Salinity and temperature affect growth rate of Alphamyces chaetifer and Gorgonomyces haynaldii (Chytridiomycota) isolated from coastal habitats of Taiwan

IF 1.6 4区生物学 Q2 MARINE & FRESHWATER BIOLOGY Botanica Marina Pub Date : 2023-06-20 DOI:10.1515/bot-2023-0011

Sheng-Yu Guo, E. Jones, M. Chiang, K. Pang

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Abstract

Abstract Salinity and temperature are two of the key environmental variables influencing the distribution of fungi. Results from the limited research available on the effects of salinity and temperature on growth and reproduction of chytrids were inconclusive. This study investigated the combined effects of salinity (0, 1, 2, 4, 8, 16, 32) and temperature (17, 24, 30 °C) on the growth rate of Alphamyces chaetifer (isolates IMB230, IMB231, IMB232) and Gorgonomyces haynaldii (IMB233, IMB237, IMB239) cultured from low-salinity water samples collected from coastal wetlands/ponds of eastern Taiwan. All isolates grew well at salinity 4 or below, irrespective of the incubation temperatures, although some grew significantly faster at 30 °C. No growth was observed at salinity 16 or 32. At or below 4, A. chaetifer IMB230 and IMB231, isolated from the same collection site where salinity was 2, produced the fastest growth rate at these salinities while G. haynaldii IMB237 and IMB239, isolated from water samples of zero salinity, had the slowest growth rate. These results agree with previous research that chytrids are sensitive to salinity, and may explain why only 27 culturable Chytridiomycota species and allied taxa have been documented from the marine environment.

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台湾沿海生境中的盐和温度对毛霉菌（Alphamyces chaetifer）和海纳氏毛霉菌（Gorgonomyces haynaldii）生长速率的影响

摘要盐度和温度是影响真菌分布的两个关键环境变量。关于盐度和温度对食糜生长和繁殖的影响的有限研究结果是不确定的。本研究调查了盐度（0、1、2、4、8、16、32）和温度（17、24、30）的综合影响 °C）对从台湾东部沿海湿地/池塘采集的低盐度水样中培养的αmyces chaetifer（分离株IMB230、IMB231、IMB232）和哈氏Gorgonomyces haynaldii（IMB233、IMB237、IMB239）的生长速率的影响。所有分离株在盐度4或更低的条件下生长良好，与培养温度无关，尽管有些分离株在30℃时生长明显更快 °C。在盐度为16或32时未观察到生长。在4或以下，从盐度为2的同一采集点分离的A.chaetifer IMB230和IMB231在这些盐度下产生了最快的生长速率，而从零盐度的水样分离的G.haynaldii IMB237和IMB239具有最慢的生长速率。这些结果与之前的研究一致，即壶菌对盐度敏感，这可能解释了为什么只有27种可培养的壶菌属物种及其相关类群在海洋环境中被记录在案。

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来源期刊

Botanica Marina 生物-海洋与淡水生物学

CiteScore

4.10

自引率

4.50%

发文量

期刊介绍： Botanica Marina publishes high-quality contributions from all of the disciplines of marine botany at all levels of biological organisation from subcellular to ecosystem: chemistry and applications, genomics, physiology and ecology, phylogeny and biogeography. Research involving global or interdisciplinary interest is especially welcome. Applied science papers are appreciated, particularly when they illustrate the application of emerging conceptual issues or promote developing technologies. The journal invites state-of-the art reviews dealing with recent developments in marine botany.