低层大气二氧化碳对热带山区生态系统的影响。

Impact of lower atmospheric carbon dioxide on tropical mountain ecosystems.

作者信息

Street-Perrott FA, Huang Y, Perrott RA, Eglinton G, Barker P, Khelifa LB, Harkness DD, Olago DO

机构信息

F. A. Street-Perrott and R. A. Perrott are in the Tropical Palaeoenvironments Research Group, Department of Geography, University of Wales Swansea, Swansea SA2 8PP, UK. Y. Huang and G. Eglinton are at the Biogeochemistry Research C.

出版信息

Science. 1997 Nov 21;278(5342):1422-6. doi: 10.1126/science.278.5342.1422.

DOI:10.1126/science.278.5342.1422

PMID:9367947

Abstract

Carbon-isotope values of bulk organic matter from high-altitude lakes on Mount Kenya and Mount Elgon, East Africa, were 10 to 14 per mil higher during glacial times than they are today. Compound-specific isotope analyses of leaf waxes and algal biomarkers show that organisms possessing CO2-concentrating mechanisms, including C4 grasses and freshwater algae, were primarily responsible for this large increase. Carbon limitation due to lower ambient CO2 partial pressures had a significant impact on the distribution of forest on the tropical mountains, in addition to climate. Hence, tree line elevation should not be used to infer palaeotemperatures.

摘要

东非肯尼亚山和埃尔贡山上高海拔湖泊中总有机质的碳同位素值在冰川时期比现在高10‰至14‰。叶蜡和藻类生物标志物的化合物特异性同位素分析表明，具有二氧化碳浓缩机制的生物，包括C4草类和淡水藻类，是造成这种大幅增加的主要原因。除气候外，较低的环境二氧化碳分压导致的碳限制对热带山区森林的分布产生了重大影响。因此，不应使用树线高度来推断古温度。

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低层大气二氧化碳对热带山区生态系统的影响。

Impact of lower atmospheric carbon dioxide on tropical mountain ecosystems.

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