樟子松、油松、蒙古栎水分利用效率种间变化及其对环境因子的响应差异

doi:10.7525/j.issn.1673-5102.2016.04.014

摘要/Abstract

摘要： 以碳同位素值(δ¹³C)作为反映植物水分利用效率的指标,对辽宁地区3种典型林型-樟子松人工林(Pinus sylvestris var. mongolica)、油松人工林(Pinus tabulaeformis)和蒙古栎天然林(Quercus mongolica Fischer ex Ledebour)进行调查并分别对樟子松、油松和蒙古栎进行样品采集,探讨其水分利用效率之间的差异特征及其对年均降水量、年均大气温度和海拔高度变化的响应。樟子松、油松和蒙古栎δ¹³C值变化范围分别为-30.37‰~-25.10‰、-30.32‰~-24.07‰和-29.85‰~-23.51‰,且随经度的增加显著降低;统计分析也表明,樟子松、油松和蒙古栎δ¹³C值在辽西显著高于辽东,说明3种树种水分利用效率在辽西较高。进一步分析发现,3种树种叶片δ¹³C值受年均降水量和海拔的影响较大,均随年均降水量增加显著降低,随海拔的升高显著增大,而受温度的影响较小;其中,又以樟子松的水分利用效率受海拔的影响较大(P<0.01);与蒙古栎相比,樟子松和油松受降水量的影响更加明显。综上所述,3种树种叶片δ¹³C值以及由其衍生来的水分利用效率之间种间差异较小,而受环境因子及地理学指标降雨、海拔和经度的影响较大,这为今后基于δ¹³C值的水分利用效率进一步科学研究奠定了基础。

关键词: &delta, ¹³C值, 水分利用效率, 降水量, 气温, 海拔

Abstract: By using C-isotope(leaf δ¹³C value) as an index of long-term water use efficiency(WUE), we evaluated WUE of three typical trees of Pinus sylvestris var. mongolica(P.sylvestris), P.tabulaeformis(P.tabulaeformis) and Q.mongolica Fischer ex Ledebour(Q.mongolica) in Liaoning Province and their responses to environmental factors involving annual average precipitation, annual average air temperature and altitude. The δ¹³C values of these three trees were -30.37‰- -25.10‰, -30.32‰- -24.07‰ and -29.85‰- -23.51‰, respectively, and the δ¹³C values in three trees leaf were decreased with the longitudes. By statistical analysis, δ¹³C of three trees were evident higher in western part of Liaoning province than the eastern part, indicating that trees in western Liaoning was higher. Further analysis found that the δ¹³C values in three trees leaf were greatly influenced by the average annual precipitation and altitude, and decreased significantly with annual average precipitation, and increased with altitude, but the δ¹³C values in three trees leaf were less influenced by the temperature. The WUE were much robust influenced by the altitude in P.sylvestris(P<0.01). Besides, much more significant effective in WUE-precipitation was found in P.sylvestris and P.tabulaeformis compared with Q.mongolica. Therefore, it is difficult to identify WUE inter-species differences based on leaf δ¹³C, which were greatly response to environmental factors as rainfall and altitude. Our findings will lay the foundation for future scientific studies of WUE based on the δ¹³C.

Key words: δ¹³C, water use efficiency, precipitation, air temperature, altitude

中图分类号:

Q143

李景浩, 李慧, 魏亚伟, 张淞著, 朱文旭, 邓继峰, 宋依璇, 周永斌. 樟子松、油松、蒙古栎水分利用效率种间变化及其对环境因子的响应差异[J]. 植物研究, 2016, 36(4): 581-587.

LI Jing-Hao, LI Hui, WEI Ya-Wei, ZHANG Song-Zhu, ZHU Wen-Xu, DENG Ji-Feng, SONG Yi-Xuan, ZHOU Yong-Bin. Water Use Efficiency of Pinus sylvestris, Pinus tabulaeformis, Quercus mongolica and Their Response Differences to Environmental Factors[J]. Bulletin of Botanical Research, 2016, 36(4): 581-587.

