樟子松幼苗水力结构参数和生长特征对模拟降水梯度的响应

摘要/Abstract

摘要： 水分是影响樟子松生长和存活的关键因素，为弄清樟子松幼苗对水分胁迫的响应过程，采用人工控制降水处理方法 (105%年均降水量：500 mm，无干旱; 74%年均降水量: 350 mm，轻度干旱；42%年均降水量: 200 mm，干旱)，监测了2 a生樟子松幼苗水力结构和生长特征对降水处理的响应。结果表明：随着降水量减少，幼苗水分饱和亏缺没有发生显著变化；轻度干旱下幼苗组织密度显著增加，干旱下幼苗失水系数显著降低；表明樟子松幼苗的保水、抗旱能力随干旱胁迫程度增强而增加。干旱胁迫显著降低了株高、基径和各器官生物量的增加量，轻度干旱胁迫下幼苗根重比和根冠比显著增加，表明轻度干旱胁迫改变了生物量分配格局，促使幼苗向有利于水分维持方向的发展策略；与轻度干旱相比，干旱胁迫下幼苗生物量分配策略并没有发生明显变化。樟子松幼苗可以通过改变水力结构特征和生物量分配策略来适应轻度干旱；而在干旱下幼苗仅改变水力结构特征，不利于其在干旱环境下生存。

关键词: 樟子松(Pinus sylvestris var. mongolica[WTBZ]), 幼苗, 水力结构, 降水梯度, 抗旱性, 生物量, 根冠比

Abstract: Water plays a key role in affecting the survival and growth of Pinus sylvestris var. mongolica (MP) on sandy 1and. In order to understand the response of MP seedlings to water stress, in this study the responses of hydraulic structure and growth parameters of 2yearold MP seedlings to the stimulated precipitation gradients at three levels (105% mean annual precipitation: 500 mm, without drought stress, P1; 74% mean annual precipitation: 350 mm, moderate drought stress, P2; and 42% mean annual precipitation, 200 mm, drought stress, P3) were investigated. The results showed that the water saturated deficit of the seedlings was not changed with the decrease of precipitation, tissue density of the seedlings was significantly increased under P2, and the coefficient of water loss of seedlings was significantly decreased under P3. These revealed that the droughtresistance and waterholding capability of the seedlings were increased with the increase of drought stress. Height and base diameter increment of MP plants and biomass accumulation of organs were restricted by drought stress. The root weight ratio and rootshoot ratio were significantly increased under P2, which revealed that the biomass allocation pattern was altered under P2, and the waterholding capability of the seedlings were promoted. Compared with the situation under P2, the biomass allocation of the seedlings was not changed under P3. In conclusion, the hydraulic structure and biomass allocation of MP seedlings could be changed under P2, but only the hydraulic structure could be changed under P3, which was disadvantageous for the survival of MP seedlings in arid environment.

Key words: Pinus sylvestris var. mongolica , seedling, hydraulic structure, precipitation gradient, drought resistance, biomass, root-shoot ratio

宋立宁, 朱教君, 康宏樟. 樟子松幼苗水力结构参数和生长特征对模拟降水梯度的响应[J]. 干旱区研究, 2013, 30(6): 1021-1027.

SONG Li-Ning, ZHU Jiao-Jun, KANG Hong-Zhang. Response of Hydraulic Structure Parameters and Growth of Pinus sylvestris var. mongolica Seedling to Simulated Precipitation Gradient[J]. , 2013, 30(6): 1021-1027.

