Lobelia Lakes’ Vegetation and Its Photosynthesis Pathways Concerning Water Parameters and the Stable Carbon Isotopic Composition of Plants’ Organic Matter

Plants Pub Date : 2024-09-09 DOI:10.3390/plants13172529

Eugeniusz Pronin, Krzysztof Banaś, Rafał Chmara, Rafał Ronowski, Marek Merdalski, Anne-Lise Santoni, Olivier Mathieu

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Abstract

Most of the aquatic vegetation produces organic substances via the C3 photosynthetic pathway (mosses, isoetids—Lobelia dortmanna L., Luronium natans (L.) Raf., and vascular plants) or Crassulacean acid metabolism (CAM, e.g., Littorella uniflora (L.) Asch. and Isoëtes lacustris L.) or by their ability to use HCO3− via carbon concentration mechanisms (CCMs—some elodeids and charophytes). Differentiating these predominant photosynthetic pathways in aquatic vegetation based on their organic matter (OM) carbon stable isotopes (δ13CORG) is a complex task, in contrast to terrestrial plants. This study investigates the OM deposition, characterized by δ13CORG values in 10 macrophyte species with different photosynthetic pathways (C3, CAM, and CCM) collected from 14 softwater Lobelia lakes in northern Poland. The higher δ13CORG values distinguish the CCM group, indicating their use of 13C-enriched HCO3¯ in photosynthesis. CAM species show slightly higher δ13CORG values than C3, particularly in lower pH lakes. Principal component analysis of isotopic and environmental data did not yield clear distinctions by the groups, but still, they significantly differ in light of analyzed parameters and isotopic signals (PRMANOVA = 5.08, p < 0.01; K-W H = 27.01, p < 0.001). The first two PCA dimensions showed that the water pH and Ca2+ concentration positively influenced δ13C values. The influence of light conditions on δ13CORG values revealed by third PCA components seems to also be important. In summary, northern Polish Lobelia lakes serve as a key differentiation point between vegetation employing CCMs and those relying on C3/CAM photosynthesis without HCO3− utilization, providing insights into transitions in plant communities within these ecosystems.

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龙舌兰湖植被及其光合作用途径与水参数和植物有机物的稳定碳同位素组成的关系

大多数水生植被通过 C3 光合途径（苔藓、等叶植物--Lobelia dortmanna L.、Luronium natans (L.) Raf.和维管束植物）或藻酸代谢（CAM，例如 Littorella uniflora (L.) Asch.和 Isoëtes lacustris L.），或通过碳浓缩机制（CCM--一些纤毛植物和叶绿藻）利用 HCO3- 的能力产生有机物质。与陆生植物相比，根据水生植被的有机质（OM）碳稳定同位素（δ13CORG）来区分这些主要的光合作用途径是一项复杂的任务。本研究调查了从波兰北部 14 个软水龙须菜湖中采集的 10 种具有不同光合作用途径（C3、CAM 和 CCM）的大型水生植物的有机质沉积情况，这些物种的有机质沉积以 δ13CORG 值为特征。较高的δ13CORG 值区分了 CCM 组，表明它们在光合作用中使用富含 13C 的 HCO3'。CAM 物种的 δ13CORG 值略高于 C3 物种，尤其是在 pH 值较低的湖泊中。对同位素和环境数据进行主成分分析后，各组之间的差异并不明显，但从分析参数和同位素信号来看，它们仍有显著差异（PRMANOVA = 5.08，p < 0.01；K-W H = 27.01，p < 0.001）。前两个 PCA 维度表明，水的 pH 值和 Ca2+ 浓度对δ13C 值有正向影响。第三个 PCA 分量显示，光照条件对 δ13CORG 值的影响似乎也很重要。总之，波兰北部的龙柏湖是采用 CCM 的植被与依靠 C3/CAM 光合作用但不利用 HCO3- 的植被之间的关键分界点，为了解这些生态系统中植物群落的转变提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plants

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