Age and site-specific pattern on encrustation of charophytes.

IF 4.1 3区 生物学 Q1 PLANT SCIENCES Botanical Studies Pub Date : 2018-12-19 DOI:10.1186/s40529-018-0247-5
Anne Herbst, Hendrik Schubert
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引用次数: 2

Abstract

Encrustation and element content (Ca, Fe, K, Mg and P) of charophytes was studied along plant thalli to investigate the dependency of thallus age and site-specificity. Charophytes were collected from five sampling sites (Angersdorfer Teiche, Asche, Bruchwiesen, Krüselinsee and Lützlower See) which were distinct with respect to water chemistry. Furthermore, photosynthesis was measured to identify the physiological state of plants in habitat waters and with the addition of different ion concentrations (Ca2+, K+, Mg2+ and Na+). Age pattern on encrustation of charophytes was site-specific: carbonate content increased from the youngest to the oldest part (Angersdorfer Teiche), younger parts were less encrusted than older parts in Asche, Bruchwiesen and Krüselinsee, whereas encrustation in Lützlower See was the same along plants thallus. Charophytes showed species-specific encrustation in investigated sites. Encrustation of C. hispida in Angersdorfer Teiche was also as high as of individuals from hard-water lakes irrespective of 10.15 mS cm-1 (salinity of 6.3). For species growing in Angersdorfer Teiche, K/Na content and photosynthesis was lowest when compared to other sites. Photosynthesis of charophytes was enhanced after the addition of KCl and adversely affected by CaCl2, MgCl2 and NaCl. In summary, it was shown that encrustation of charophytes in water sites with strong ion anomalies could be as high as in hard-water lakes. It is assumed that ion composition, rather than ion concentration of Na+, Mg2+ and SO42-, impact on the encrustation of charophytes. The age pattern on encrustation in this study showed a strong site-specificity, whereas encrustation of charophytes was species-specific. Ion concentrations, either of habitats or actively added in laboratory measurements, impact on encrustation, element content and photosynthesis of charophytes.

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叶绿植物结壳的年龄和地点特征。
以植物为研究对象,研究了叶绿体的结壳和元素(Ca、Fe、K、Mg和P)含量与菌龄和位点特异性的关系。从五个取样点(Angersdorfer Teiche、Asche、Bruchwiesen、kr selinsee和l tzlower See)收集到的苔藓植物在水化学方面具有明显的差异。此外,通过测定光合作用来确定植物在栖息地水域和不同离子浓度(Ca2+、K+、Mg2+和Na+)下的生理状态。叶绿植物结壳的年龄分布具有地点特征:碳酸盐含量从最年轻到最古老(Angersdorfer Teiche), Asche、Bruchwiesen和kr selinsee的年轻部分比年老部分结壳少,而l tzlower See的结壳沿植物的菌体方向相同。在所调查的地点,叶绿植物显示出物种特有的结壳。在10.15 mS cm-1(盐度为6.3)条件下,Angersdorfer Teiche地区的C. hispida结壳率与硬水湖泊相同。在Angersdorfer Teiche生长的物种K/Na含量和光合作用均低于其他地点。添加KCl后,绿叶植物的光合作用增强,CaCl2、MgCl2和NaCl对光合作用有不利影响。综上所述,在具有强离子异常的水体中,叶绿植物的结壳率可能与硬水湖泊一样高。假设是离子组成,而不是Na+, Mg2+和SO42-离子浓度,影响了叶绿素的结壳。本研究的结壳年龄模式显示出很强的位点特异性,而蕨类的结壳具有种特异性。生境或实验室测量中主动添加的离子浓度对蕨类植物的结壳、元素含量和光合作用有影响。
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来源期刊
Botanical Studies
Botanical Studies PLANT SCIENCES-
CiteScore
4.80
自引率
2.90%
发文量
32
审稿时长
13 weeks
期刊介绍: Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.
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