参考文献

符淙斌,马柱国.全球变化与区域干旱化〔J〕.大气科学,2008,32(4):752-760.
Chaves M M,Pereira J S,Maroco J,et al.How plants cope with water stress in the field? photosynthesis and growth〔J〕.Annals of Botany,2002,89 (7):907-916.
涂璟，王克勤.干旱地区造林树种的水分生理生态的研究进展〔J〕.西北林学院学报,2003,18(3):26-30.〔Tu Jing,Wang Keqin.A review on the progress of physiological and ecological study of afforestation trees in arid area〔J〕.Journal of Northwest Forestry University,2003,18(3):26-30.〕
Kozlowski T T,Pallardy S G.Acclimation and adaptive responses of woody plants to environmental stresses〔J〕.Botanical Review,2002,68:270-334.
李燕,薛立,吴敏.树木抗旱机理研究进展〔J〕.生态学杂志,2007,26(11):1 857-1 866.〔Li Yan,Xue Li,Wu Min.Research advances in mechanisms of tree species drought resistance〔J〕.Chinese Journal of Ecology,2007,26(11):1 857-1 866.〕
Yin C Y,Wang X,Duan B L,et al.Early growth,dry matter allocation and water use efficiency of two sympatric [WTBX]Populus[WTBZ] species as affected by water stress〔J〕.Environmental and Experimental Botany,2005,53(3):315-322.
康宏樟,朱教君,李智辉,等.沙地樟子松天然分布与引种栽培〔J〕.生态学杂志,2004,23(5):134-139.〔Kang Hongzhang,Zhu Jiaojun,Li Zhihui,et al.Natural distribution of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] on sandy land and its cultivation as an exotic species〔J〕.Chinese Journal of Ecology,2004,23(5):134-139.〕
曾德慧,姜凤岐,范志平,等.樟子松人工固沙林稳定性的研究〔J〕.应用生态学报,1996,7(4):337-343.〔Zeng Dehui,Jiang Fenqi,Fan Zhiping,et al.Stability of Mongolian pine plantations on sandy land 〔J〕.Chinese Journal of Ecology,1996,7(4):337-343.〕
焦树仁.辽宁省章古台樟子松固沙林提早衰弱的原因与防治措施〔J〕.林业科学,2001,37(2):131-138.〔Jiao Shuren.Report on the causes of the early decline of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] shelterbelt and its preventative and control measures in Zhanggutai of Liaoning Province〔J〕.Scientia Silvae Sinicae,2001,37(2):131-138.〕
朱教君,康宏樟,李智辉,等.水分胁迫对不同年龄沙地樟子松幼苗存活与光合特性影响〔J〕.生态学报,2005,25(10):2 527-2 533.〔Zhu Jiaojun,Kang Hongzhang,Li Zhihui,et al.Impact of water stress on survival and photosynthesis of Mongolian pine seedlings on sandy land〔J〕.Acta Ecologica Sinica,2005,25(10):2 527-2 533.〕
曾德慧,尤文忠,范志平,等.樟子松人工固沙林天然更新障碍因子分析〔J〕.应用生态学报,2002,13(3):257-261.〔Zeng Dehui,You Wenzhong,Fan Zhiping,et al.Analysis of natural regeneration barriers of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] plantation on sandy land〔J〕.Chinese Journal of Applied Ecology,2002,13(3):257-261.〕
Zhu J J,Kang H Z,Tan H,et al.Effects of drought stresses induced by polyethylene glycol on germination of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] seeds from natural and plantation forests on sandy land〔J〕.Journal of Forest Research,2006,11(5):319-328.
朱教君,李智辉,康宏樟,等.聚乙二醇模拟水分胁迫对沙地樟子松种子萌发影响研究〔J〕.应用生态学报,2005,16(5):801-804.〔Zhu Jiaojun,Li Zhihui,Kang Hongzhang,et al.Effects of polyethylene glycol (PEG) simulated drought stress on [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] seed germination on sandy land〔J〕.Chinese Journal of Applied Ecology,2005,16(5):801-804.〕
褚建民,邓东周,王琼,等.降雨量变化对樟子松生理生态特性的影响〔J〕.生态学杂志,2011,30(12):2 672-2 678.〔Chu Jianmin,Deng Dongzhou,Wang Qiong,et al.Effects of precipitation change on ecophysiological characteristics of Mongolian pine〔J〕．Chinese Journal of Ecology,2011,30(12):2 672-2 678.〕
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δ13C和叶性状特征〔J〕.应用生态学报,2012,23(6):1 435-1 440.〔Song Lining,Zhu Jiaojun,Li Mingcai,et al.Needle δ13C and traits of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] under various precipitations in sparse wood grassland of the south Keerqin sandy land〔J〕.Chinese Journal of Applied Ecology,2012,23(6):1 435-1 440.〕
王臣立,韩士杰,黄明茹.干旱胁迫下沙地樟子松脱落酸变化及生理响应〔J〕.东北林业大学学报,2001,29(1):40-43.〔Wang Chenli,Han Shijie,Huang Mingru.The ABA change and physiological responses of [WTBX]Pinus sylvestris[WTBZ] L.var.[WTBX]mongolica[WTBZ] Litv.to water shortage〔J〕.Journal of Northeast Forestry University,2001,29(1):40-43.〕
夏新莉,郑彩霞,尹伟伦.土壤干旱胁迫对樟子松针叶膜脂过氧化、膜脂成分和乙烯释放的影响〔J〕.林业科学,2000,36(3):8-12.〔Xia Xinli,Zheng Caixia,Yin Weilun.Effect of drought stress on the peroxidation of membrane lipids,the composition of membrane fatty acids and ethylene evolution of needles of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica [WTBZ]Litv.〔J〕.Scientia Silvae Sinicae,2000,36(3):8-12.〕
