 발생하며 탈피회수는 6회이다. 1회탈피는 부화 후 약 5시간 후에 일어나고 2-6회 탈피는 각각 약 7일 간격으로 일어났다. 그리고 최종탈피를 한 후 약 3일 후 Cocoon을 형성하여 월동한다. (5) 유충체상에 있는 침수가 위치별로, 각 령별로 차이가 있으므로 령의 판정이 가능하다. 특히 L2, D2, D3, D8, D10의 침과 Ll, L3, L4, L5, L6, L7의 침은 각 령별로 그 수가 다르므로 침으로 령의 판정이 가능하다. (6) Cocoon내에서 Pupation은 감나무 지상에서 월동을 한 후 이듬해 5월 중순부터 Pupa가 형성되어 우화기인 6월 초순까지 계속된다. (7) 자성충이 체내에 가지고 있는 난수는 평균 1필당 당 개였다

본 문은 1963-1964년 사이에 감나무에 기생하는 Ceroplastes floridensis Comstock의 생태학적연구와 여기에 기행하는 parasite 2종의 생태에 관한 연구의 결과를 수록하였다. 1. C. floridensis는 대구시내 시가 중심부에 집중적으로 감나무에 기생해 있고 본충의 유력한 기생기봉인 M. clauseni의 기생율은 최고 이고 시가 중심에 비교적 기생율이 적다. 2. 본 충의 란의 발육은 성숙란이 5월 중순 - 7월초에 나타나고 5월말-6월초에 가장 많이 나타난다. 그리고 1필의 장란수는 평균 개이다. 3. 본 충은 6월초-7월초에 부화하여 6월 중순에 최고를 이루며 male은 8월 14-9월 7일에 용화하여 성충은 8월 20일-9월 8일 사이에 나타난다. 또 adult male의 수명은 8월에는 3일간, 9월에는 4일간이다. 4. 본 충의 host plant 중 persimmon, platanus, trifoliate orange의 3종에 기생한 본 충의 체장에는 상호간에 차이가 있으며 persimmon에 기생한 것의 체장이 가장 길고 다음이 platanus이며 trifoliate orange에 기생한 것이 체장이 가장 작았다. 5. C. floridensis에 기생하는 M. clauseni는 1년에 5회 발생하며 유충내로 host 체내에서 월동하여 4월 중순에 제1회의 성충이 나타난다. 에서 1세대를 완료하는데 15일을 요하며 이 parasite의 female 1필이 가지고 있는 ovariole 수는 6개이고 장란수는 평균 개였다. 6. C. floridensis 1필에 기생하는 M. clauseni의 기생충수는 1필이 가장 많았고 2필 또는 이례적으로 4필이 기생한 것도 있었다. 7. Coccophagus spp.는 C. floridensis에 있어서 male에만 기생하고 그 기생율은 였다.

This was carried out to develop a chromosome-doubled (12x) persimmon that will be used as a crossing parent to select seedless persimmon cultivars with the change of the consumption trend recently. To obtain a chromosome-doubled (12x) persimmon, colchicine was applied at the meristem of seedlings in vitro derived from cross among hexaploid persimmon (Diopyros kaki Thunb.). These were treated with 0.03%, 0.05% and 0.1% colchicine respectively for doubling chromosome, and it was most effective at the concentration of 0.05% colchicine. After colchicine treatment, we conducted tests to elucidate conditions for inducing shoot and root development. As the result, the shoots grew best when cultivated at 1/2MS media plus 10 and 30 μM zeatin respectively, and the roots grew best when cultivated at 1/2MS media after dipping for 5 seconds at 10 mM NAA+5% DMSO. We also compared seedlings that have chromosome (6x) do not doubled and crossing parents (6x) and chromosome-doubled seedlings (12x). As the result, these chromosome-doubled seedlings (12x) showed lower stomatal density and larger stomatal size.

