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凤阳山阔叶混交林主要树种光合蒸腾特性研究——基于灰色关联法(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2015年01期
Page:
55-61
Column:
研究论文
publishdate:
2015-01-30

Article Info:/Info

Title:
Analysis of photosynthesis and transpiration characteristics of typical tree species in the broad-leaved mixed forest of Fengyang Mountain——based on grey correlation method
Article ID:
1000-2006(2015)01-0055-07
Author(s):
WU YanwenZHANG Jinchi*LIU XinHAN ChengGU Zheyan
Key Laboratory of Soil and Water Conservation and Ecological Restoration, College of Forestry,Nanjing Forestry University, Nanjing 210037,China
Keywords:
Fengyang Mountain broad-leaved mixed forests net photosynthetic rate(Pn) transpiration rate(Tr) grey relational analysis
Classification number :
S718; Q945.79
DOI:
10.3969/j.issn.1000-2006.2015.01.011
Document Code:
A
Abstract:
This paper conducted some measurements,with Li-6400 portable photosynthetic apparatus,on six typical tree species,namely,Viminea wall,Rhododendron fortunei,Schima superba, Cyclobalanopsis stewardiana, Ilex wenchowensis, Sycopsis and so on within the forest ecosystem of Fengyang Mountain. Their photosynthesis and transpiration characteristics in diurnal patterns at canopy level were determind. Furthermore, the influence degree of physiological and ecological factors on net photosynthetic rate(Pn)and transpiration rate(Tr)were analysed and compared by using grey correlation method.Results showed that only Ilex wenchowensis presented double peak in the daily variation of Pn, Rh. fortunei had the strongest ability to use weak light. The main factors influencing Tr were stomatal conductance(Gs)and leaf vapor pressure deficit(Dvp). The daily average transpiration rate of Rh. fortunei and S. superba were lower while the daily average net photosynthetic rates of those two tree species were higher,so that their ability to accumulate carbon assimilation was more stronger; The main factors affecting the plant Pn were stomatal conductance(Gs)and water use efficiency(EWU), meanwhile, the main factors affecting the plant Tr were Gs and photosynthetic active radiation(RPA). According to the grey correlation analysis, Rh. fortunei possesses superior adaption and resistence to the habitat,S. sinensis has weak ability to adapt to the habitat due to the restriction by illumination, stomates and moisture.

