This study was conducted to investigate the effect of 1-methylcyclopropene(1-MCP), an inhibitor of ethylene action, on fruit quality and incidence of physiological disorders during simulated marketing period in early-season Asian pear(Pyrus pyrifolia Nakai) ‘Noksu’. Flesh firmness was decreased abruptly at 15 days after shelf-life in control fruits. which showed less than 10.7N, although those of 1-MCP-treated fruits were kept high value(>30.4N) during 20 days of shelf-life. ‘Noksu’ pears did not show any considerable differences in quality indices such as soluble solids content, titratable acidity during the shelf-life regardless of 1-MCP treatment. The reduction of ethylene production level by 1-MCP treatment did not appeared in ‘Noksu’ pear. Meanwhile, 1-MCP treated ‘Noksu’ pears showed significantly low respiration rate during shelf-life. Also, 1-MCP treatment blocked the incidence of physiological disorders including core browning, internal browning, water soaking and mealiness symptom during shelf-life. Consequently, we concluded that the 1-MCP treatment effectively inhibited the incidence of physiological disorders and extended the shelf-life for 10 days in early-season Asian pear ‘Noksu’.

This study was conducted to investigate the effectof supplemental lighting intensity (SLI) on the shoot growthand flower quality of Rosa hybrida ‘Pink Bell’ in winter sea-son. High pressure sodium lamps (HPS) which were set upat 1.4m height above the planting beds were adjusted forthe SLI treatments: no supplemental lighting (control), pho-tosynthetically active radiation (PAR) 30, 50, 70, and 90µmol•m−2•s−1 in 20h daylength (17:00 to 22:00 and 02:00to 09:00). Shoot growth including shoot elongation, shootweight, and flowering speed was promoted quantitatively asSLI increased. But the flower quality such as petal num-bers, petal pigmentation, and biomass distribution to thepetals was declined at PAR 90, even though the proper SLIfor rose production was generally known in the range ofPAR 90 to 120. In this experiment PAR 90 treatment madethe surface of petals heated near 30oC which was about10oC higher than the control group without supplementallighting. The surface temperature of the petals was continu-ously rising because the distance to lamps from floral budsbecame increasingly short as the shoots grew in localgreenhouse facilities. The heat stress by HPS lampscaused petal discoloration and over-consumption of assimi-lation products due to excessive respiration and water lossin petals. Thus, it is necessary to prevent heat injury byswitching light intensity depending on shoot growth consid-ering local greenhouse structure.

본 연구에서는 여름철에 착색단고추재배가 평지에서 가능한 지를 검토하고 시설 내 야간의 공중습도와 배지 함수량이 생육과 과실의 병무름증과 배꼽썩음과의 발생에 미치는 영향을 조사코자 하였다. 제습 처리구는 야간의 습도가 85% 내외를 유지하였으나 제습을 하지 않은 관행구는 90% 내외로 유지되었다. 초장, 주경장 등 초기생육은 공중습도처리에서는 차이가 없었으나 배지함수량에서 유의차를 보여 배지함수량이 많은 80% 처리구가 길었다. 과실의 무게는 공중습도가 낮고 배지 수분함량이 많은 처리구에서 무거웠으며 스페셜 품종이 쿠프라 품종보다 무거웠다. 주당 착과수는 과실중과 달리 공중습도가 낮고 배지함수량이 낮은 처리구에서 많았으며 그 결과 10a당 상품수량이 증가하였다. 과병 무름증은 스페셜 및 쿠프라 두 품종 모두 실내습도가 낮은 처리구 및 배지함수량이 적은 처리구에서 발생율이 감소하였다. 반면 스페셜 및 쿠퍼라 두 품종 모두 배꼽썩음과 발생율은 공중습도과 높고 배지내 수분함량이 많은 처리구에서 낮게 나타나 과병무름증 발생과 상반되는 양상을 보였다. 스페셜과 쿠프라 두 품종 모두 정상과에 비해 과병무름증 발생과의 과병에서 질소의 함량은 많고 칼슘의 함량이 적었다. 이러한 결과에서 여름철 착색단고추 여름철재배시 생산성을 더 높이기 위해서는 제습기 등을 이용해서 야간의 공중습도를 낮추고, 배지 수분함량을 적게 관리하는 것이 유리한 것으로 나타났다.

