This study was conducted to obtain basic data on domestic wild Lanopila nipponica K specimens collected in Jeollanam-do from 2015 to 2017 to investigate the characteristics of fruit bodies and analyze their nutritional components. L. nipponica K. was mainly found near hills, such as in persimmon fields around hills, on mountain trails, and in bamboo fields. L. nipponica K. occurred from July to mid-October, especially after the rainy season or a typhoon, when the air humidity was increased. Rainfall occurred for 8–15 days during the 20 days before the collection date, and the average temperature was ≥ 23oC. The size of the fruit body was 12.3–28 cm, and the weight varied depending on the size; however, the fruit body was estimated to grow overnight, reaching the size observed at its discovery. As aging progressed, the surface of the fruit body cracked, and it turned dark after 6 days. Spores were lump-shaped when the surface was cut with a knife. When the soil on the surface of the site where the fruit body was located was scratched, a white thread-shaped mycelium expanded. At the time of collection, the flesh of the fruit body was white, but it turned brown and fluffy as maturity progressed. On the sixth day after the mushroom was generated, it produced a pungent odor and became friable, resembling a black cotton ball. The surface of the fruit body was white and had a circular or elliptical shape. Crude protein content tended to be high at 59% of the dry weight. The antioxidant activity, determined using the DPPH radical scavenging analysis method, was 167 vitamin C equivalents/100 g. The spores were brown, approximately 6 μm in size, with protrusions on their surface.
최근 ICT기반 스마트팜이 급속도로 증가추세이다. 버섯의 생육환경요인은 온도, 습도, CO2, 광이 주요인이지만 그동안 온도 위주의 자동제어가 사용되어왔다. 큰느타리버섯의 생육환경 조절은 온도는 자동제어하지만 가습과 환기는 경험을 기준으로 한 타이머 사용을 하고 있었다. 이에 본 연구에서는 온도, 습도, 환기까지 자동제어를 통해 큰느타리버섯의 1세대 스마트팜 모델을 설정하기 위한 시험을 진행하였다. 환경제어시스템 및 모니터링 장비를 설치 한 후 기존의 방법으로 재배하고 있는 상태에서 생육실의 조건과 자실체의 생육조사를 실시하였으며 그 결과를 소개하고자 한다. A농가의 경우 온도는 약 17 ̊ C에서 발이시키고 자실체 생육기에는 약 16도로 관리하였다. 습도는 초기 95%로 유지하다가 초발이 이후에는 가습을 하지 않는 경향이었다. CO2 관리는 센서도 없었으며 갓과 대의 모양을 보면서 관행적으로 환기하고 있었고 700 ppm에서 최고 2,500 ppm까지 유지하는 경향이었다. 이 농가의 자실체 품질은 평균 개체중 125g, 대굵기 53 mm, 대길이/대굵기 비율은 1.8, 갓직경/대굵기 1.25 수준으로 A등급(특품)~B등급(상품) 사이에 해당하였다. B농가의 경우는 온도는 약 19~17 ̊C에서 발이시키고 자실체 생육기에는 약 17 ̊C로 관리하였고 생육후기에는 13~15 ̊C였다. 습도는 83~95% 로 육안관찰하면서 관행적으로 조절하는 경향이었다. CO2 관리는 센서는 있었으나 제어는 하지 않았고 갓과 대의 모양을 보면서 관행적으로 환기하고 있었고 640 ppm에서 최고 4,500 ppm까지 유지하는 경향이었다. 이 농가의 자실체 형태는 평균 개체중 102 g, 대굵기 48 mm, 대 길이/대굵기 비율은 2.2, 갓직경/대굵기 1.2 수준이었다. 이러한 결과는 환경조건 특히 CO2 농도에 따라 큰느타리 버섯의 품질이 결정됨을 알 수 있었으며 A농가의 환경조절 방법을 개선하면서 DB화하면 정밀한 스마트팜 모델로 적용할 수 있을 것으로 기대된다.