参考文献

1.Yu G R,Wang Q F,Zhang J.Modeling the water use efficiency of soybean and maize plants under environmental stresses:application of a synthetic model of photosynthesis transpiration based on stomatal behavior[J].Journal of Plant Physiology,2004,161(3):303-318.
2.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 Q,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.
3.Zheng Y R,Rimmington G M,Xie Z X,et al.Responses to air temperature and soil moisture of growth of four dominant species on sand dunes of central Inner Mongolia[J].Journal of Plant Research,2008,121(5):473-482.
4.Smedley M P,Dawson T E,Comstock G P,et al.Seasonal carbon isotope discrimination in a grassland community[J].Oecologia,1991,85(3):314-320.
5.Picon-cochard C,Coll L,Balandier P.The role of below-ground competition during early stages of secondary succession:the case of 3-year-old Scots pine(Pinus sylvestris L.) seedlings in an abandoned grassland[J].Oecologia,2006,148(3):373-383.
6.Tan W B,Wang G A,Han J M,et al.δ13C and water-use efficiency indicated by δ¹³C of different plant functional groups on Changbai Mountains,Northeast China[J].Chinese Science Bulletin,2009,54(10):1759-1764.
7.白洁冰,王志刚,陈飞,等.食松、油松和樟子松抗旱水分生理比较研究[J].西北林学院学报,2008,23(1):10-13.
Bai J B,Wang Z G,Chen F,et al.Water physiology of Pinus edulis Engelm.,P.tabulaeformis and P.sylvestris var.mongolica under Drought Stress[J].Journal of Northwest Forestry University,2008,23(1):10-13.
8.陈英华,胡俊,李裕红,等.碳稳定同位素技术在植物水分胁迫研究中的应用[J].生态学报,2004,24(5):1027-1033.
Chen Y H,Hu J,Li Y H,et al.Application of stable carbon isotope techniques to research into water stress[J].Acta Ecologica Sinica,2004,24(5):1027-1033.
9.Farquhar G D,Ehleringer J R,Hubick K T.Carbon isotope discrimination and photosynthesis[J].Annual Review of Plant Physiology and Plant Molecular Biology,1989,40(1):503-537.
10.于文颖,纪瑞鹏,冯锐,等.不同生育期玉米叶片光合特性及水分利用效率对水分胁迫的响应[J].生态学报,2015,35(9):2902-2909.
Yu W Y,Ji R P,Feng R,et al.Response of water stress on photosynthetic characteristics and water use efficiency of maize leaves in different growth stage[J].Acta Ecologica Sinica,2015,35(9):2902-2909.
11.Cernusak L A,Aranda J,Marshall J D,et al.Large variation in whole-plant water-use efficiency among tropical tree species[J].New Phytologist,2007,173(2):294-305.
12.陈冬梅,康宏樟,刘春江.中国大陆第四纪冰期潜在植物避难所研究进展[J].植物研究,2011,31(5):623-632.
Chen D M,Kang H Z,Liu C J.An overview on the potential quaternary glacial refugia of plants in China mainland[J].Bulletin of Botanical Research,2011,31(5):623-632.
13.苏波,韩兴国,李凌浩,等.中国东北样带草原区植物δ13C值及水分利用效率对环境梯度的响应[J].植物生态学报,2000,24(6):648-655.
Su B,Han X G,Li L H,et al.Responses of δ¹³C value and water use effieicency of plant species to environmental gradients along the grassland zone of northeast China transect[J].Acta Phytoecologica Sinica,2000,24(6):648-655.
14.Gouveia A C,Freitas H.Modulation of leaf attributes and water use efficiency in Quercus suber along a rainfall gradient[J].Trees,2009,23(2):267-275.
15.李善家,张有福,陈拓.西北地区油松叶片稳定碳同位素特征与生理指标的关系[J].应用与环境生物学报,2010,16(5):603-608.
Li S J,Zhang Y F,Chen T.Correlations between foliar stable carbon isotope composition and physiological parameters of Pinus tabulaeformis Carr.in Northwestern China[J].Chinese Journal of Applied and Environmental Biology,2010,16(5):603-608.
