草本植物群落冠层中物种间的光合能力与氮分配

Photosynthetic capacity and nitrogen partitioning among species in the canopy of a herbaceous plant community.

作者信息

Hirose T, Werger M J A

机构信息

Biological Institute, Faculty of Science, Tohoku University, Alamaki-Aoba, 980, Sendai, Japan.

Department of Plant Ecology and Evolutionary Biology, Utrecht University, 3508 TB, Utrecht, The Netherlands.

出版信息

Oecologia. 1994 Dec;100(3):203-212. doi: 10.1007/BF00316946.

DOI:10.1007/BF00316946

PMID:28307002

Abstract

Partitioning of nitrogen among species was determined in a stand of a tall herbaceous community. Total amount of nitrogen in the aboveground biomass was 261 mmol N m, of which 92% was in three dominant species (Phragmites, Calamagrostis and Carex) and the rest was in the other eight subordinate species. Higher nitrogen concentrations per unit leaf area (n ) with increasing photosynthetically active photon flux density (PPFD) were observed in all species except for three short species. The changes in n within species were mainly explained by the different nitrogen concentrations per unit leaf mass, while the differences in n between species were explained by the different SLM (leaf mass per unit leaf area). Photon absorption per unit leaf nitrogen (Φ ) was determined for each species. If photosynthetic activity was proportional to photon absorption, Φ should indicate in situ PNUE (photosynthetic nitrogen use efficiency). High Φ of Calamagrostis (dominant) resulted from high photon absorption per unit leaf area (Φ ), whereas high Φ of Scutellaria (subordinate) resulted from low n although its Φ was low. Species with cylinder-like "leaves" (Juncus and Equisetum) had low Φ , which resulted from their high n . Light-saturated CO exchange rates per unit leaf area (CER) and per unit leaf nitrogen (potential PNUE) were determined in seven species. Species with high CER and high n (Phragmites, Carex and Juncus) had low potential PNUE, while species with low CER and low n showed high potential PNUE. NUE (ratio of dry mass production to nitrogen uptake) was approximated as a reciprocal of plant nitrogen concentration. In most species, three measures of nitrogen use efficiency (NUE, Φ and potential PNUE) showed strong conformity. Nitrogen use efficiency was high in Calamagrostis and Scutellaria, intermediate in Phragmites and relatively low in Carex. Nitrogen use efficiency of subordinate species was as high as or even higher than that of dominant species, which suggests that growth is co-limited by light and nitrogen in the subordinate species.

摘要

在一个高大草本群落的林分中测定了物种间的氮分配情况。地上生物量中的总氮量为261 mmol N/m²，其中92%存在于三种优势物种（芦苇、拂子茅和苔草）中，其余存在于其他八个从属物种中。除了三种矮生物种外，在所有物种中均观察到单位叶面积的氮浓度（n）随光合有效光子通量密度（PPFD）的增加而升高。物种内部n的变化主要由单位叶质量的不同氮浓度解释，而物种间n的差异则由不同的比叶质量（SLM，单位叶面积的叶质量）解释。测定了每个物种单位叶氮的光子吸收量（Φ）。如果光合活性与光子吸收成正比，那么Φ应表示原位光合氮利用效率（PNUE）。拂子茅（优势种）的高Φ是由于单位叶面积的高光子吸收量（Φ），而黄芩（从属种）的高Φ是由于其n较低，尽管其Φ也较低。具有圆柱状“叶子”的物种（灯心草和木贼）的Φ较低，这是由于它们的n较高。测定了七个物种单位叶面积的光饱和CO₂交换率（CER）和单位叶氮的光饱和CO₂交换率（潜在PNUE）。具有高CER和高n的物种（芦苇、苔草和灯心草）的潜在PNUE较低，而具有低CER和低n的物种则显示出高潜在PNUE。氮利用效率（NUE，干物质产量与氮吸收量的比值）近似为植物氮浓度的倒数。在大多数物种中，三种氮利用效率指标（NUE、Φ和潜在PNUE）表现出很强的一致性。拂子茅和黄芩的氮利用效率较高，芦苇的氮利用效率中等，苔草的氮利用效率相对较低。从属物种的氮利用效率与优势物种一样高甚至更高，这表明从属物种的生长受到光和氮的共同限制。

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草本植物群落冠层中物种间的光合能力与氮分配

Photosynthetic capacity and nitrogen partitioning among species in the canopy of a herbaceous plant community.

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