We assessed the growth characteristics of Auricularia polytricha ‘Geoni’ cultivated in a simple greenhouse constructed of polyethylene (PE) without air conditioning (high temperature) and in an air conditioned mushroomhouse. The successful cultivation of A. polytricha ‘Geoni’ at high temperatures can reduce energy and facility investment costs. The comparison of growth characteristics of the fungi grown under the different temperature conditions revealed that fruit bodies were larger in the higher temperature condition, but were brighter in the lower temperature condition. Additionally, fruit body physiology was found to be not affected by temperature. In the PE greenhouse, the fresh weight of fruit body was higher in mid-June and early July. Therefore, it was possible to effectively control the growth period of the mushrooms during a high-temperature period. The findings indicate the potential to cultivate A. polytricha ‘Geoni’in a simple PE greenhouse that is not cooled in summer, thus reducing energy costs.
‘용아’는 목이버섯 국내 수집 자원인 JNM21008과 JNM21013의 단포자 교배를 통해 2014년 전남농업기술 원에서 육성한 품종이다. 2011년부터 2014년까지 자실체 특성 및 생산력 검정을 실시하였으며, 그 결과 2014년 갓 모양은 파도형으로 진한 흑갈색이며 연락맥은 갈회색을 띤 흑목이버섯을 최종 선발하였으며 2015년 품종보호출원, 2018년 품종보호등록하였다(제169호). ‘용아’의 재배적 특성과 수량성은 다음과 같다. 배양기간은 대조품종보다 더 빠르며 초발이 소요일수 또한 10일로 대조품종보다 5일 정도 빨랐다. 톱밥 봉지재배 시 자실체 특성으로 갓색은 대조품종보다 더 진한 흑갈색이었으며 유효경수는 13개/0.9 kg로 많았고 갓 장경 9.7 cm, 단경 5.6 cm로 갓 크기는 큰 경향이었다. 배양기간은 20℃에서 약 40일이며 발이 및 생육기간은 24일로 기존 품종보다 더 짧은 편이며 수량은 0.9 kg 봉당 291 g이었다. 교배모본과 대치선이 형성되었으며 모균주와 구별성을 보였다.
Auricularia polytricha has strong decomposition ability on wood fiber and a wide range of temperature adaptation as mid-high temperature mushroom. In addition, Auricularia polytricha does not require light in the mycelial growth period, but it is cultivated in the field because the light promotes the differentiation of fruiting bodies and affects the pigment formation. This study was conducted to investigate the possibility of the cultivation of Auricularia polytricha (Mont.) Sacc. "Geoni" which was bred at Jeonnam Agricultural Research Institute in 2012 at a simple-typed PE film mushroom house, and to compare the quality characteristics of the Auricularia polytricha (Mont.) Sacc. "Geoni" cultivated at air-conditioned mushroom house. Auricularia polytricha (Mont.) Sacc. "Geoni" was cultivated with sawdust-based media (0.9 kg) every 3 days from June 15 to July 13 at air-conditioned mushroom house and PE film mushroom house, and harvested until July 26th. The temperature and the humidity of the air-conditioned mushroom house was maintained at 23°C and 90-9 %. The Irrigation was conducted 1 time per day and 2 to 3 times per day at air-conditioned mushroom house and PE film mushroom house respectively. The harvesting period were the same for each treatment. The fruiting body was 6.0 ㎝ and 5.1 ㎝ in major axis and 4.6 ㎝ and 4.0 ㎝ in minor axis at PE film mushroom house and air-conditioned mushroom house respectively, as a result the size of the fruiting body grown at PE film mushroom house tended to be larger. The thickness of fruiting body was 0.85㎜ and 1.24㎜ at PE film mushroom house and air-conditioned mushroom house respectively. These results are considered to be due to the difference in the humidity control conditions between each treatment. The number of fruiting bodies per bag was 4.3 at PE film mushroom house and more tendency than 3.7 at air-conditioned mushroom house. The springiness of the fruiting body was 1.23 ± 0.21 and 1.01 ± 0.17. the chewiness was 620 ± 89 and 507 ± 128, and the resilience was 0.49 ± 0.03 and 0.35 ± 0.07 at PE film mushroom house and air-conditioned mushroom house respectively. As a whole, it was judged that the physical properties of the fruiting body grown at PE film mushroom house were excellent. Also, when comparing the chromaticity of fruiting body, L(lightness)-a(red color)-b(yellow color) value was 30-5.5-3.9 and 39-6.5-7.5 at PE film mushroom house and air-conditioned mushroom house respectively. The yields did not show differentiated tendency by cultivation time. However, the weight of fruiting body per bag was 308g and 252g at PE film mushroom house and air-conditioned mushroom house respectively. Therefore, according to these result, Auricularia polytricha (Mont.) Sacc. "Geoni" was judged to be a suitable cultivar at PE film mushroom house for summer.
