• 제목/요약/키워드: Spore discharge

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Effects of Light, Desiccation and Salinity for the Spore Discharge of Gracilaria verrucosa (Rhodophyta) in Korea

  • Kim Young Sik;Choi Han Gil;Nam Ki Wan
    • Fisheries and Aquatic Sciences
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    • 제4권4호
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    • pp.257-260
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    • 2001
  • The effects of light, desiccation and salinity on the discharge of spores in Korean agarophyte, Gracilaria verrucosa were studied. Among the examined factors, light after darkness was the most effective for spore discharge. The maximum release of tetraspores was induced at 24 h after the treatment. Desiccation also seems to be conductive to the release of tetraspores. However, its effect, as in treatment of distilled water for salinity, was hardly found in induction of carpospore discharge. This may suggest that spore discharge in this alga is primarily related with photoperiodic rhythm. Also it appears that the amount of light energy received by fertile thalli also significantly affects to the spore release, considering relationship between the amount of the discharged spores and the elapsed time after treatment.

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수종(數種)의 목재부식성(木材腐蝕性) 담자균류(擔子菌類)의 포자생산성(胞子生産性)에 침수(侵水)가 미치는 영향(影響) (Effects of Water Logging on Spore Productivity of Selected Lignicolous Basidiomycetes)

  • J.A. 오쿠오야;R. 하비
    • 한국균학회지
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    • 제14권3호
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    • pp.231-235
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    • 1986
  • 몇가지 목재부식성(木材腐蝕性) 담자균류(擔子菌類)의 포자(胞子)를 시간별로 수중(水中)에 담그는 방법(方法)을 사용하여 포자(布子)를 발아(發芽)시켜본 결과(結果) 한가지 균주에서 포자 발아가 억제 되었다. 침수시간(浸水時間)을 증가시킬수록 포자 발아가 증가(增加)된 균주는 5종(種)이었으며 포자발아가 전혀 일어나지 않는 균주는 1종(種)이었다. 이것은 포자(布子)의 원래 성질(性質) 및 항상성(恒常性)과 관계가 깊었다. 모든 시험균주는 침수(侵水) 직후(直後)가 최대(最大) 수분(水分) 흡수율(吸水率)을 나타내었으며 침수시간이 경과할수록 수분 흡수율은 저하하였다. 포자의 탈수속도(說水速度)를 비교한 결과, 2종(種)의 포자는 신속히 수분을 상실하였으나, 3(種)의 포자는 완만히 수분을 상실하였다. 즉 부피가 크고 단단한 포자보다 작으면서 섬세한 포자의 탈수속도(脫水速度)가 컸다.

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자실층표면(子實層表面)에서 포자(胞子) 이탈(離脫)양상 (Pattern of Spore Discharge Over Hymenial Surfaces)

  • Okhuoya, J.A.
    • 한국균학회지
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    • 제16권2호
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    • pp.57-59
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    • 1988
  • Considerable variations in spore productivity were detected within the area of single hymenial surfaces of certain polypores. The hymenium has in irregular patterns, areas of low as well as high spore production, common both in the periphery(young) as well as in the inner(old)part. These have been recorded as isospore diagrams showing that the basidia all over the hymenia are at different stages of development.

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사과나무 갈색무늬병의 발생생태 (Ecology of Marssonina Blotch Caused by Diplocarpon mali on Apple Tree in Kyungpook, Korea)

  • 김동아;이순원;이준탁
    • Current Research on Agriculture and Life Sciences
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    • 제16권
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    • pp.84-95
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    • 1998
  • 1960년대까지 우리나라 전역에 걸쳐 발생하여 큰 피해를 초래했던 사과나무 갈색무늬병은 후지 등의 새로운 사과 품종 도입과 농약의 개발로 크게 문제되지 않았으나, 최근 1990년대에 들어서면서 후지 등의 신품종에도 발병되기 시작하여 농약 관행방제 과수원에서도 조기낙엽 등의 큰 피해를 일으키고 있다. 1992년부터 1995년까지 경북지역 사과주산지를 중심으로 갈색무늬병의 발생상황과 포자비산상황 등 발생생태와 기상, 재배품종, 재배관리 및 방제방법 등에 따른 갈색무늬병의 다발생요인을 조사하여 분석한 결과, 갈색무늬병은 6월부터 발생하기 시작하여 8월이후 대부분의 과수원에서 발생하였고, 9월이후에는 발병율이 급격히 증가하였으며, 기온이 낮고 강우량이 많은 해에 발생이 많았다. 병원균의 포자비산은 5월부터 시작되어 10월까지 계속되었고, 8월에 최고의 peak를 나타내었으며, 연도에 따른 차이는 있으나 대체로 8~9월에 전체 포자비산량의 70% 이상이 비산되었는데 강우가 많을 때 비산량이 많은 것으로 나타났다. 경북지역에 있어서 북부 산간지역인 영주, 청송, 안동에서 대체로 갈색무늬병의 발생이 많았고, 남부지역인 군위와 영천에서는 상대적으로 발병이 낮았다. 재배품종별로는 홍옥에서 발생이 가장 많았고, 조나골드과 세계일은 중간 정도이며, 다음으로 주품종인 후지, 쓰가루 순이었다. 갈색무늬병은 관수와 배수가 불량하고 밀식으로 투광, 통풍이 잘 되지 않으며, 시비관리가 제대로 되지 않는 등 전반적으로 재배관리상태가 나쁜 과수원에서 발생이 많았으며, 방제에 있어서는 약제살포량이 적고, 약제살포간격이 길어 방제가 소홀한 과수원에서 발생이 많은 것으로 나타났다.

