Extracellular Enzyme Activity and Stoichiometry Across Vegetated and Non-Vegetated Coastal Ecosystems

IF 1.8 4区 环境科学与生态学 Q3 ECOLOGY Wetlands Pub Date : 2024-06-03 DOI:10.1007/s13157-024-01824-5
Mengjie Wei, Carolyn J. Lundquist, Luitgard Schwendenmann
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Abstract

The conversion of organic matter by extracellular enzymes can reveal important insights into carbon and nutrient cycling. The activity and stoichiometry of hydrolytic extracellular enzymes were investigated to assess the effects of vegetation cover and sediment characteristics on microbial-enzyme-mediated decomposition in coastal ecosystems. Extracellular enzyme activity (EEA) was quantified across transects extending from mangrove to tidal flat habitats in two New Zealand coastal ecosystems that differ in mud content (sandy: Hobson Bay, muddy: Snells Beach). We determined the activity of five key hydrolyzing enzymes: β-glucosidase (hydrolyzes cellulose to glucose); β-N-acetylglucosaminidase (catalyzes the terminal reaction in chitin degradation); alkaline phosphatase (releases soluble inorganic phosphate groups from organophosphates); β-D-cellobiohydrolase (hydrolyzes cellulose to generate cellobiose); and β-xylosidase (catalyzes hemicellulose). All enzymes involved in C acquisition and in N and P cycling had higher activity at the muddy site. No habitat differences in EEA were observed at the sandy site, whereas EEA was lower in the non-vegetated habitats for some enzymes at the muddy site. Models of microbial metabolic limitations highlighted that most habitats at both muddy and sandy sites were predominately C and P limited. The EEA in these coastal wetlands was generally lower than has been reported for other terrestrial, freshwater, and estuarine ecosystems, with values often one to two orders of magnitude lower than other wetland studies. These results can be used to advance our understanding of the biogeochemical processes underpinning the response of coastal ecosystems to land-derived nutrient and sediment inputs.

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有植被和无植被沿海生态系统的胞外酶活性和化学计量法
细胞外酶对有机物的转化可以揭示碳和养分循环的重要信息。为了评估植被覆盖和沉积物特征对沿岸生态系统中微生物酶介导的分解作用的影响,对水解胞外酶的活性和化学计量进行了研究。在两个泥质含量不同的新西兰沿岸生态系统(沙质:霍布森湾;泥质:斯奈尔斯海滩)中,对从红树林到潮滩生境的横断面上的胞外酶活性(EEA)进行了量化。我们测定了五种关键水解酶的活性:β-葡萄糖苷酶(将纤维素水解为葡萄糖);β-N-乙酰葡糖苷酶(催化几丁质降解的末端反应);碱性磷酸酶(释放有机磷中的可溶性无机磷酸基团);β-D-纤维生物水解酶(水解纤维素生成纤维生物糖);以及β-木糖苷酶(催化半纤维素)。在泥地,所有参与碳获取和氮磷循环的酶的活性都较高。在沙地没有观察到 EEA 的生境差异,而在泥地,一些酶在非植被生境中的 EEA 较低。微生物代谢限制模型表明,泥质和沙质生境中的大多数酶主要受 C 和 P 的限制。这些沿岸湿地的 EEA 值普遍低于其它陆地、淡水和河口生态系统的 EEA 值,通常比其它湿地研究的 EEA 值低一到两个数量级。这些结果可用于加深我们对沿岸生态系统响应陆源营养盐和沉积物输入的生物地球 化学过程的理解。
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来源期刊
Wetlands
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.
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