A. auricular-judae cultivars, ‘Yong-a’ was cultivated in JARES on 2015. Ear mushroom have been consumed the form of dried mushrooms imported from china, but the production and consumption of domestic ear mushroom have been increasing recently. However, how the different drying methods affect the quality of domestic varieties is not clear. Therefore, we examined the effects of drying methods to improve the competitiveness of dried ear mushrooms using domestic cultivar, ‘Yong-a’. Ear mushroom samples were dried using sun-drying and hot air drying(50, 60°C) and combined of two methods(hot air drying at 50, 60°C after 3,6 and 9 hours sun drying) and drying time, rehydration ratio, color and hardness, vitamin D2 contents were evaluated. Drying time was the fastest at 60°C hot air drying(11.5h) and the slowest at 50°C hot air drying(16h) and drying time was shorter as the sun drying time was longer. The rehydration ratio was the highest at 60°C hot air drying(18.6%) and increased as the drying time decreased. After drying and rehydration, the color showed no significant difference between drying methods. The hardness of rehydrated mushroom was highest at sun drying and 60°C hot air drying. The contents of ergosterol were not significantly different by drying methods. However, vitamin D2 was lowest at 50 °C and 60°C hot air drying (4.22mg%, 3.87mg%) and highest at sun drying and 50°C hot air drying after 6 hours sun drying (12.52mg%, 12.99mg%). vitamin D2 contents was higher at 50°C hot air drying than 60°C. According to the results of color, hardness, vitamin D2 contents of dried ear mushroom, sun drying is the best method. When the sun drying is not possible, hot air drying at 60°C is suitable, but it is better to use sun drying method to increase the vitamin D2 contents.
Geoni, a new variety of Auricularia polytricha, was bred in JARES(Jeollanamdo Agricultural Research and Extension Services) in 2012. Geoni was selected through the monospore hybridization with JNM21008 and JNM21014 in 2010. Based on a performance test conducted from 2011 to 2012, the Geoni was selected from a line showing an excellent light brown pileus and strong pest resistance. Geoni has a favorable chewiness, light brown and smooth pileus. In addition, Geoni was rich in dietary fiber. MCM(mushroom complete medium), Malt and PDA(Potato Dextrose Agar) mediums were suitable for cultivating the Geoni. The number of effective stipes was 39 ea/0.9 kg and minor axis and major axis of pileus were 6.9 cm and 8.7 cm respectively. The yield of Geoni was 291 g/0.9 kg in plastic bag. Geoni was required 40~54 days for culture at 20oC and 24days for the primordia and growth period, which is longer than that of the control(Pung-un). Somatic incompatibility was formed between parental strains and Geoni. Analysis of the genetic diversity of the new variety "Geoni”revealed a different profile from the parental strains when RAPD(random Amplified Polymorphic DNA) primers were used.