Background: Saline soil has negative effects on the growth of most crops. Sodium is the main element that causes salt accumulation in soil. Organic materials such as cow and poultry manure, are frequently used during the preparation stage, which causes an increase in the rate of salt accumulation in the soil. Methods and Results: To investigate the influences of sodium on ginseng, NaH2PO4, Na2SO4, and NaCl were used to adjust the sodium concentrations at 0, 12.5, 25, 50, 75 and 100 mM in nutrient solution. In a 2-year-old ginseng, toxic symptoms appeared when the sodium treatment exceeded 50 mM. The sodium concentration in the leaves was 3.33%, which is more than twice as high as that of the control treated at 50 mM. As the sodium concentration increased, the root weight significantly decreased. In the 100 mM treatment, the weight decreased by 28% when compared to that of the control. The Amount of ginsenoside significantly increased with an increase in sodium concentrations. Conclusions: These results suggest that the growth of 2-year-old ginseng is negatively affected when sodium exceeds 50 mM. This result can be used for a as basis in diagnosing the physiological disorders of ginseng.

Background : Boron (B) is an essential element required for the growth of plant. It has a narrow range of optimal concentration from minimum to maximum thresholds than other micro-elements. The study was carried out to investigate to the influence of B excess concentrations on physiological disorder of leaf, growth and mineral concentration of ginseng to obtain basic information for physiological disorder diagnose. Methods and Results : The ginseng cultivar ‘Gumpoong’ was cultivated by hydroponic system for 2 months. The toxicity symptoms which ginseng leaves were curved downwardly and induced to chlorosis after beginning to dry the edge appeared on leaves more than 30 ppm compared to the control(3 ppm). The growth of ginseng was more decreased with higher B concentration. Mn uptake was also decreased as B concentration increased. It was found that B excess hindered the growth of ginseng and was reversely related to Mn uptake. Conclusions : More than B 30 ppm can negatively affect growth and mineral uptake. Consequently, B excess can occur physiological disorder of ginseng.

Background : Excessively high concentration of sodium ion causednutrient deficiency and significantly decrease growth. This study was carried out to determine the limiting concentration range of sodium ion in the soil of ginseng field. Methods and Results : The growth of the ginseng cultivar Chunpoong reduced with increase in salinity, and the rate of growth reduction was higher in shoots than that of roots. Particularly, ginseng plants cultivated at high level of nitrate nitrogen or sodium may suffer delayed development and stunted growth. Chlorophyll damage occurred on the leaves of ginseng planted in relatively high levels (> 0.2 c㏖+/㎏) of sodium ion, as determined by the fluorescence reaction. The incidence of physiological disorder in ginseng cultivated at 249 sites was correlated with the concentration of sodium ion in the soils. About 74% of ginseng fields in which physiological disorders occurred had concentrations of sodium ion in soil greater than 0.2 c㏖+/㎏. In contrast, the concentration of sodium ions at 51 of 85 sites where no damage occurred was relatively (0.05 c㏖+/㎏- 0.15 c +/㎏). Conclusions : The concentration of sodium ion in soil of ginseng fields can be classified into three levels optimum (≤ 0.15), permissible allowance (0.15 - 0.2) and excessive (> 0.2).

