Cai Zhi-Quan, Schnitzer Stefan A, Bongers Frans
Xishuangbanna Tropical Botanical Garden, The Chinese Academy of Sciences, Mengla, China.
Oecologia. 2009 Aug;161(1):25-33. doi: 10.1007/s00442-009-1355-4. Epub 2009 May 6.
Lianas are an important component of most tropical forests, where they vary in abundance from high in seasonal forests to low in seasonal forests. We tested the hypothesis that the physiological ability of lianas to fix carbon (and thus grow) during seasonal drought may confer a distinct advantage in seasonal tropical forests, which may explain pan-tropical liana distributions. We compared a range of leaf-level physiological attributes of 18 co-occurring liana and 16 tree species during the wet and dry seasons in a tropical seasonal forest in Xishuangbanna, China. We found that, during the wet season, lianas had significantly higher CO(2) assimilation per unit mass (A(mass)), nitrogen concentration (N(mass)), and delta(13)C values, and lower leaf mass per unit area (LMA) than trees, indicating that lianas have higher assimilation rates per unit leaf mass and higher integrated water-use efficiency (WUE), but lower leaf structural investments. Seasonal variation in CO(2) assimilation per unit area (A(area)), phosphorus concentration per unit mass (P(mass)), and photosynthetic N-use efficiency (PNUE), however, was significantly lower in lianas than in trees. For instance, mean tree A(area) decreased by 30.1% from wet to dry season, compared with only 12.8% for lianas. In contrast, from the wet to dry season mean liana delta(13)C increased four times more than tree delta(13)C, with no reduction in PNUE, whereas trees had a significant reduction in PNUE. Lianas had higher A(mass) than trees throughout the year, regardless of season. Collectively, our findings indicate that lianas fix more carbon and use water and nitrogen more efficiently than trees, particularly during seasonal drought, which may confer a competitive advantage to lianas during the dry season, and thus may explain their high relative abundance in seasonal tropical forests.
藤本植物是大多数热带森林的重要组成部分,其数量在不同季节森林中差异很大,从季节性森林中的大量分布到低量分布。我们验证了这样一个假设:藤本植物在季节性干旱期间固定碳(从而生长)的生理能力可能在季节性热带森林中赋予其独特优势,这或许可以解释藤本植物在泛热带地区的分布情况。我们在中国西双版纳的一个热带季节性森林中,比较了18种共生藤本植物和16种树木在雨季和旱季一系列叶片水平的生理特性。我们发现,在雨季,藤本植物单位质量的二氧化碳同化量(A(质量))、氮浓度(N(质量))和δ(13)C值显著高于树木,单位面积叶质量(LMA)低于树木,这表明藤本植物单位叶质量的同化率更高,综合水分利用效率(WUE)更高,但叶片结构投资更低。然而,藤本植物单位面积二氧化碳同化量(A(面积))、单位质量磷浓度(P(质量))和光合氮利用效率(PNUE)的季节变化显著低于树木。例如,树木的平均A(面积)从雨季到旱季下降了30.1%,而藤本植物仅下降了12.8%。相反,从雨季到旱季,藤本植物的平均δ(13)C增加幅度比树木的δ(13)C多四倍,PNUE没有降低,而树木的PNUE显著降低。藤本植物全年的A(质量)都高于树木,与季节无关。总体而言,我们的研究结果表明,藤本植物比树木固定更多的碳,更有效地利用水分和氮,特别是在季节性干旱期间,这可能在旱季赋予藤本植物竞争优势,从而可以解释它们在季节性热带森林中相对较高的丰度。