Persimmon is a plant that is native to the Republic of Korea. It leaves are rich in antioxidants and minerals. This study set out to investigate the moisture, color, vitamin C, and mineral contents of five of the most common Korean persimmon leaves (‘Sangju-dungsi’, ‘Sangam-dungsi’, ‘Cheongdobansi’, ‘Gabjubaekmok,’ and ‘Suhong’), and how they varied with the applied drying technique (freeze-drying or hot-air drying at 100℃ for 30 min) and harvesting time (late May or late June). Persimmon leaves were first collected, and then blanched and dried. Our results revealed that freeze-drying was the most effective method in terms of the mineral content, while no significant difference in the vitamin C content was observed regardless of the drying method. The concentration of Mg, Ca, K, and Mn increased from May to June, while the opposite trend was observed for Na, Fe, Cu, and Zn. Persimmon leaves collected in late May had a higher vitamin C content than those harvested in late June. Ultimately, the ‘Sangam-dungsi’ persimmon leaf was found to have the highest mineral content, whereas ‘Gabjubaekmok’ leaves were richer in color (lightness, redness, and yellowness) and had the highest vitamin C content among the analyzed cultivars.

As an alternative to chemical fumigation using reagents such as methyl bromide, sweet persimmon was treated with γ-irradiation with the aim of extending the export of persimmon to countries with strict quarantine requirements. 1-Methylcyclopropene (1-MCP) was also employed to prevent the loss of persimmon quality, as treatment by γ-irradiation can cause changes in the firmness and color of the fruit, in addition to physiological injuries. The persimmon quality was assessed at 25℃ over a defined period of retail display following long term cold storage for 60 and 90 day. The persimmon firmness was significantly (p<0.05) decreased following γ-irradiation and display at 25℃ over 2 day, but was dramatically reduced after 3 day display and 60 day cold storage. Although irradiation increased the respiration rate of persimmon after long term storage, it was not significantly (p>0.05) altered at the doses employed herein. In contrast, 1-MCP treatment significantly (p<0.05) improved the persimmon firmness from 1.1 N to 6.0-20.6 N after γ-irradiation treatment and 3 day display and little change in the skin color was observed compared to the untreated samples. The rate of flesh softening was also significantly reduced following 1-MCP treatment.

The purpose of this study is to present the results as basic data for establishing proper storage conditions and distribution conditions of actual farms at point of increasing concern about hygiene and palatabiltiy of consumers to food. In this study, three farmhouses of dried persimmons prepared using different storage conditions were selected in Sangju (Korea). The dried persimmons were stored for 90 days. Changes in temperature and humidity were measured with a temperature and humidity recorder under each storage condition, and physicochemical analysis and sensory evaluation were performed. The average temperatures of farmhouse A, B and C were approximately -22--23℃, -19--18℃ and -25℃ respectively. The humidities of A, B and C were 62-63%, 59-60%, and 66-67%, respectively, and the moisture contents of all farmhouses increased during the storage period, with farmhouse B showing the most rapid increase. Free sugars increased, except for those from farmhouse C. Persimmons from farmhouse B showed the greatest changes in chewiness and hardness. The values of a* and b* were significantly decreased in persimmons from farmhouse B, and the color difference value of farmhouse B was dramatically increased. Sensory evaluation showed that the color preference tended to decrease compared with the initial value. Only farmhouse B showed decreased overall acceptability. Moreover, farmhouse B had the highest storage temperature and lowest humidity. Therefore, our results showed that storage at a low temperature and high humidity was important for manufacturing high-quality dried persimmons.

This study was conducted to develop rice cookies added with young persimmon fruits. Effects of varying amounts (0-12%) of the fruit powder from a young astringent persimmon fruit (picked at July) on the quality characteristics of rice cookies were studied. Ingredients [rice (Oryza sativa subsp. japonica ‘Ilpum’) flours, persimmon (Diospyros kaki Thunb. ‘Cheongdobansi’) powder, sugar, butter, salt, baking powder, egg] were mixed, cut (thickness 3 mm, diameter 35 mm), baked at 170-180℃ for 9 min, cooled, and packaged in polyethylene/nylon bags. The loss rate and spread factor after baking of cookies increased and then decreased with an increase in the amount of fruit powder added. The moisture content and color values (L* and a*) of cookies decreased with an increase in the amount of the persimmon powder added. Phenolic compounds content and DPPH radicals scavenging activity increased with an increase in persimmon powder content; in particular, the DPPH activity of the cookies sharply increased after the addition of 3% persimmon powder. These results suggest that the addition of the young persimmon fruit powder affected the quality characteristics of rice cookies and this fruit powder (approximately 3%) can be utilized as an additive during rice cookie processing.

