Study on Decomposition Characteristics of Early Spring Ephemeral Plant Litter in Various Forest Types

Study on Decomposition Characteristics of Early Spring Ephemeral Plant Litter in Various Forest Types

In terrestrial ecosystems, the decomposition of early spring ephemeral plant litter (ESPL for short) is one of the important processes in the carbon and nutrient cycles during the early spring stage. The current study focused on four typical spring ephemeral plant species in three forest types of No...

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Bibliographic Details
Main Authors: Qiang Liu, Jinping Zheng, Chunnan Fan
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Horticulturae
Subjects:
herbaceous species
spring ephemeral plant
decay rate
nutrient cycling
forest type
Online Access:https://www.mdpi.com/2311-7524/11/4/382
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Summary:In terrestrial ecosystems, the decomposition of early spring ephemeral plant litter (ESPL for short) is one of the important processes in the carbon and nutrient cycles during the early spring stage. The current study focused on four typical spring ephemeral plant species in three forest types of Northeast China and investigated the decomposition characteristics of herb litters, using litterbag decomposition experiments. The study results indicate that the mass loss rate of ESPL decomposition after 50 days can be as high as 73.15% to 80.44%. Throughout the entire decomposition period, there is a significant correlation between the decomposition of ESPL and time, with initial decomposition relatively fast and later decomposition slowing down. Overall, <i>Hylomecon japonicum</i> exhibits slightly faster decomposition, and <i>Cardamine leucantha</i> decomposes relatively slowly, while <i>Cardamine leucantha</i> shows the highest mass loss rate in the first 10 days, reaching 38.71%. The mass loss rates of the four types of ESPL are significantly correlated with the litter nutrient conditions, as are the stage-specific mass loss rates. Furthermore, there are distinct differences in the nutrient composition affecting the decomposition of different types of ESPL. Across different forest stands, influenced by different decomposition environments, such as soil conditions, the decomposition of ESPL is fastest in the deciduous broad-leaved forest, with decomposition reaching 50% and 95% in only 15–18 days and 63–88 days, respectively. In the broad-leaved forest, it takes 18–23 days and 78–110 days, while, in the birch forest, it takes 22–32 days and 99–136 days.
ISSN:2311-7524

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