The study examined qualities including chlorophyll, total phenol, total flavonoid content and antioxidative activity in 7-year-old mistletoe that was artificially cultivated with Japanese apricots as the host. The chlorophyll a content of the artificially cultivated Japanese apricot mistletoe leaves was 7.67 mg/g (old leaves) and 3.17 mg/g (new leaves), while the chlorophyll b content was 0.80 ~ 3.53 mg/g and 1.31 ~ 3.56 mg/g. The carotenoid content of the Japanese apricot mistletoe leaves were in the range of 0.29 ~ 2.48 mg/g, and the old leaves (1.85 mg/g) had a carotenoid content 2.1 times higher than the new leaves (0.89 mg/g). The total polyphenol content of the leaves and nodes of the 7-year-old mistletoe was 60.22 mg/100 g TAE for the leaves and 35.50 mg/100 g TAE for the nodes. Among the host trees, polyphenol content was highest (81.44 mg/100 g TAE) in the old mistletoe leaves of the Quercus mongolica, while the total flavonoid content of the Japanese apricot mistletoe was higher in the new leaves (47.89 mg/100 g RUE) than the old leaves (42.19 mg/100 g RUE). The DPPH radical scavenging ability of the Japanese apricot mistletoe scored a low 22.4 ~ 28.5% in the leaves, but was relatively high in the nodes at 52.4 ~ 80.1%. In terms of 1mg/mL concentration, the new leaves (69.1%) and old leaves (82.3%) of the Quercus monglica mistletoe displayed the highest inhibition rate. Chestnut mistletoe displayed an inhibition rate of 21.9 ~ 31.9% for the leaves, and 35.0 ~ 63.8% for the nodes. These results indicate that Japanese apricot mistletoe would be substitute oak tree mistletoe as a source of bio-active property for functional food and medicine.
Occurrences of Rhopalosipnum rufiabdominalis damage in the leaves of Japanese apricots were observed in Hadong, Gyeongnam Province, a major producing area. R. rufiabdominalis occurred from early May to mid October, with the peak occurrence of damaged leaves in mid May. To find proper timing of chemical control against R. rufiabdominalis, acetamiprid WP was sprayed weekly from 3 April, before budbreak, to 8 May in 2007. The best time for control R. rufiabdominalis was on 17 April 2007, at which the leaves were still tender and developing up to 3 to 5 leaves.
남부지방에서 뽕나무깍지벌레의 기주식물, 생활사 및 천적에 관하여 조사, 연구한 결과는 다음과 같다. 뽕나무깍지별레의 기주식물은 總 22科 74種이 조사되었으며 특히 Prunus層의 核果類에 피해가 많았다. 또한 本蟲은 연 3세대를 경과하며 유충 발생시기는 1세대가 5월 중순~6월 하순, 2세대 7월 중순~8월 중순, 3세대 9월 초순~10월 하순이었으며 최성기는 각각 6월 상순, 7월 하순, 9월 중순이었다. 난, 유충 및 雌成蟲의 개체군 밀도에 있어서는 최초 발생일로부터 각각 10일, 25일, 7일경에 가장 높았으며 뽕나무깍지벌레 천적은 Aphytis diaspidis, Archenomus orientalis, Apterencyrtus morophagus 등 기생봉 3種과 홍점박이무당벌레, 애홍점박이무당벌레, 무당벌레1種 등 3種의 포식충이 조사되었다. 뽕나무깍지벌레와 고약병균 감염은 신초신장과 및점한 관계가 있고 가해받지 않은 가지에 비해서 신초신장이 1/2, 1/4정도 밖에 이루어 지지 않았다.
Background : Mistletoe grown in eurasian continent range from England to northern Asia. It has abundant chlorophyll and phenolic compound in node and leaf which has anticancer activity. The purpose of the study is to improve nutritional quality and composition of the amino acids and mineral along with increasing seed set rates and productivity of Viscum album on Prunus mume.
Methods and Results : This study was conducted to compare plant nutrients such as total nitrogen, Ca, Fe, K, Mg, Mn, Na, P and composition of amimo acids in leaves between Viscum album and its host tree, Prunus mume, which were artificially cultivated in field and green house with or without treatment of fertilizer. Total nirogen content in leaves of mistletoe and its host tree, Prunus mume was 3.90% and 2.09% in the fields fertilized and non-fertilized, respectively. In a greenhouse fertilized, mistletoe leaves contained higher nitrogen (3.78%) compared to the host tree (3.06%). NO3-N content in leaves was also higher in mistletoe (37.5 ppm & 20 ppm) than in host tree (22.5 ppm & 12 ppm) in a field fertilized and non-fertilized. Ca content (1.18%) were same in leaves of mistletoe and host tree in the field fertilized. Contents of Fe, K, and Mn in leaves of mistletoe were 61.37 ㎎/㎏, 3.33%, and 127.59 ㎎/㎏, which were 16%, 13%, and 48% lower than host tree, respectively. On the other hand, contents of Mg, N, and P were 0.22%, 127.95 ㎎/㎏, and 0.48%, which were 5%, 148%, and 92% higher than host tree, respectively. K contents were higher in host tree fertilized (3.33% in field & 2.55% in greenhouse) while higher K (4.07%) was contained in a field non-fertilized compare to host tree (3.96%). However, P content was higher in mistletoe grown in field (0.48%) and greenhouse (0.42%) fertilized. In non-fertilized field, mistletoe leaves contained higher P (0.65%) rather than in host tree (0.29%). Eighteen kinds of amino acids were investigated in leaves of host plant by 20 - 87%.
Conclusion : This study indicates that nutrient management including fertilization is important to improve nutritional quality and productivity of mistletoe in the artificial cultivation on Prunus mume.