Effect of Sodium Chloride (NaCl) on the Mycelial Growth and Ascospore Germination of Rhizina undulata, the Root Rot Fungus of Coniferous Trees

Journal of forest and environmental science Pub Date : 2015-11-30 DOI:10.7747/JFES.2015.31.4.312

Sun Keun Lee, Dong-Hyeon Lee, Kyoung-Tae Lee, Y. Park, S. Seo, J. Lee

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引用次数: 1

Abstract

Rhizina undulata, the causal agent of Rhizina root rot, is a soil-borne fungus occurring on coniferous trees. The destruction of coastal forests caused by R. undulata infection has been mainly associated with bonfires at camping sites. However, Rhizina root rot was observed in the western coastal forests without fire. It was hypothesized that Rhizina root rot in this area might be closely related to the soil salinity, which can facilitate the growth and survival of R. undulata. So, the variation in sodium chloride (NaCl) resistance among isolates of Rhizina undulata was compared using liquid media containing different concentrations of NaCl ranging from 0 mM to 300 mM. Our results showed that, albeit of no growth at a higher concentration of NaCl (300 mM), most of R. undulata isolates were capable of germinating and grew at up to 100 mM, indicating that NaCl resistance varies among R. undulata isolates. It was further found that isolates from coastal areas seemed to be more tolerant to NaCl than those further away the coast. We demonstrated that R. undulata could be possible to survive in coastal areas, but was lower NaCl tolerance than other fungi.

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氯化钠(NaCl)对针叶树根腐菌波曲菌菌丝生长和子囊孢子萌发的影响

波状根霉是一种发生在针叶树上的土传真菌，是引起根腐病的病原。波状霉感染对沿海森林的破坏主要与露营地的篝火有关。但在西部沿海无火森林中，发现了根腐病。推测该地区的根腐病可能与土壤盐度密切相关，土壤盐度有利于波曲蒿的生长和存活。在NaCl浓度为0 ~ 300 mM的液体培养基中，比较了波曲霉菌株对氯化钠(NaCl)抗性的变化。结果表明，在较高的NaCl浓度(300 mM)下，虽然没有生长，但大部分波曲霉菌株在100 mM的NaCl浓度下仍能萌发和生长，说明波曲霉菌株对NaCl的抗性存在差异。进一步发现，沿海地区的分离株对NaCl的耐受性似乎比远离海岸的分离株更强。结果表明，波曲霉可以在沿海地区生存，但耐盐性较差。

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Journal of forest and environmental science

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