青藏高原几种典型高山植物的光合特性比较
COMPARATIVE STUDIES OF PHOTOSYNTHETIC CHARACTERISTICS IN TYPICAL ALPINE PLANTS OF THE QINGHAI-TIBET PLATEAU
查看参考文献22篇
|
文摘
|
选用西宁地区人工栽培的高山植物唐古特大黄(Rheum tanguticum)、山莨菪(Anisodus tanguticus)和麻花艽(Gentiana straminea),比较了3种高山植物之间光合作用的光响应和CO2响应特性,叶片光合色素以及UV—B吸收物质的差异;并以低海拔植物菘蓝(Isatis indigotica)为对比,分析了高山植物与低海拔植物的差异。结果表明:与低海拔植物菘蓝相比,3种高山植物光合作用的表观量子效率(AQY)都偏低;唐古特大黄叶片的AQY、羧化效率(CE)和光呼吸速率(Rp)都很低,净光合速率(Pn)的光响应曲线在全日照光辐射范围内并没有达到完全饱和,这与单位面积叶片具有较高的光合色素以及UV—B吸收物质有关;麻花艽植物与唐古特大黄一样,具有较高的UV-B吸收物质和光合色素含量,但其Rp较高,加之Pn受气孔限制较为明显,故其光合作用的饱和光强很低,Pn相对于其它3种植物也较低;山莨菪与低海拔植物菘蓝的光合特性很相似,都具有较高的AQY和CE。这些结果表明,3种高山植物的光合特性有较大差异,但并没有一致的相对于低海拔植物的共性。4种植物Pn的胞间CO2浓度(G)响应曲线在CO2饱和点以后都表现为无机磷(Pi)再生限制,其吃的变化与CO2饱和点以后的最大Pn的变化基本一致。 |
|
其他语种文摘
|
The photosynthetic characteristics of three medicinal alpine plants, Rheum tangut/cum, Anisodus tanguticus and Gentiana straminea, were studied and compared to a low land species, lsatis indigotica. The response of net photosynthesis rate ( Pn ) to intercellular CO2 concentrations ( Ci ) and photon flux density (PFD) was determined using a LI-6400 photosynthesis system. The photosynthetic pigments and UV-B-absorbing compounds also were determined in the four species in order to evaluate differences in their photosynthetic characteristics. The results indicated that the three alpine plants had relatively low photosynthetic quan- tum yields (AQY) as compared to the low land species of I. indigotica, and AQY, carboxylation efficiency (CE) and photorespiratory rate (R,) were the lowest in R. tangut/cum. However, Pn did not respond strongly to changes in PFD, which may be due to the high concentration of photosynthetic pigments and UV-Babsorbing compounds in the leaves. Similar to R. tanguticum, the alpine plant G. straminea also had higher contents of UV-B-absorbing compounds, chlorophyll and carotenoids, but its Rp was higher and Pn was limited by stomatal conductance in response to PFD and Pn was lower. The photosynthetic characteristics of the alpine species, A. tanguticus, was similar to the low land species, I. indigotica, beth of which had a high AQY and CE. These results indicated that although there were some differences among the three alpine species, no corresponding characteristics appeared in photosynthetic advancements. The response of Pn to Ci exhibited Pi regeneration limitations after reaching full CO2 saturation. The changes of Rp in the four species were similar to that of maximum Pn in photosynthetic Ci response. |
|
来源
|
植物生态学报
,2006,30(1):40-46 【核心库】
|
|
DOI
|
10.17521/cjpe.2006.0006
|
|
关键词
|
青藏高原
;
高山植物
;
药用植物
;
光合特性
|
|
地址
|
中国科学院西北高原生物研究所, 西宁, 810001
|
|
语种
|
中文 |
|
文献类型
|
研究性论文 |
|
ISSN
|
1005-264X |
|
学科
|
植物学;农作物 |
|
基金
|
国家自然科学基金
;
国家科技部国际合作重点项目
;
中国科学院知识创新工程项目
;
国家中西部专项基金
|
|
文献收藏号
|
CSCD:2319437
|
参考文献 共
22
共2页
|
|
1.
