Soil Enzyme Stoichiometry and Its Influencing Factors in Different Mangrove Communities in Xinying Bay, Hainan

Soil Enzyme Stoichiometry and Its Influencing Factors in Different Mangrove Communities in Xinying Bay, Hainan

To investigate the differences in soil hydrolytic enzyme activity and enzyme stoichiometry among different mangrove communities, as well as the driving factors behind these variations, we will explore their implications for nutrient limitations of soil microbes and the availability of soil nutrients...

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Veröffentlicht in:Forests 2024-12, Vol.15 (12), p.2233
Hauptverfasser: Liu, Chang, Zhong, Lishuang, Li, Donghai, Zhang, Xiang, Yang, Xiaobo, Chen, Yuepeng, Qi, Chunlin
Format: Artikel
Sprache:eng
Schlagworte:
Acid phosphatase
Acidic soils
Aminopeptidase
Analysis
Biomass
Carbon
Cellulase
Conservation areas
Ecosystems
Enzymatic activity
Enzyme activity
Enzymes
Forests
Glucosidase
Leucine
Mangroves
Microorganisms
N-Acetylglucosaminidase
Nitrogen
Nutrient availability
Nutrient cycles
Nutrients
Phosphatase
Phosphatases
Phosphorus
Physicochemical properties
Potassium
Ratios
Redundancy
Soil analysis
Soil depth
Soil investigations
Soil layers
Soil microorganisms
Soil nutrients
Soil properties
Stoichiometry
Vegetation
β-Glucosidase
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Zusammenfassung:To investigate the differences in soil hydrolytic enzyme activity and enzyme stoichiometry among different mangrove communities, as well as the driving factors behind these variations, we will explore their implications for nutrient limitations of soil microbes and the availability of soil nutrients. This study will focus on the Rhizophora stylosa communities (RS), Aegiceras corniculatum communities (AC), and RS-AC mixed communities (MF) within the Hainan Xinying Bay mangrove conservation area, using adjacent bare flats (BF) as a control group. We will analyse soil enzyme activity and physicochemical properties in at soil depths of 0–20 cm and 20–40 cm across different mangrove communities to uncover the synergistic changes between these variables. The results indicate the following. (1) Except for acid phosphatase (ACP), the enzyme activities and their stoichiometric ratios in different mangrove soil communities differ significantly. In the layer of soil 0~20 cm, β-glucosidase (BG) activity is markedly diminished in the MF community relative to the other communities. Conversely, the activities of β-1,4-N-acetylglucosaminidase (NAG) and leucine aminopeptidase (LAP) are the most elevated in MF. In the 20~40 cm soil layer, the activity of cellulase (CBH) was found to be highest in the MF community, while the activities of BG and NAG in MF were significantly lower than those in other communities. Overall, the activity of the five enzymes decreased with increasing soil depth. (2) The ratios of ln (BG + CBH)/ln (NAG + LAP) and ln (BG + CBH)/ln (ACP) in different soil layers indicated that MF was significantly lower than other communities; in the 0~20 cm soil layer, the ln (NAG + LAP)/ln (ACP) ratio was highest in MF and lowest in RS, while no significant differences were observed between BF and AC. In the 20~40 cm soil layer, no significant differences in ln (NAG + LAP)/ln (ACP) ratios were found among the different communities. (3) The vector angles of the soil enzymatic stoichiometry in the three different mangrove communities and light beaches are all less than 45°. (4) The soil enzyme C:N:P ratio, after logarithmic transformation, measures at 1:1.36:1.28, deviating from the global average (1:1:1). This, in combination with the enzymatic stoichiometry, suggests that nitrogen and phosphorus both constrain the soil microorganisms in this study region, with nitrogen constraining them more strongly. Redundancy analysis indicates that the soil TK content is a pri
ISSN:1999-4907
1999-4907
DOI:10.3390/f15122233