热带湿润森林中的氧同位素比率分层

Oxygen isotope ratio stratification in a tropical moist forest.

作者信息

da Silveira Leonel, Sternberg Lobo, Mulkey Stephen S, Joseph Wright S

机构信息

Department of Biology, University of Miami, 33124, Coral Gables, FL, USA.

Department of Biology, University of Missouri, 63121-4499, St. Louis, MO, USA.

出版信息

Oecologia. 1989 Oct;81(1):51-56. doi: 10.1007/BF00377009.

DOI:10.1007/BF00377009

PMID:28312156

Abstract

Oxygen isotope ratios were determined in leaf cellulose from two plant species at Barro Colorado (Republic of Panama) in 4 different plots, two of which were undergoing an irrigation treatment during the dry season. There is a gradient in δO values of leaf cellulose from the understory to canopy leaves, reflecting the differences in relative humidity between these two levels of the forest. This gradient is most pronounced in irrigated plots. For irrigated plots there was a highly significant correlation between δO and δC values, which was not observed in control plots. This relationship can be explained by humidity controlling stomatal conductance. Low humidity affects δO values of leaf water during photosynthesis, which isotopically labels cellulose during its synthesis. Low humidity also decreases stomatal conductance, which affects discrimination against carbon-13 by photosynthetic reactions, thus affecting the δC values of photosynthates. WUE values calculated by using plant carbon and oxygen isotope ratios were similar to those observed with gas exchange measurements in other tropical and temperate area. Thus the concurrent analysis of carbon and oxygen isotope ratios of leaf material can potentially be useful for long term estimation of assimilation and evapotranspiration regimes of plants.

摘要

对巴拿马共和国巴罗科罗拉多岛两种植物叶片纤维素中的氧同位素比率进行了测定，样本来自4个不同地块，其中两个地块在旱季接受灌溉处理。从林下叶到冠层叶，叶片纤维素的δO值存在梯度变化，这反映了森林这两个层次相对湿度的差异。这种梯度在灌溉地块最为明显。在灌溉地块，δO和δC值之间存在高度显著的相关性，而在对照地块未观察到这种相关性。这种关系可以通过湿度控制气孔导度来解释。低湿度会影响光合作用期间叶片水分的δO值，在纤维素合成过程中对其进行同位素标记。低湿度还会降低气孔导度，这会影响光合作用反应对碳-13的分馏，从而影响光合产物的δC值。利用植物碳和氧同位素比率计算的水分利用效率值与在其他热带和温带地区通过气体交换测量得到的值相似。因此，对叶片材料的碳和氧同位素比率进行同步分析可能有助于长期估算植物的同化和蒸散状况。

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热带湿润森林中的氧同位素比率分层

Oxygen isotope ratio stratification in a tropical moist forest.

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