Microb Ecol. 2014 Feb;67(2):327-40. doi: 10.1007/s00248-013-0317-x.
Members of the green algal genus Klebsormidium (Klebsormidiales, Streptophyta) are typical components of biological soil crust communities worldwide, which exert important ecological functions. Klebsormidium fluitans (F. Gay) Lokhorst was isolated from an aeroterrestrial biofilm as well as from four different biological soil crusts along an elevational gradient between 600 and 2350 m in the Tyrolean and South Tyrolean Alps (Austria, Italy), which are characterised by seasonally high solar radiation. Since the UVtolerance of Klebsormidium has not been studied in detail, an ecophysiological and biochemical study was applied. The effects of controlled artificial ultraviolet radiation (UVR; <9 W m(-2) UV-A, <0.5 W m(-2) UV-B) on growth, photosynthetic performance and the capability to synthesise mycosporine-like amino acids (MAAs) as potential sunscreen compounds were comparatively investigated to evaluate physiological plasticity and possible ecotypic differentiation within this Klebsormidium species. Already under control conditions, the isolates showed significantly different growth rates ranging from 0.42 to 0.74 μm day(-1). The UVR effects on growth were isolate specific, with only two strains affected by the UV treatments. Although all photosynthetic and respiratory data indicated strain-specific differences under control conditions, UV-A and UV-B treatment led only to rather minor effects. All physiological results clearly point to a high UV tolerance in the K. fluitans strains studied, which can be explained by their biochemical capability to synthesize and accumulate a putative MAA after exposure to UV-A and UV-B. Using HPLC, a UV-absorbing compound with an absorption maximum at 324 nm could be identified in all strains. The steady-state concentrations of this Klebsormidium MAA under control conditions ranged from 0.09 to 0.93 mg g(-1) dry weight (DW). While UV-A led to a slight stimulation of MAA accumulation, exposure to UV-B was accompanied by a strong but strain-specific increase of this compound (5.34-12.02 mg(-1) DW), thus supporting its function as UV sunscreen. Although ecotypic differences in the UVR response patterns of the five K. fluitans strains occurred, this did not correlate with the altitude of the respective sampling location. All data indicate a generally high UV tolerance which surely contributes to the aeroterrestrial lifestyle of K. fluitans in soil crusts of the alpine regions of the European Alps.
绿藻门胶毛藻属(胶毛藻目,木贼纲)的成员是全球生物土壤结皮群落的典型组成部分,它们发挥着重要的生态功能。弗氏胶毛藻(F. Gay)Lokhorst 从气生生物膜以及海拔 600 至 2350 米之间的提洛尔和南提洛尔阿尔卑斯山脉(奥地利、意大利)的四个不同生物土壤结皮中分离出来,这些地区的特点是季节性太阳辐射高。由于尚未详细研究胶毛藻的 UV 耐受性,因此进行了一项生理生态和生化研究。比较研究了受控人工紫外线辐射(UVR;<9 W m(-2) UV-A,<0.5 W m(-2) UV-B)对生长、光合作用性能以及作为潜在防晒化合物的菌酸(MAAs)合成能力的影响,以评估该胶毛藻种内的生理可塑性和可能的生态型分化。在对照条件下,分离株的生长速度就已经表现出明显的差异,范围从 0.42 至 0.74 μm day(-1)。UVR 对生长的影响因分离株而异,只有两个分离株受到 UV 处理的影响。尽管所有光合作用和呼吸数据在对照条件下均表明存在菌株特异性差异,但 UV-A 和 UV-B 处理仅导致相对较小的影响。所有生理结果清楚地表明,所研究的弗氏胶毛藻菌株具有很高的 UV 耐受性,这可以通过它们在暴露于 UV-A 和 UV-B 后合成和积累潜在的 MAAs 的生化能力来解释。使用 HPLC 可在所有菌株中鉴定出在 324nm 处具有最大吸收值的吸收紫外线化合物。在对照条件下,该胶毛藻 MAAs 的稳态浓度范围为 0.09 至 0.93mg g(-1)干重(DW)。虽然 UV-A 导致 MAAs 积累略有刺激,但暴露于 UV-B 会导致该化合物强烈但菌株特异性增加(5.34-12.02mg(-1)DW),从而支持其作为 UV 防晒霜的功能。尽管五个弗氏胶毛藻菌株的 UVR 响应模式存在生态型差异,但这与各自采样位置的海拔高度无关。所有数据均表明该种具有普遍较高的 UV 耐受性,这肯定有助于弗氏胶毛藻在欧洲阿尔卑斯山高山地区土壤结皮中的气生生活方式。