Persimmon seeds contain considerable amounts of minerals, amino and organic acids, natural antioxidants and phenolic compounds. The objective of this study was to investigate quality characteristics and antioxidant potential of Korean persimmon seeds. The pH (4.88-4.94), color values, contents of minerals, free amino acids, organic acids, and phenolic compounds and DPPH free radical scavenging potentials of persimmon seed extracts significantly (p < 0.05) varied with the genotypes. This study showed that the seeds could be used as a source of different mineral elements (47.14-85.07 ㎎/㎏) without any measureable amount of heavy metals such as arsenic, cadmium, lead and mercury. Similarly, considerable amounts of organic (1550.13-2413.08 ㎎/㎏) and essential amino (50.85-54.03 ㎎/㎏) acids and total phenolic compounds (1227.91-1307.78 ㎍ gallic acid equivalent/g) were also found in the seed extracts, indicating their potential food value as a natural antioxidant. Results of the present study imply that prethanol-A, a food preservative, can be used as an effective extraction to obtain the minerals, organic and free amino acids, and phenolic compounds from the persimmon seeds, which possess a big potential to be commercially used in food, cosmetic and pharmaceutical industries.

‘Migamjosaeng’ (Diospyros kaki Thunb.) is a new pollination-variant non-astringent type (PVNA) persimmon cultivar developed by Sweet Persimmon Research Institute of Gyeongnam Agricultural Research & Extension Services. This cultivar was selected among the seedlings obtained from the cross between ‘Mazumotowase-Fuyu’ and ‘Nishimurawase’ in 1995. The seedlings were cultivated from 1996 to 2001 and ‘Migamjosaeng’ was selected in 2002. The tree growth habit and fruit characteristics of ‘Migamjosaeng’ were investigated from 2004 to 2007. The tree growth habit was moderate vigor and showed spreading shape. Flowers bloomed only in female flowers. The flowering time was similar to that of ‘Nishimurawase’ (control) in late May, but the harvest time was about 3 days earlier than ‘Nishimurawase’ in late September. ‘Migamjosaeng’ is characterized by its beautiful orange skin color with round flat shape of fruits. Average fruit size was about 160g. Soluble solids were 16.6°Brix and higher than that of control (14.5°Brix), which contributed to its excellent tastiness. It was noteworthy that occurrence of calyx-end cracked fruits and striped fruit was very rare compared with the control. Therefore, ‘Migamjosaeng’ trees produced marketable fruits much higher than the control tree. Flesh firmness was slightly high and similar to ‘Nishimurawase’.

본 연구는 홍시라떼 분말화의 최적조건 설정을 위하여 반응표면분석법(RSM)을 이용하였으며, 독립변수는 inlet temperature(X1), air flow rate(X2), 시료의 공급속도인 feed flow rate(X3)로 설정하고 종속변수로는 회수량(Y1), 수분흡 수지수(Y2), total phenolic compounds(Y3)로 설정하였다. 각 종속변수에 따른 회귀식은 모두 p<0.001 수준에서 유의성이 인정되었다. 홍시라떼의 경우 과당이 풍부하여 분말의 부착성이 높기 때문에 유리전이 온도와 입자의 표면 온도 차이가 낮을수록 회수량은 높아졌으며, 분말의 결정성과 응집성은 증가하여 수분흡수지수는 낮아졌다. 또한 낮은 inlet temperature(X1)와 높은 feed flow rate(X3)는 입자의 표면 온도와 열의 접촉 시간을 모두 낮추어 total phenolic compounds의 손실을 최소화 하였다. 각 독립변수와 종속변수의 영향을 나타내는 반응표면그래프를 이용하여 최적 분말화 조건을 예측한 결과 inlet temperature(X1) 90℃, air flow rate(X2) 53 mL/min, feed flow rate(X3) 17.00 mL/min로 결정되었다.

