EFFECTS OF CO2 ENRICHMENT, LEAF POSITION AND CLONE ON STOMATAL INDEX AND EPIDERMAL-CELL DENSITY IN POPLAR (POPULUS)

被引:85
作者
CEULEMANS, R
VANPRAET, L
JIANG, XN
机构
[1] Department of Biology, University of Antwerpen (UIA), Wilrijk, B-2610
[2] On leave from the Experimental Centre of Forest Biology, Beijing Forestry University, Beijing
关键词
ELEVATED ATMOSPHERIC CO2; EPIDERMAL CELL DENSITY; STOMATAL DENSITY; STOMATAL INDEX; STOMATAL PORE LENGTH;
D O I
10.1111/j.1469-8137.1995.tb03059.x
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
The effects of CO2 enrichment and leaf position on stomatal characteristics (stomatal density, stomatal index and stomatal pore length) and epidermal cell density were examined for two different Populus clones, Beaupre and Robusta, grown from cuttings in open-top chambers under ambient and elevated atmospheric CO2 conditions. Both clones had amphistomatous leaves, and stomatal density was significantly larger on the abaxial leaf surface than on the adaxial. Significant interactions between CO2 enrichment, leaf position and clone were observed for most stomatal and epidermal characteristics. A significant reduction of the number of stomata mm(-2) under elevated CO2 was observed in expanding leaves near the upper portion of the plant for both leaf surface sides and in both clones. For the abaxial leaf side only, this reduction under elevated CO2 was accompanied by a similar reduction of the stomatal index in both clones. In mature leaves on the middle and lower portion of the plants, there was no significant effect of the CO2 treatment on stomatal density. In young, expanding leaves near the upper part of the plant there were significant interactions between the CO2 treatment and leaf surface side for epidermal cell density. The latter increased under elevated CO2 at the abaxial leaf surface, but decreased at the adaxial surface on the upper part of the plant. Total epidermal cell numbers of mature, fully expanded leaves increased under elevated CO2 in both clones. The observation that interactions with leaf age and/or leaf position significantly confound the CO2 treatment effect on stomatal and epidermal cell densities, might contribute to the elucidation of the problem of the phenomenon of stomatal density reduction under elevated atmospheric CO2.
引用
收藏
页码:99 / 107
页数:9
相关论文
共 31 条
[1]   INFLUENCE OF CO2 ON STOMATAL NUMBERS [J].
APEL, P .
BIOLOGIA PLANTARUM, 1989, 31 (01) :72-74
[2]   TRACKING STOMATAL DENSITIES THROUGH A GLACIAL CYCLE - THEIR SIGNIFICANCE FOR PREDICTING THE RESPONSE OF PLANTS TO CHANGING ATMOSPHERIC CO2 CONCENTRATIONS [J].
BEERLING, DJ ;
CHALONER, WG ;
HUNTLEY, B ;
PEARSON, A ;
TOOLEY, MJ .
GLOBAL ECOLOGY AND BIOGEOGRAPHY, 1991, 1 (05) :136-142
[3]   THE IMPACT OF ATMOSPHERIC CO2 AND TEMPERATURE-CHANGE ON STOMATAL DENSITY - OBSERVATIONS FROM QUERCUS-ROBUR LAMMAS LEAVES [J].
BEERLING, DJ ;
CHALONER, WG .
ANNALS OF BOTANY, 1993, 71 (03) :231-235
[4]   STOMATAL DENSITY RESPONSES OF EGYPTIAN OLEA-EUROPAEA L LEAVES TO CO2 CHANGE SINCE 1327 BC [J].
BEERLING, DJ ;
CHALONER, WG .
ANNALS OF BOTANY, 1993, 71 (05) :431-435
[5]   TANSLEY REVIEW NO-71 - EFFECTS OF ELEVATED ATMOSPHERIC CO2 ON WOODY-PLANTS [J].
CEULEMANS, R ;
MOUSSEAU, M .
NEW PHYTOLOGIST, 1994, 127 (03) :425-446
[6]  
Ceulemans R., 1994, P81
[7]   STOMATAL CONDUCTANCE AND STOMATAL BEHAVIOR IN POPULUS CLONES AND HYBRIDS [J].
CEULEMANS, R ;
IMPENS, I ;
IMLER, R .
CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE, 1988, 66 (07) :1404-1414
[8]   GROWTH AND PHYSIOLOGY OF ONE-YEAR-OLD POPLAR (POPULUS) UNDER ELEVATED ATMOSPHERIC CO2 LEVELS [J].
CEULEMANS, R ;
JIANG, XN ;
SHAO, BY .
ANNALS OF BOTANY, 1995, 75 (06) :609-617
[9]  
Ceulemans R, 1990, THESIS AMSTERDAM
[10]  
ELIAS P, 1979, Folia Geobotanica and Phytotaxonomica, V14, P29