References

[1] Berry J A, Beerling D J, Franks P J. Stomata:key players in the earth system,past and present[J].Current Opinion in Plant Biology,2010,13(3):233-240.
[2] 赵风华,陈阜.北京地区引种菊苣在不同水分条件下光合与蒸腾特性初探[J].华北农学报,2005,20(2):63-65.Zhao F H, Chen F. Study on chicory’s photosynthesis and transpiration under different water treatments in Beijing[J]. Acta Agriculturae Boreali Sinica,2005,20(2):63-65.
[3] 景茂,曹福亮,汪贵斌,等.土壤水分含量对银杏光合特性的影响[J].南京林业大学学报:自然科学版,2005,29(4):83-86.Jin M, Cao F L, Wang G B, et al. The effects of soil water contents on photosynthetic characteristics of Ginkgo[J].Journal of Nanjing Forestry University:Natural Sciences Edition,2005,29(4):83-86.
[4] 张翠霞,张秋良,常金宝.库布其沙漠几种植物的光合蒸腾及水分利用效率[J].南京林业大学学报:自然科学版,2007,31(4):81-84.Zhang C X, Zhang Q L, Chang J B. Diurnal variations of moisture physiology characteristic of a few plants in Hobq Desert[J].Journal of Nanjing Forestry University:Natural Sciences Edition,2007,31(4):81-84.
[5] 王旭军,吴际友,廖德志,等.响叶杨光合蒸腾和水分利用效率对光强及CO2浓度升高的响应[J].南京林业大学学报:自然科学版, 2009, 33(2): 55-59.Wang X J, Wu J Y, Liao D Z, et al. Response of photosynthesis rate, transpiration rate and water using efficiency of Populus adenopoda to light intensity and elevated CO2 concentration[J].Journal of Nanjing Forestry University:Natural Sciences Edition,2009, 33(2): 55-59.
[6] 王玉辉,周广胜.松嫩草地羊草叶片光合作用生理生态特征分析[J].应用生态学报,2001,12(1):75-79.Wang Y H, Zhou G S. Analysis on ecophysiological characteristics of leaf photosynthesis of Aneurolepidium chinense in Songnen grassland[J].Chinese Journal of Applied Ecology,2001,12(1):75-79.
[7] 王伟,骆争荣,周荣飞,等.百山祖常绿阔叶林木本植物的生境相关性分析[J].生物多样性,2011,19(2):134-142.Wang W, Luo Z R, Zhou R F, et al. Habitat associations of woody plant species in Baishanzu subtropical broad-leaved evergreen forest[J].Biodiversity Science,2011,19(2):134-142.
[8] Fu B J, Liu S L, Ma K M, et al. Relationships between soil characteristics, topography and plant diversity in a heterogeneous deciduous broad-leaved forest near Beijing, China[J]. Plant and Soil, 2004,261(1-2): 47-54.
[9] 洪起平,丁平,丁炳扬.凤阳山自然资源考察与研究[M].北京:中国林业出版社,2007.
[10] Farquhar G D, Sharkey T D. Stomatal conductance and photosynthesis[J].Annual Review of Plant Physiology,1982,33:317-345.
[11] Hu M J, Guo Y P, Shen Y G, et al. Midday depression of photosynthesis and effects of mist spray in citrus[J]. Annals of Applied Biology, 2009,154(1):143-155.
[12] 向仰州,姚斌,尚鹤,等. 五氯酚胁迫对转基因杨树光合光响应特性的影响[J].生态环境学报,2009,18(6):2146-2150.Xiang Y Z, Yao B, Shang H, et al. Photosynthesis light response characteristics of transgenic poplars under pentachlorophenol stress[J].Ecology and Environmental Sciences,2009,18(6):2146-2150.
[13] 于贵瑞,王秋凤.植物光合、蒸腾与水分利用的生理生态学[M].北京:科学出版社,2010.
[14] 龚伟,宫渊波,胡庭兴,等.CO2浓度升高对湿地松针叶蒸腾特性和水分利用效率的影响[J].水土保持学报,2005,19(5):178-182.Gong W, Gong Y B, Hu T X, et al. Responses of transpiration characteristics and water use efficiency of Pinus elliottii leaf to elevated CO2 concentration[J].Journal of Soil and Water Conservation,2005,19(5):178-182.
[15] 崔大练,马玉心,蔡体久.CO2摩尔分数升高对兴安鹿蹄草光合生理特性的影响[J].东北林业大学学报,2013,41(1):94-99.Cui D L, Ma Y X, Cai T J. Effects of elevated CO2 concentration on photosynthemtic physiological characteristics of Pyrola dahurica(H. Andr.)Kom.[J]. Journal of Northeast Forestry University, 2013, 41(1):94-99.
[16] 蔺琛,马钦彦,韩海荣,等.山西太岳山辽东栎的光合特性[J].生态学报,2002,22(9):1399-1406.Lin C, Ma Q Y, Han H R, et al. Photosynthesis characteristic of Quercus liaotungensis in Taiyue Mountain region[J].Acta Ecologica Sinica,2002,22(9):1399-1406.
[17] 刘玉华,贾志宽,史纪安,等.旱作条件下不同苜蓿品种光合作用的日变化[J].生态学报,2006,26(5):1468-1477.Liu Y H, Jia Z K, Shi J A, et al. Daily dynamics of photosynthesis in alfalfa varieties under dry farming conditions[J].Acta Ecologica Sinica,2006,26(5):1468-1477.
[18] 徐俊增,彭世彰,丁加丽,等.控制灌溉的水稻气孔限制值变化规律试验研究[J].水利学报,2006,37(4):486-491.Xu J Z, Peng S Z, Ding J L, et al. Stomata limitation of rice under control irrigation[J].Journal of Hydraulic Engineering, 2006,37(4):486-491.
[19] 赵风华,王秋凤,王建林,等.小麦和玉米叶片光合-蒸腾日变化耦合机理[J].生态学报,2011,31(24):7526-7532.Zhao F H, Wang Q F, Wang J L, et al. Photosynthesis-transpiration coupling mechanism of wheat and maize during daily variation[J].Acta Ecologica Sinica,2011,31(24):7526-7532.
[20] 曹生奎,冯起,司建华,等.植物叶片水分利用效率研究综述[J].生态学报,2009,29(7):3882-3892.Cao S K, Feng Q, Si J H, et al. Summary on the plant water use efficiency at leaf level[J].Acta Ecologica Sinica,2009,29(7):3882-3892.
[21] 王润元,杨兴国,赵鸿,等.半干旱雨养区小麦叶片光合生理生态特征及其对环境的响应[J].生态学杂志,2006,25(10):1161-1166.Wang R Y, Yang X G, Zhao H, et al. Eco-physiological characteristics of wheat leaf photosynthesis and their responses to environmental factors in semiarid rain-fed region[J].Chinese Journal of Ecology, 2006,25(10):1161-1166.
[22] 许大全. 光合作用“午睡”现象的生态、生理与生化[J].植物生理学通讯, 1990,26(6):5-10.Xu D Q. Ecology,physiology and biochemistry of midday depression of photosynthesis[J].Plant Physiology Communications,1990,26(6):5-10.
[23] Habib ur Rahman Khan, Link W, Hocking T J, et al. Evaluation of physiological traits for improving drought tolerance in faba bean(Vicia faba L.)[J]. Plant Soil, 2007,292:205-217.
[24] 张启昌,杜凤国,夏富才,等.美国椴光合蒸腾的生理生态[J]. 北华大学学报:自然科学版,2000,1(5):436-438.Zhang Q C, Du F G, Xia F C,et al. The physiological ecology of photosynthetic evaporation on Tilia america[J].Journal of Beihua University:Natural Science,2000,1(5):436-438.
[25] 张锦春,赵明,张应昌,等.灌溉植被梭梭、白刺光合蒸腾特性及影响因素研究[J].西北植物学报,2005,25(1):70-76.Zhang J C, Zhao M, Zhang Y C, et al. A research between photosynthetic,transpiration characteristics and impact of irrigated vegetation of Haloxylon ammodendron and Nitraria tangutorum[J].Acta Botanica Boreali-Occidentalia Sinica,2005,25(1):70-76.

Last Update: 2015-01-31