This study was carried out to investigate the difference of the content of soil chemical components and growthcharacteristics in six years old ginseng affected by application of decomposing plant residues in paddy-converted field. Theresults show that aerial parts of ginseng are no difference between press cake (PC) 200㎏/10a and control but subterraneanparts of ginseng PC 200㎏/10a, especially quantity related root fresh weight and tap root diameter, are statically about 1.6times heavier and about 1.2 times thicker than the ginseng control. Furthermore, the survival rate of PC 200㎏/10a is67.1% rise significantly compare with the control 50.7%. But compared with the PC 200㎏/10a and the PC 400㎏/10a,ginseng root growth and survival rate of PC 400㎏/10a get worse and that increase physiological disorder occurrence ratethan PC 200㎏/10a. Even though there are no significant differences between the ginseng of decomposing plant residuesexcept press cake treatment and the ginseng of control in growth characteristics, it does tend to increase the survival rateand decrease the physiological disorder occurrence rate in most fertilizer treatment except for RSC 2ton/10a, RSC 4ton/10a and RH 4kL/10a. Noted that EC is highly increased and exceeded 1.7ds/m in RSC 2ton/10a, RSC 4ton/10a and RH4kL/10a. It would be caused physiological disorder in many ways and affected ginseng growth characteristics, survival rate.

This study was carried out to investigate the difference of the content of soil chemical components and growth characteristics in five years old ginseng affected by application of manure in paddy-converted field. As all livestock manure regardless of kinds increased along with the whole soil chemical component, including the pH and EC in 2008. Change in the EC of control plot was slightly increased but not exceeded 1 ds/m over the years. However, the changes in the EC of livestock manure regardless of kinds and amounts were highly increased and irregularly exceeded 1.5 ds/m in 2012. The 5 years old ginseng root fresh weight, treatment of fertilizing pig manure compost 4 ton per 10 areas (PMC 4t on/10a) and fowl manure compost 4 ton per 10 areas (FMC 4 ton/10a), were superior to the others. But there were no difference between PMC 4 ton/10a, FMC 4 ton/10a and control. The standing crop rate 39.6%, treatment of fertilizing cattle manure compost 4 ton per 10 areas (CMC 4 ton/10a), was best in all livestock manure. However that was relatively lower than control. Physiological disorder occurrence rates of livestock manure related with leaf and root of ginseng were also higher than that of control. If excessively using non-decomposed livestock manure, It would be caused physiological disorder in many ways. It is a big problem to be producing the quality ginseng. More research is needed to find out the economic and effective fertilizer.

This study was to set the guidelines of soil chemical components in order to assure the safety and quality ofthe panax ginseng from physiological disorder. The disorder symptoms appeared on the leaf with yellow spot, atrophy, yel-low-brown spot, also showed red skin and rough skin of the root. Occurrence type of physiological disorder in cultivatedfield divided into two types:type I ‘such as, yellow spot’ consist of single disorder symptom; type II ‘such as, yellow spotand yellow-brown spot’ consist of two or more different disorder symptoms. The individual contribution of soil properties tothe occurrence type was as follows ; The yellow spot was affected by Na>NO3-N>salinity (EC) in soil. The same results wasobserved in red skin. Atrophy was affected by NO3-N>salinity (EC)>Ca>Mg. Rough skin was affected by P2O5>pH>Organic material > K. It showed positive associated to P2O5, pH and K, but negative associated to organic matter. Simulta-neous occurrence of two different disorder, including cases which yellow spot and yellow-brown spot, those were affected byNO3-N > salinity (EC) > Na > Mg. In the case of atrophy plus yellow-brown spot, those also were affected by in the order :NO3-N > salinity (EC) > Ca > Mg > Na. Red-rough skin was affected in the order : salinity (EC) > NO3-N > K > Na. Soilchemical components appear to be related to occurrence of physiological disorder, particularly in salinity (EC) and NO3-N.The salinity (EC) and NO3-N were negative related to plant growth. In addition, exchangeable cation capacity play criticalroles in attributing to complex occurrence of physiological disorder.

인삼의 생리장해를 산지중심으로 증상별로 종합검토하였다. 뿌리의 장해는 적피, 은피, 동해, 동해, 근부, 안삼, 출아불재, 달래삼, 소수가 있고 지상부에는 황엽, 조기낙엽, 소엽, 지엽, 백반엽, 동해, 풍해와 경열이 있다. 적피와 황엽이 인삼생산에 가장 크게 영향한다. 농약해, 붕소과 잉해 및 산업공해에 의한 피해 경우도 보고되었다. 원료수삼 가공한 후의 품질요인에 관계되는 생리장해들도 검토하였다.