본 연구는 2015년과 2016년에 ‘상주둥시’ 감의 수확시기 를 달리하여 수확 후 PE필름, 1-MCP 및 AVG를 처리가 저온저장동안 과실의 품질에 미치는 영향을 조사하였다. 2016년 과실 수확시기는 2015년에 비하여 10일 빠른 조기 수확을 실시하였다. 과실의 에틸렌 발생 정도는 조기수확 한 과실들에서 현저히 낮았고, 과실의 경도는 저온저장동안 1-MCP 처리구들이 다른 처리구의 과실에 비하여 높게 유지되었다. 과실의 감모율은 수확기를 달리한 모든 과실 들에서 PE 필름 처리 과실들에서 현저히 억제되었다. 성숙기에 수확한 과실은 저온저장 중 과실의 꽃받침 부위과 경와부의 과피색(L* 및 b*) 변화를 보면 무처리와 PE필름 처리구에 비하여 1-MCP 처리구들이 그 변화정도가 낮았다. 과실의 부패와 연화정도는 PE필름 처리 과실들에서 높게 나타났지만 AVG 처리구들에서는 부패과 발생이 없었다. 그리고 조기수확한 과일은 성숙기에 수확한 과실에 비하여 경도가 높게 유지되었고, 과피색의 변화가 낮은 경향을 보였고, 성숙기에 수확한 과실들은 당도, 과피의 적색 (Hunter a 값) 발현 및 호흡율이 높게 나타났다. 따라서 감 과실의 저장성 향상을 위해서는 조기수확이 중요한 요인으로 작용하고 또한 수확 후 1-MCP 처리가 과일의 경도를 높게 유지하고 과피색의 변화를 억제하였으며, 과실의 감 모율은 PE 필름 처리에 의해 현저하게 억제됨을 확인하였다.

The purpose of this study is to analyze the actual condition of the already established rural theme park, draw the weak and strong points, and come up with an efficient performance plan for Changwon Persimmon Theme Park through the benchmarking of the best overseas case. According to the analysis, it is necessary to introduce a facility and a program for family customers as a plan for promoting Changwon Persimmon Theme Park. It is required to secure safety through public operation and management, improve scalability of the facility through the establishment of multi-functional complex facility, and come up with a plan for operating a special program associated with local resources. Therefore, this study drew three activation factors: the establishment of operation and management system, the development of operation contents by facility, and the establishment of operation in each area. First, to establish the operation and management system, it is necessary to classify the organization of the theme park into the operation business area and into operation & management area by job function. Secondly, it is necessary to establish a special program in consideration of space and facility, suggest a differentiated plan for operation contents, and create a facility operation plan and program for Changwon Persimmon Theme Park. Lastly, to operate and manage Changwon Persimmon Theme Park smoothly, it is necessary to set the theme park space as open collaboration space which the local residents can share and participate in by avoiding the conventional administration-based business performance and operation. This study suggested the plan for establishing an operation and management system for Changwon Persimmon Theme Park and its operation, the establishment of a special program, a business performance strategy, and the use of internal and external spaces of the theme park.

We investigated the effect of PE film thickness on the modified atmosphere packaging (MAP) deastringency of ‘Sanggamdungsi’ (Diospyros kaki cv.) astringent persimmon at room temperature (25°C) and low temperature (-1°C). The fruits were individually packaged with PE film of which the thickness is 60, 80, 100, 115 or 130 μm and stored at room or low (-1°C) temperature. At room temperature, firmness shows the highest value (23.3-26.5) at 100 μm thickness. Top flesh browning and decay was monitored at 20 days after storage, and peel blackening and style-end softening was negligible at optimal thickness. Therefore, optimal film thickness of deastringency at room temperature is 80-100 μm. At this thickness, the astringency was removed after 5 days and the fruits can be distributed until 10 days after the MAP. At low (-1°C) temperature, firmness was maintained regardless of film thickness. However, the firmness is higher as the film is thicker. Top flesh browning and decay was not occurred even after 90 days after storage. Peel blackening and style-end softening was monitored at 90 days after storage. Off-flavor was monitored at 115 and 130 μm thickness. Therefore, optimal film thickness of deastringency at low (-1°C) temperature is 80-100 μm. At this thickness, the astringency was removed after 50 days and the fruits can be distributed until 80 days after the MAP.