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한국산 양식김의 종류 (SPECIES OF CULTIVATED PORPHYRA IN KOREA)

  • 강제원
    • 한국수산과학회지
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    • 제3권2호
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    • pp.77-92
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    • 1970
  • Ueda, in the course of his systematic work on the lavers, Porphyra, in Japan and Korea in 1932, mentioned that most of the cultivated Porphyra belong to Porphyra tenera Kjellman. Then he, dividing the species into two forms, f. typica and f. kjellmani, put Korean cultivated Porphyra under the latter. From the 1930s to the early 1940s, Fujikawa, Kaneko and others worked on Physiological experiments or cultivational experiments of Porphyra in the culture-bed, but there was no mention about the cultivated Porphyra species. However, many fishermen generally recognize that the characteristics of cultivated Porphyra vary depending on their habitat or the picking season, and it is considered that these differences are due to the varieties of the species which are well adaptable to various environments. Recently, I have become aware of the predominant occurrence of P. yezoensis Ueda in most culture-beds of Korea as in the Tokyo Bay or other places in Japan. At present, since artificial seeding for the cultivation of Porphyra with Conchocelis has been carried out and peculiar species can be cultured, a study of the species of cultivated Porphyra has become an important subject. I collected the specimens from a number of culture-beds which are located in the legions shown in fig. 1 from January, 1968 to May, 1970 and found that there are five species, P. tenera Kjellman, P. yezoensis Ueda, P. kuniedai Kurogi, P. seriata Kjellman and P. suborbiculata Kjellman. Among them, P. kuniedai was treated as a round-type, a form of P. tenera, by Kunieda (1939) and Tanaka (1952) and the occurrence of this form is generally recognized by most fishermen. At present, as mentioned above, the most dominant species of cultivated Porphyra is P. yezoensis but the cultivation of P. tenera is restricted to certain culture-beds or the early half of the cultivation period. P. kunieda appears as a mixed species throughout most of the culture-beds, particulary in the later half of the period, while when it was picked in January it appeared dominantly in a place such as Gum-Dang where the 'Bal', splitted bamboo piece mat, was settled during the last of September. This is the first seeding process. The latter two species, P. suborbiculata and P. seriata appear frequently but in small amounts in the later half of the period particulary in the western region of the southern coast. However, it can not be ascertained when P. yezoensis becomes predominant, because specimens have not been available up until recent years but the process can be described as follows: We commonly recognize the ecological characteristics of P. tenera as follows; First, the conchospores of the species develop earlier and the period of its discharge is shorter than those of P. yezoensis; second, the microscopical buds discharge neutral spores which develop into new buds directly and buds develop repeatedly through a short period. Consequently, according to such above ecological characteristics, the species can grow thick on the 'Bal' exclusively. However, buds may disappear when they are harmed by disease such a 'infection by certain parasites or by other unusual environmental conditions. Thus P. yezoensis are enabled to grow on the 'Bal' instead of the former species since they not only develop later than the former but also macroscopical fronds discharge the neutral spore throughout the period from October to May. Likewise, if any disease appears in the culture-bed ill the later half of the period, the former is more severely damaged than the latter because the former have less resistance to the disease than the latter. Thus fewer frond survive and fewer carpospores which are the origin of the next generation can be discharged. However the latter by their nature can continue growing until early summer. In the case of the culture-bed where the above phenomenon occurs repeatedly P. yezoensis gradually may become the dominant species among cultivated Porphyra. In support of the validity of this process we find that according to the description and the plate of Wada (1941), P. tenera, P. yezoensis and P. kuniedai grow together in the culture-bed at the mouth of the Nakdong River where P. yezoensis occurs predominantly and mixed with P. kuniedai.

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