刘文丹 Liu Wendan scite author profile

刘文丹 Liu Wendan

2Publications

5Citation Statements Received

1Citation Statement Given

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Leaf traits and nutrient resorption of major woody species in the karst limestone area of Chongqing

Hongwei¹,

Wendan²,

Wei³

et al. 2015

Acta Eco Sin

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Nutrient resorption is a key component of nutrient conservation strategies and productivity and element cycling in ecosystems. It influences many, if not most, ecosystem processes, including carbon cycling and resource鄄use efficiency, plant litter decomposition through changes in litter quality, and plant competition. We studied 15 species of evergreen woody plants and 14 species of deciduous woody plants in a limestone area in Chongqing; compared leaf dry matter content (LDMC) , specific leaf area (SLA) , and leaf thickness (LT) of two different types of plants before and after leaf senescence; and analysed leaf nutrients and resorption characteristics before and after senescence by using different calculation methods (nutrient content per unit mass and leaf nutrient content per unit area). Finally, we analysed the correlation between nutrient resorption efficiency and other leaf traits. The results showed that LDMC and LT were significantly higher in the mature leaves of evergreen species than in those of deciduous species in the Chongqing karst area.

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Decomposition of above and belowground organ litters of mid-subtropical woody plants

Wendan¹,

Jianping²,

Tengda³

et al. 2014

Acta Eco Sin

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Litter and its decomposition are important processes of carbon and nutrient cycles and substantially affect forest regeneration and species diversity of soil microorganisms. Interspecific variation in decomposition of litter derived from various organs, such as foliar litter, roots, and woody debris, has been increasingly researched in the past decade. In addition, plant functional traits are widely utilized to predict such variation in plant litter decomposition. Due to the difference of resource conditions in different ecosystems, plants form different ecological strategies for nutrient acquisition and metabolization and thereby vary in plant functional traits. Previous studies have shown that plant litter decomposability is correlated with ecological strategy in several ecosystems. In the long process of nutrient and carbon exchange and recycling, plants coordinate the traits of the above and belowground organs to adapt to climate and soil conditions of the growth region. However, the consequences of such coordination for correlation between different organs忆 litter decomposability across species is less known. Therefore, our aim is to investigate the relationship between litter decomposability and ecological strategy in subtropical areas. We analyze the litter decomposition constant (K) of above and belowground organs after one year and two years of incubation by using the litter鄄bag method. We collected litter materials from various plant tissues (foliar litter, twigs, fine roots and coarse roots) from two contrasting sites, one being a limestone

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