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分区交替水分胁迫对草乌光合特性的影响

李洁姚延祷周春娥梁志英苗青

林业科学2012，Vol.48Issue(6)：72-79,8.

分区交替水分胁迫对草乌光合特性的影响

Effect of Alternate Partial Root Zone Drying on Photosynthesis Characteristics of Aconitum kusnezoffii

李洁 ¹姚延祷 ¹周春娥 ²梁志英 ³苗青¹

作者信息

1. 山西农业大学林学院,太谷030801
2. 河南师范大学生命科学学院,新乡453007
3. 晋中学院生命科学院,晋中030600
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摘要

Abstract

A field experiment was conducted with Aconitum kusnezoffii to investigate effects of alternate partial root zone drying ( APRD ), fixed partial root zone drying ( FPRD ), and whole root zone irrigation ( BPRI) on photosynthesis characteristics of two-year-old A. kusnezoffii, aimed at providing a theoretical basis for cultivating this kind of plant for the arid area. The results showed that, 1 ) The transpiration rate ( Tr) in all three treatments were decreased gradually with experimental time. The peak value decreased and the peak point moved forward with the aggravated water stress. 2) A. kusnezoffii in APRD treatment had lower atomatal conductance than the other treatments, and the net photosynthetic rate ( Pm) was higher than BPRI and FPRD by 4. 16% and 37.43% respectively when the Tr in APRD treatment was decreased than BPRI by 30% , reflecting that the APRD treatment could optimally adjust the stomatal behavior. 3 ) The diurnal change of water use efficiency in three treatments was all double peak curves. The WUE in the APRD treatment was significantly higher than that in BPRI and FPRD by 20. 39% and 10. 53% , respectively. (4)The photosynthetic light response curve in the three treatments was generally similar. The apparent quantum yield(AQY) of photosynthesis in three treatments was similar to each other. The collaborative variation of light saturation point ( LSP) and light compensation point ( LCP) showed that the ability to adapt to light in the treatment of APRD was enhanced to some extent. The maximum net photosynthesis rate (Pmax) in the APRD treatment was the highest. The dark respiration rate ( Rd ) in the APRD treatment was lowest, suggesting that A. kusnezoffii reduced its consumption so as to adapt arid environment. Alternate partial root zone drying ( APRD) developed the biological water-saving potential plants by regulating water supply.

关键词

交替水分胁迫/水分利用效率/光合光响应/草乌

Key words

alternate water stress/ water use efficiency/ photosynthesis light response/ Aconitum kusnezoffii

分类

农业科技

引用本文复制引用

李洁,姚延祷,周春娥,梁志英,苗青..分区交替水分胁迫对草乌光合特性的影响[J].林业科学,2012,48(6):72-79,8.

基金项目

山西省林业厅项目(2009031112). （2009031112）

林业科学

OA北大核心CSCDCSTPCD

ISSN：1001-7488

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