This study was conducted to investigate the effect of chlorine dioxide fumigation as a substitute for sulfur fumigation which has been used as a method to prevent the quality change of persimmon during storage and distribution process. Dried persimmons were treated with chlorine dioxide gas concentration (0, 15 30, and 45 ppm) and time (0, 15, 30, and 45 min) and microbiological changes, texture properties and color of the treated samples were investigated during storage at room temperature. Total aerobic bacteria, yeast and mold numbers after chlorine dioxide gas fumigation were decreased when compared with the control group. The inhibitory effects of total aerobic bacteria, yeast, and mold were observed during storage. The texture properties and color value of dried persimmons were not affected by chlorine dioxide gas fumigation concentration and time. There was no difference in quality between chlorine dioxide gas fumigation treatment group and control group. These results suggested that chlorine dioxide gas fumigation treatment can be utilized as a processing technique to secure microbiological storage stability of dried persimmons.

본 연구는 국내 단감 유기재배 선도농가의 병해충 방제 실태조사, 주요 병해충에 대한 친환경 방제자재 선발, 수립한 방제시스템의 현장실증시험을 2013년부터 2015년까지 3년 동안 수행하였다. 유기재배 선도농가의 주 재배품종은 부유였으며, 병해충 방제를 연간 9~17회 유기농업 자재를 살포하였다. 피해가 가장 심한 병해충은 탄저병, 노린재, 감꼭지나방, 깍지벌레 등 이었으며, 사용한 방제자재는 결정석회황합제, 황토유황, 유화제, 보르도액 그리고 마늘, 은 행, 소나무를 이용한 자가제조 식물추출물제를 이용하였다. 탄저병 방제에 효율적인 자재 는 결정석회황, 황토유황이었고, 마늘유+ 시트로넬라유제, 고삼종자 추출물+차추출물제가 톱다리개미허리노린재와 독나방에 효과적이었다. 감꼭지나방 교미교란트랩을 60개/10a 설 치하면 감 착과율을 30% 향상시켰다. 유기재배 단감에 연간 10회 방제하는 방제시스템의 현장실증시험 결과 70.7%의 과일을 수확할 수 있었다. 그러나, 수확기 즈음인 9월, 10월에는 약제를 살포할 수 없기 때문에 이 때 가해하는 노린재류의 피해는 감소하지 않았으며, 추가적인 연구가 필요하다.

The purpose of this study is to extract climate factors affecting sweet persimmon yield by growth period and estimate the rate of future sweet persimmon yield using data of production and cultivation area of sweet persimmon and climate data for 1998-2015. During the analysis period, the cultivation area of sweet persimmon in Gyeongnam has been consistently decreasing, but sweet persimmon yield has increased. Climate factors that have statistically significant effects on sweet persimmon yield are mean temperature, maximum temperature, precipitation, precipitation days, and sunshine hours. The sweet persimmon yield is a statistically positively correlated with temperature and sunshine hours and negatively correlated with precipitation during the flowering period (April to May). The sweet persimmon yield is statistically positively correlated with precipitation in the growing period (June to August) and negatively correlated with temperature in maturity period (September to November). Future sweet persimmon yield is estimated to have a steadily decreasing rate of change in future climate change scenarios, RCP4.5 and RCP8.5.

Persimmon has long been established as one of the major fruits in Korea. The southern parts of Korea were traditionally the pocket areas for good persimmon production; however, rising temperatures have gradually rendered the southern regions unsuitable for successful harvest. Ecology of fruit growing areas affects the productivity of various types of crops, including fruit trees such as persimmon. The quality characteristics of the fruit of persimmon cv. Dongchul grown in Gangwondo, which lies in the northern part of South Korea, were investigated. Different physicochemical, nutritional, and antioxidant properties of fruit were evaluated to assess the locational effect on the quality of persimmon fruits grown in Gangwondo. The results of this study showed that persimmon cv. Dongchul grown in Gangwondo maintains many of the physicochemical (4.33% crude protein and 4.32% crude fiber), nutritional (total mineral content: 461.51 and vitamin C content: 15.28 ㎎/100 g), and antioxidant properties (polyphenol content: 633.1 ㎎ gallic acid equivalent/100 g) those are found in other three commercial cultivars ‘Daebong’, ‘Kyengsan Bansi’, and ‘Sangju Doongsi’ grown in Korea. Overall results of this study imply that ‘Dongchul’ cultivar of persimmon could commercially be grown in Kangwondo, Korea.