16.何春霞,李吉跃,孟平,等.树木叶片稳定碳同位素分馏对环境梯度的响应[J].生态学报,2010,30(14):3828-3838.
He C X,Li J Y,Meng P,et al.Changes in leaf stable carbon isotope fractionation of trees across climatic gradients[J].Acta Ecologica Sinica,2010,30(14):3828-3838.
17.Liu X H,Zhao L J,Menassie G,et al.Foliar δ¹³C and δ¹⁵N values of C₃ plants in the Ethiopia Rift Valley and their environmental controls[J].Chinese Science Bulletin,2007,52(9):1265-1273.
18.Morecroft M D,Woodward F I.Experimental investigations on the environmental determination of δ¹³C at different altitudes[J].Journal of Experimental Botany,1990,41(10):1303-1308.
19.宋立宁,朱教君,李明财,等.不同降水条件下科尔沁沙地南缘疏林草地樟子松针叶δ¹³C和叶性状特征[J].应用生态学报,2012,23(6):1435-1440.
Song L N,Zhu J J,Li M C,et al.Needles stable carbon isotope composition and traits of Pinus sylvestris var.mongolica in sparse wood grassland in south edge of Keerqin Sandy Land under the conditions of different precipitation[J].Chinese Journal of Applied Ecology,2012,23(6):1435-1440.
20.刘贤赵,王国安,李嘉竹,等.中国北方农牧交错带C₃草本植物δ¹³C与温度的关系及其对水分利用效率的指示[J].生态学报,2011,31(1):123-136.
Liu X Z,Wang G A,Li J Z,et al.Relationship between temperature and δ¹³C values of C₃ herbaceous plants and its implications of WUE in farming-pastoral zone in North China[J].Acta Ecologica Sinica,2011,31(1):123-136.
21.Körner C,Farquhar G D,Roksandic Z.A global survey of carbon isotope discrimination in plants from high altitude[J].Oecologia,1988,74(4):623-632.
22.喻方圆,徐锡增,Guy R D.水分和热胁迫处理对4种针叶树苗木气体交换和水分利用效率的影响[J].林业科学,2004,40(2):38-44.
Yu F Y,Xu X Z,Guy R D.Effects of water plus heat stress on gas exchange and water use efficiency in four species of coniferous seedlings[J].Scientia Silvae Sinicae,2004,40(2):38-44.
23.Nicotra A B,Cosgrove M J,Cowling A,et al.Leaf shape linked to photosynthetic rates and temperature optima in South African Pelargonium species[J].Oecologia,2008,154(4):625-635.
24.王丽霞,李心清,郭兰兰.中东亚干旱半干旱区C₃植物δ¹³C值的分布及其对气候的响应[J].第四纪研究,2006,26(6):955-961.
Wang L X,Lee X Q,Guo L L.The distribution of δ¹³C value of C₃ plant and its response to climate in arid and semiarid central east Asia[J].Quaternary Sciences,2006,26(6):955-961.
25.Farquhar G D,Richards R A.Isotopic composition of plant carbon correlates with water-use efficiency of wheat genotypes[J].Functional Plant Biology,1984,11(6):539-552.
26.陈拓,冯虎元,徐世建,等.荒漠植物叶片碳同位素组成及其水分利用效率[J].中国沙漠,2002,22(3):288-291.
Chen T,Feng H Y,Xu S J,et al.Stable carbon isotope composition of desert plant leaves and water-use efficiency[J].Journal of Desert Research,2002,22(3):288-291.
27.Morecroft M D,Woodward F I,Marrs R H.Altitudinal trends in leaf nutrient contents,leaf size and δ¹³C of Alchemilla alpina[J].Functional Ecology,1992,6(6):730-740.
28.Marshall J D,Zhang J W.Carbon isotope discrimination and water-use efficiency in native plants of the north-central Rockies[J].Ecology,1994,75(7):1887-1895.
29.王婷,段文标,陈立新,等.小兴安岭谷地云冷杉林林隙形成木特征及植物多样性[J].植物研究,2015,35(2):304-309.
Wang T,Duan W B,Chen L X,et al.Characteristics of gap makers and plant diversity in Picea asperata and Abies fabri forest in Xiaoxing'an Mountains[J].Bulletin of Botanical Research,2015,35(2):304-309.