Arnon DI. polyphenoloxidase in Beta vulgaris.
Plant Physiology,1949,24:1-15
|
被引
1237
次
|
|
|
|
|
2.
Beggs CG. Photocontrol of flavonoid biosynthesis.
Photomorphogenesis in Plants Vol.2,1994:733-750
|
被引
1
次
|
|
|
|
|
3.
贲桂英. 高寒矮嵩草草甸植物温度叶扩散导度,蒸腾作用与水势.
生态学报,1993,13:369-372
|
被引
14
次
|
|
|
|
|
4.
Ben GY. Characteristic of the photosynthesis in alpine plants on Qinghai plateau.
Research in Photosynthesis Volume Ⅳ,1992:173-176
|
被引
1
次
|
|
|
|
|
5.
蔡时青. 大豆叶片CO_2补偿点和光呼吸的关系.
植物生理学学报,2000,26:545-550
|
被引
62
次
|
|
|
|
|
6.
Caldwell MM. Solar ultraviolet radiation as an ecological factor for alpine plants.
Ecological Monographs,1968,38:243-267
|
被引
16
次
|
|
|
|
|
7.
Fiscus EL. Is increased UV-B a threat to crop photosynthesis and productivity? Photosynthesis Research.
Photosynthesis Research,1995,43:81-92
|
被引
13
次
|
|
|
|
|
8.
Goldstein G. Photosynthetic gas exchange and temperature-induced damage in seedlings of the tropical alpine species Argyroxiphium sandwicense.
Oecologia (Historical Archive),1999,106:298-307
|
被引
1
次
|
|
|
|
|
9.
郭连旺. Characteristic and photoinhibition of photosynthesis in some alpine meadow plants.
高寒草甸生态系统,1995:65-72
|
被引
3
次
|
|
|
|
|
10.
Larcher W. Physiological Plant Ecology 2nd edn.
Physiological Plant Ecology 2nd edn,1980
|
被引
1
次
|
|
|
|
|
11.
卢存福. 矮嵩草光合作用与环境因素关系的比较研究.
植物生态学报,1995,19:72-78
|
被引
40
次
|
|
|
|
|
12.
卢存福. 高山植物短管兔儿草光合作用特性及其对冰冻胁迫的反应.
植物学通报,2000,17:559-564
|
被引
19
次
|
|
|
|
|
13.
Rawat AS. CO2 and water vapour exchange in four alpine herbs at two altitudes and under varying light and temperature conditions.
Photosynthesis Research (Historical Archive),1991,28:99-108
|
被引
9
次
|
|
|
|
|
14.
Sage RF. Photosynthetic response mechanisms to environmental change in C3 plants.
Plant Environment Interactions,1994:413-497
|
被引
1
次
|
|
|
|
|
15.
师生波. 高寒草甸麻花艽和美丽风毛菊的光合速率午间降低现象.
植物生理学报,2001,27:123-128
|
被引
17
次
|
|
|
|
|
16.
师生波. 不同海拔地区紫外线B辐射状况及植物叶片紫外线吸收物质含量的分析.
植物生态学报,1999,23:529-535
|
被引
45
次
|
|
|
|
|
17.
Westbeek MHM. Analysis of differences in photosynthetic nitrogen use efficiency of alpine and lowland Poa species.
Oecologia,1999,120:19-26
|
被引
10
次
|
|
|
|
|
18.
吴学明. The analysis of ultrastructure of photosynthetic membrane on Cremanthodium discoideum and Aconitum tangutcum in alpine plant.
西北植物学报,1997,17:98-102
|
被引
10
次
|
|
|
|
|
19.
许大全. Limiting factors in photosynthesis.
植物生理和植物分子生物学.2nd edn,2001:262-276
|
被引
2
次
|
|
|
|
|
20.
许大全. Photosynthetic Efficiency (光合作用效率).
光合作用效率,2002
|
被引
251
次
|
|
|
|
|
了解气象卫星更多信息,请访问