• 제목/요약/키워드: Schoenoplectus triqueter

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고랭이류에서 분리한 내생균의 생물다양성 및 지리적 양상 (Geographical Patterns and Biodiversity of Endophytic Fungi Isolated from Scirpus L. s.l. in Korea)

  • 어주경;박은수
    • 한국균학회지
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    • 제47권1호
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    • pp.43-50
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    • 2019
  • 고랭이류의 숙주식물인 Bolboschoenus planiculmis와 Schoenoplectustriqueter에서 내생균을 조사하였다. 총 25개체의 숙주식물에서 85개의 내생균을 분리하였고, ITS 지역을 사용하여 동정한 결과 19개의 분류군을 확인하였다. 그 중 92%는 Dothideomycetes에 속하였고, 4.8%는 Sordariomyetes, 1.6%는 Agaricomycetes, 0.8%는 Eurotiomycetes에 속하였다. B. planiculmis에서 가장 많이 분리된 내생균은 Cladosporium perangustum이고 S. triqueter에서는 Macrospora scirpicola였다. 염생식물에서 내생균의 연구는 매우 드물며, 이전에 목본식물들을 대상으로 수행된 선행연구들과는 다른 내생균의 군집 구조를 확인하였다. 향후 본 연구결과는 내생균 의 생물다양성 연구에 매우 유용할 것으로 생각된다.

낙동강 하구 갯벌에 생육하는 세모고랭이(Schoenoplectus triqueter)의 생체량 및 탄소, 질소 함량의 계절 변화 (Seasonal biomass and carbon, nitrogen contents change of Schoenoplectus trigueter in Nakdong river estuary)

  • 안순모;이지영;정신재
    • 한국습지학회지
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    • 제8권3호
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    • pp.39-49
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    • 2006
  • Seasonal biomass and carbon, nitrogen contents change of marsh club-rush (Schoenoplectus trigueter) was investigated in Nakdong river estuary, located near Busan, Korea. New shoot of S. trigueter sprouted from tuber in April and fast growth season was followed until mature in August. Mature lengths of shoot and root were 60 and 9.4 cm, respectively. The increase of biomass showed similar seasonal trends with length. Mature biomass were $3.5gind^{-1}$ in wet weight and $0.6gind^{-1}$ in dry weight. The biomass of S. trigueter in areal basis was also highest during July and August ($186gDWm^{-2}$). The shoot of S. trigueter was disappeared in October from the ground but the biomass of shoot was maintained as a form of detritus in sediment. The amount of S. trigueter detritus was about 30~50% of the biomass in August. During winter, the amount of detritus decreased with time but the biomass of root+tuber remained same, implying the root+tuber part is alive. The net productivity of S. trigueter estimated from biomass change were $538gDWm^{-2}yr^{-1}$, $240g-Cm^{-2}yr^{-1}$, $8.2g-Nm^{-2}yr^{-1}$ in dry weight, carbon and nitrogen equivalent respectively. During winter, carbon to nitrogen ratio in detritus increased implying the preferred remineralization of nitrogen during microbial degradation.

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