[1]	钱婷, 赵凡, 张玉洁, 李雪丽, 孙坤, 张辉. 肋果沙棘和西藏沙棘转录因子bHLH94基因对海拔适应性分化的研究[J]. 植物研究, 2022, 42(6): 976-985.
[2]	徐波, 石福孙, 王丽华, 杨子松. 海拔对暗紫贝母物候及形态特征的影响[J]. 植物研究, 2021, 41(5): 666-674.
[3]	程薪宇, 焉志远, 郭梦桥, 徐海军, 佟斌, 倪红伟. 黑龙江省植物花期对气温变化的响应[J]. 植物研究, 2021, 41(1): 26-36.
[4]	马文梅, 王一峰, 赵夏纬, 李蕾. 羌塘雪兔子繁殖特征及资源分配的海拔差异[J]. 植物研究, 2019, 39(5): 707-715.
[5]	王飞, 屠彩芸, 曹秀文, 刘锦乾, 杨永红, 张涛, 齐昊. 白龙江干旱河谷不同坡向主要灌丛群落随海拔梯度变化的物种多样性研究[J]. 植物研究, 2018, 38(1): 26-36.
[6]	丛明旸, 曹迪, 陈国平, 陈宝政, 孙丰宾. 燕山和太行山过渡区植物多样性垂直变化特点[J]. 植物研究, 2017, 37(5): 673-681.
[7]	马诣欣, 王一峰, 李怡颖, 王文越, 寇靖. 青藏高原东缘禾叶风毛菊的繁殖分配与海拔的相关性[J]. 植物研究, 2017, 37(1): 23-30.
[8]	兰倩;史胜青;刘建锋;常二梅;邓楠;江泽平*. 海南省小叶买麻藤种子形态及营养成分研究[J]. 植物研究, 2013, 33(5): 616-622.
[9]	宁慧霞;努尔波拉提;刘敏;王卉;康喜亮;王晓军*. 低海拔种植天山雪莲一年生植株的生物学特性[J]. 植物研究, 2012, 32(6): 662-668.
[10]	狄晓艳;池喜梅;陈建文;王孟本*. 5个油松种源光合特性的比较研究[J]. 植物研究, 2012, 32(2): 165-170.
[11]	刘万宏;朱蠡庆;姚波. 植物Δ¹²-脂肪酸脱氢酶的生物信息学分析[J]. 植物研究, 2010, 30(3): 337-343.
[12]	狄晓艳;朱小琪;马建平;池喜梅;陈建文;王孟本*. 土壤水分胁迫对5个种源油松光合特性的影响[J]. 植物研究, 2009, 29(5): 539-543.
[13]	吴杨;贺俐;李伟;张木清. 斑茅δ-OAT*基因克隆及其序列分析[J]. 植物研究, 2009, 29(5): 577-584.
[14]	施海燕;王一峰*;王剑虹. 青藏高原不同海拔地7种风毛菊属植物叶片解剖结构的研究[J]. 植物研究, 2009, 29(3): 289-294.
[15]	高增璐;高玉葆*;郑志荣;张晓春. 皇甫川流域梁地生境中间锦鸡儿不同龄级植株光合生理特性的比较研究[J]. 植物研究, 2009, 29(2): 182-186.