Environmental Effects on Assimilated Carbon Quantity and Quality in Two Different Wet Grassland Plants

IF 1.8 4区环境科学与生态学 Q3 ECOLOGY

Wetlands Pub Date : 2024-09-06 DOI:10.1007/s13157-024-01853-0

Bernhard Glocker, Jirí Mastný, Tomaš Picek, Keith R. Edwards

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Abstract

Wetlands are important ecosystems for mitigating climate change impacts on the environment and society. Most studies focus on how single environmental factors affect those ecosystems, although several environmental factors may change simultaneously. This study focused on nutrient – water level interaction effects on two different but associated wet grassland species Carex acuta and Glyceria maxima. Biomass allocation and root exudates were measured in a full-factorial mesocosm experiment. Species identity and water level mostly determined total alive biomass and the biomass allocation pattern. Root weight ratio generally increased in C. acuta whereas increased rhizome biomass was associated with G. maxima. Furthermore, increased water levels increased relative aboveground biomass allocation with C. acuta having more leaf and G. maxima having more stem biomass. Surprisingly, fertilisation had little impact on total biomass, but decreased relative biomass allocation to the roots and also strongly suppressed root exudation. There is an apparent nutrient dependent shift in the realised hydrological niche of both plants towards drier conditions. C. acuta behaves similar under all water levels without fertilisation, but thrives best under dry conditions when fertilised. Without fertilisation, G. maxima thrives best under flooded conditions (water level ~ 15 cm above soil surface), but does equally well in saturated water conditions (water level ~ soil surface) when fertilised.

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环境对两种不同湿草地植物同化碳数量和质量的影响

湿地是减轻气候变化对环境和社会影响的重要生态系统。大多数研究侧重于单一环境因素如何影响这些生态系统，尽管多个环境因素可能同时发生变化。本研究侧重于养分-水位相互作用对两种不同但相关联的湿草地物种 Carex acuta 和 Glyceria maxima 的影响。生物量分配和根系渗出物是在全因子中观实验中测量的。物种特征和水位在很大程度上决定了总的存活生物量和生物量分配模式。C. acuta 的根重比普遍增加，而 G. maxima 的根茎生物量增加。此外，水位升高会增加相对地上生物量分配，C. acuta 的叶片生物量增加，而 G. maxima 的茎生物量增加。令人惊讶的是，施肥对总生物量的影响很小，但却减少了根部的相对生物量分配，而且还强烈抑制了根的渗出。这两种植物的实际水文生态位明显依赖养分，向更干旱的条件转变。在不施肥的情况下，C. acuta 在所有水位条件下的表现相似，但施肥后在干旱条件下生长得最好。在不施肥的情况下，G. maxima 在淹水条件下（水位约高出土壤表面 15 厘米）生长最好，但施肥后在饱和水位条件下（水位约高出土壤表面）同样生长良好。

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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来源期刊

Wetlands 环境科学-环境科学

CiteScore

4.00

自引率

10.00%

发文量

108

审稿时长

4.0 months

期刊介绍： Wetlands is an international journal concerned with all aspects of wetlands biology, ecology, hydrology, water chemistry, soil and sediment characteristics, management, and laws and regulations. The journal is published 6 times per year, with the goal of centralizing the publication of pioneering wetlands work that has otherwise been spread among a myriad of journals. Since wetlands research usually requires an interdisciplinary approach, the journal in not limited to specific disciplines but seeks manuscripts reporting research results from all relevant disciplines. Manuscripts focusing on management topics and regulatory considerations relevant to wetlands are also suitable. Submissions may be in the form of articles or short notes. Timely review articles will also be considered, but the subject and content should be discussed with the Editor-in-Chief (NDSU.wetlands.editor@ndsu.edu) prior to submission. All papers published in Wetlands are reviewed by two qualified peers, an Associate Editor, and the Editor-in-Chief prior to acceptance and publication. All papers must present new information, must be factual and original, and must not have been published elsewhere.