孙一荣,朱教君,康宏樟.水分处理对沙地樟子松幼苗膜脂过氧化作用及保护酶活性影响〔J〕.生态学杂志,2008,27(5):729-734.〔Sun Yirong,Zhu Jiaojun,Kang Hongzhang.Effects of soil water condition on membrane lipid peroxidation and protective enzyme activities of [WTBX]Pinus sylvestris[WTBZ] var.[WTBX]mongolica[WTBZ] seedlings〔J〕．Chinese Journal of Ecology,2008,27(5):729-734.〕
Zhu J J,Li F Q,Xu M L,et al.The role of ectomycorrhizal fungi in alleviating pine decline in semiarid sandy soil of northern China:An experimental approach〔J〕.Annals of Forest Science,2008,65:304.
何维明.水分因素对沙地柏实生苗水分和生长特征的影响〔J〕.植物生态学报,2001,25(1):11-16.〔He Weiming.Effects of water stress factor on hydraulic and growth characteristics of [WTBX]Sabina vulgaris [WTBZ]seedling〔J〕.Acta Phytoecologica Sinica,2001,25(1):11-16.〕
Beadle C L.Growth analysis〔C〕// Hall E O,Scurlock J M O,BolhrNorderkampf H R.Photosynthesis and Production in a Changing Environment:A Field and Laboratory Manual.London:Chapman & Hall,1993:36-46.
颜淑云,周志宇,邹丽娜,等.干旱胁迫对紫穗槐幼苗生理生化特性的影响〔J〕.干旱区研究,2011,28(1):139-145.〔Yan Shuyun,Zhou Zhiyu,Zou Lina,et al.Effect of drought stress on physiological and biochemical properties of[WTBX] Amorpha fruticosa [WTBZ]seedlings〔J〕.Arid Zone Research,2011,28(1):139-145.〕
ChristensenDalsgaard K K,Ennos A R.Effects of drought acclimation on the mechanical properties of[WTBX] Ochroma pyramidale,Betula pendula [WTBZ]and[WTBX] Acacia karroo[WTBZ] tree seedling stems 〔J〕.Forestry,2012,85(2):215-223.
Eissenstat D M,Whaley E L,Volder A,et al.Recovery of citrus surface roots following prolonged exposure to dry soil〔J〕.Journal of Experimental Botany,1999,50:1 845-1 854.
徐飞,郭卫华,徐伟红,等.刺槐幼苗形态、生物量分配和光合特性对水分胁迫的响应〔J〕.北京林业大学学报,2010,32(1):24-30.〔Xu Fei,Guo Weihua,Xu Weihong,et al.Effects of water stress on morphology,biomass allocation and photosynthesis in [WTBX]Robinia pseudoacacia [WTBZ]seedlings〔J〕.Journal of Beijing Forestry University,2010,32(1):24-30.〕
吴建国.降雨量和温度变化对麻花艽叶片光合作用及相关生理参数的影响〔J〕.中国草地学报,2010,32(5):73-79.〔Wu Jianguo.Effects of changing in precipitation and temperature on the photosynthesis and related physiological parameters of StrawYellow Gentian〔J〕.Chinese Journal of Grassland,2010,32(5):73-79.〕
Maes W H,Achten W M J,Reubens B,et al.Plantwater relationships and growth strategies of [WTBX]Jatropha curcas [WTBZ]L.seedlings under different levels of drought stress〔J〕.Journal of Arid Environments,2009,73:877-884.
刘亚丽,王庆成,杨远彪,等.水分胁迫对脂松幼苗生长和光合特性的影响〔J〕.东北林业大学学报,2011,39(4):33-36.〔Liu Yali,Wang Qingcheng,Yang Yuanbiao,et al.Effects of water stress on growth and photosynthetic characteristics of red pine seedlings 〔J〕.Journal of Northeast Forestry University,2011,39(4):33-36.〕
闫海霞,方路斌,黄大庄.干旱胁迫对条墩桑生物量分配和光合特性的影响〔J〕.应用生态学报,2011,22(12):3 365-3 370.〔Yan Haixia,Fang Lubin,Huang Dazhuang.Effects of drought stress on the biomass distribution and photosynthetic characteristics of cluster mulberry〔J〕.Chinese Journal of Applied Ecology,2011,22(12):3 365-3 370.〕
张晓雷,曾凡江,刘波,等.不同土壤水分处理对疏叶骆驼刺幼苗光合特性及干物质积累的影响〔J〕.干旱区研究,2010,27(4):649-655.〔Zhang Xiaolei,Zeng Fanjiang,Liu Bo,et al.Effects of different soil moisture treatments on the photosynthesis and dry matter accumulation of [WTBX]Alhagi sparsifolia[WTBZ] seedlings〔J〕.Arid Zone Research,2010,27(4):649-655.〕
程军回,张元明.水分胁迫下荒漠地区2种草本植物生物量分配策略〔J〕.干旱区研究,2012,29(3):432-439.〔Chen Junhui,Zhang Yuanming.Strategies for biomass allocation of two desert plant species under water stress〔J〕.Arid Zone Research,2012,29(3):432-439.〕
杨燕,刘庆,林波,等.不同施水量对云杉幼苗生长和生理生态特征的影响〔J〕.生态学报,2005,25(9):2 152-2 158.〔Yang Yan,Liu Qing,Lin Bo,et al.Effects of water supply on the growth and ecophysiology of seedlings of the dragon spruce [WTBX]Picea asperata [WTBZ]Mast〔J〕.Acta Ecologica Sinica,2005,25(9):2 152-2 158.〕
Guo W,Li B,Zhang X,et al.Architectural plasticity and growth responses of [WTBX]Hippophae rhamnoides [WTBZ]and [WTBX]Caragana intermedia[WTBZ] seedlings to simulated water stress〔J〕.Journal of Arid Environments,2007,69:385-399.
姚华,赵晓英,李晓梅,等.四种灌木幼苗对水分胁迫的生长响应〔J〕.干旱区研究,2009,26(5):720-726.

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