미숙과의 가공법 제안 및 기능성 규명을 위한 기초 연구 의 일환으로 반시 미숙과를 7 step으로 나누어 열처리 숙성 하면서 이화학적 특성 및 항산화 활성의 변화를 분석하였 다. 반시 미숙과는 숙성됨에 따라 수분함량과 pH는 점차 감소하고, 산도는 증가하는 경향이었다. 숙성이 진행됨에 따라 갈변이 유도되면서 step 3까지 적색도는 급격히 증가 하였으며, 황색도는 큰 폭으로 감소하였다. 반시의 탄력성, 씹힘성과 점착성의 경우에는 step 2~3에서 변화한 후에는 유의적인 차이를 보이지 않았다. 숙성 중 반시 미숙과의 fructose의 함량은 감소한데 반해 glucose 함량은 미량 증가 하였다. 페놀성 화합물은 gallic acid와 homogentisic acid, 2종이 검출되었는데 이들 화합물은 step 2까지는 검출되지 않았으나, step 3부터 숙성단계가 지남에 따라 함량이 증가 하였다. 이와 상반되게 탄닌 함량은 step 1에서 가장 높게 측정되었고 step 2에서 급감하였다. 숙성 단계별 반시 미숙 과 물 추출물의 DPPH와 ABTS 라디칼 소거능 및 FRAP법 에 따른 항산화 활성은 시료의 농도에 비례하여 유의적으로 증가하였으나, 숙성이 진행될수록 오히려 낮아졌다.

In order to develop a sprayable ethylene antagonist, unlike 1-methylcyclopropene (MCP), we synthesized 2-decylcyclopropene-1-carboxylic acid ethyl ester (DCPE) as a derivative of cyclopropene and tested its effect on the flesh softening of ‘Fuyu’ persimmon fruits. The fruits on trees were sprayed with 4·10-4 M DCPE solution before harvest. After harvest, the persimmon fruits were stored at a low temperature for 1.5 months. The ripening progress of the fruits was then evaluated during storage at ambient temperature (20℃). Flesh softening, a measure of ethylene response, was considerably delayed up to 7 days after DCPE treatment. However control fruits was rapidly softened after 3-day storage. The treatment effect of DCPE at 4·10-4 M was also compared to that of 1-MCP at 1 ppm. DCPE was storable at refrigerated conditions for at least one month without any loss. The results show that DCPE could be a potential sprayable agent for the prevention of flesh softening of persimmon fruit.

Total phenolic compounds and antioxidant activity were investigated in leaves of organic apricot, filbert, mulberry, persimmon, and pomegranate trees during growing season. Total phenolic compounds and antioxidant activity in leaves of organic apricot and filbert trees were gradually increased from May to June, attained peak in July, thereafter decreased to minimum level in October. In leaves of organic mulberry tree total phenolic compounds and antioxidant activity were simultaneously increased from May to June and sharply decrease to very low level. The leaves of organic persimmon trees showed very high level of total phenolic compounds and antioxidant activity from May to June, thereafter gradually decrease to October. The leaves of organic pomegranate trees showed extraordinarily highest level of total phenolic compounds among five fruit trees investigated in the study during growing stages, as well as maintained higher than 91 percent of antioxidant activity from May to October. Correlation coefficients between total phenolic compound and antioxidant activity of the leaves of five organic trees were the highest in mulberry leaves, and then persimmon, filbert, apricot, and pomegranate, respectively. However, correlation coefficients between total phenolic compound and antioxidant activity of the leaves of organic pomegranate were very low level, and not significant in their relationship.