ZUO Sheng-peng,WANG Hui-mei,LI Feng-ming,et al.Comparison of Physiological Ecology of Four Typical Leguminous Forages Communities in Semi-arid Loess Plateau of China[J].Research of Soil and Water Conservation,2010,17(01):167-173.
半干旱区四种典型豆科牧草群落生理生态的分异研究
- Title:
- Comparison of Physiological Ecology of Four Typical Leguminous Forages Communities in Semi-arid Loess Plateau of China
- Keywords:
- Leguminous forage; population ecology; drought press; vegetation productivity; Source-Sink Modulation; growth strategy
- 分类号:
- S541.01
- 摘要:
- 在黄土高原半干旱地区,植物种群生态的改善是植被建设与生态修复的关键.通过人工植被调查,比较了四种豆科牧草的种群生长的生态差异,初步探讨了牧草生产力与种群生态的可能耦合网络机制.结果表明:基于四种豆科牧草种群的土壤水分含量和垂直下降分布规律,发现沙打旺与苜蓿为高生产力型,红豆草与胡枝子为低生产力型,这可能与它们水分利用状况和豆科牧草本身的固氮或氮沉积的氮汇与源转化调节有关.苜蓿植株生物量表现较高,与其多年生庞大根系充分吸收土壤深层水分有关,反映了根冠生长与土壤条件的耦合是导致遗传特性响应差异的重要原因,因此调整植物根冠关系以增强植物的抗旱适应能力理论上是可行的.相关分析发现生产力、根系生物量、土壤环境(水分和层次)为网络耦联相关,特别是90-100cm的土壤空间水分与根冠比成正相关,这可能说明这个层次(根系的浅层集中分布区)为土壤水库与土壤干层相转变的阈值界面.因此从干旱胁迫条件下建立的适应性生存对策上考虑,苜蓿适宜在干旱立地推广应用,不仅具水土保持功效,而且植被生产力高,应为黄土高原生态恢复和生态建设的重要参考物种.
- Abstract:
- In semi-arid Loess Plateau of Northwestern China,the improvement of population ecology is critical for vegetation construction and ecological restoration related to sustainable development.In the present study,with artificial investigation of vegetation parameters,ecological difference for four leguminous forages population is compared and analyzed.Meanwhile,it also discusses possible coupling mechanism between herbage productivity and population ecology based on network relationship analysis.It is discovered that four materials show similar distribution law of soil water,declining vertically with soil depth,even with significant content difference of soil moisture.From the opinion of net primary productivity,two types are divided as high productivity in Medicago sativa and Astragalus adsurgens,low for Onobrychis viciaefolia and Lespedeza dahurica.The separation closely relates to water utilization property of interspecific specificity as well as nitrogen transition of N deposition and fixing.M.sativa displayed high aboveground biomass,which combines markedly with giant roots imbibing soil water even from deep layer.This reflects that the coincidence between canopy growth and soil circumstance will significantly lead to response of genetic difference to any stress like drought.Therefore,it is feasible to enhance drought resistance for adjusting root and canopy relationship from the theory view.With the relationship analysis,it is deduced that vegetation productivity,roots biomass and soil environment such as water and physical layer is correlated as a net system.In soil depth as 90-100 cm for roots distribution districts,it is observed that soil moisture show position relation to the ratio of root to canopy,which is assumed that it will be the interface about soil water storage and deficit.Based on the above description,M.sativa is adaptive to be popular in the loess Plateau from living strategy among four tested species.It results from its better benefit of soil and water conservation,but also with higher productivity.So its wide propagation will be available for ecological restoration and sustainable development of vegetation resources on the Loess Plateau.
参考文献/References:
[1] Lu C H,van Ittersum M K,Rabbinge R.Quantitative assessment of resource-use efficient cropping systems:a case study for Ansai in the Loess Plateau of China[J].European Journal of Agronomy,2003,19(2):311-326.
[2] Ashraf M,Mahmood T,Azam F,et al.Comparative effects of applying leguminous and non-leguminous green manures and inorganic N on biomass yield and nitrogen uptake in flooded rice(Oryza sativa L.)[J].Biology and Fertility of Soils,2004,40(2):147-152.
[3] Liu W Z,Hu M J,Li F M,et al.Ecological characteristics of soil water and its relations to landform andvegetation in a small semiarid watershed in a loess hilly area of China[J].The International Journal of Sustainable Development and World Ecology,2005,12(3):326-333.
[4] Kita F,Hongo A,Iwashita F.Cytology of wild and cultivated forms and inter-regional hybrids of Astragalus adsurgens Pall.from China and Japan[J].SABRAO Journal of Breeding and Genetics,1998,30(1):35-44.
[5] Tufenkc S,Erman M,Sonmez F.Effect of phosphorus and nitrogen application and Rhizobium inoculation onyield and nutrient uptake in sainfoin(Onobrychis sativa) [J].Indian Journal of Agricultural Sciences,2005,75(5):261-264.
[6] Du F,Shao H B,Shan L,et al.Secondary succession and its effects on soil moisture and nutrition in abandoned old-fields of hilly region of Loess Plateau,China[J].Colloids and Surfaces B,Biointerfaces,2007,58(2):278-285.
[7] Shangguan Z P,Zheng S X.Ecological properties of soil water and effects on forest vegetation in the Loess Plateau[J].The International Journal of Sustainable Development and World Ecology,2006,13(4):307-314.
[8] Yang M Y,Tian J L,Liu P L.Investigating the spatial distribution of soil erosion and deposition in asmall catchment on the Loess Plateau of China,using 137Cs[J].Soil & Tillage Research,2006,87(2):186-193.
[9] Liu W Z,Hu M J,Li F M,et al.Ecological characteristics of soil water and its relations to landform and vegetation in a small semiarid watershed in a loess hilly area of China[J].The International Journal of Sustainable Development and World Ecology,2005,12(3):326-333.
[10] Moreno F,Pelegrin F,Fernandez J E,et al.Soil physical properties,water depletion and crop development undertraditional and conservation tillage in southern Spain[J].Soil & Tillage Research,1997,41(1/2):25-42.
[11] Xu B C,Gichuki P,Shan L,et al.Aboveground biomass production and soil water dynamics of four leguminous forages in semiarid region,northwest China[J].South African Journal of Botany,2006,72(4):507-516.
[12] Betts R A,Boucher O,Collins M,et al.Projected increase in continental runoff due to plant responses to increasing carbon dioxide[J].Nature,2007,448(7157):1037-1041.
[13] Reich P B,Knops J,Tilman D,et al.Plant diversity enhances ecosystem responses to elevated CO2 and nitrogen deposition[J].Nature,2001,410(6830):809-812.
[14] Hubbell S P,Foster R B,O’ Brien S T,et al.Light-gap disturbances,recruitment limitation,and tree diversity in aneotropical forest[J].Science,1999,283(5401):554-557.
[15] Suding K N,LeJeune K D,Seastedt T R.Competitive impacts and responses of an invasive weed:dependencies onnitrogen and phosphorus availability[J].Oecologia,2004,141(3):526-535.
[16] Xu B C,Li F M,Shan L,et al.Gas exchange,biomass partition,and water relationships of three grass seedlings under water stress[J].Weed Biology and Management,2006,6(2):79-88.
[17] Thomas G V,Biddappa C C,Prabhu S R.Evaluation of N2-fixing cover legumes as green manures for N substitutionin coconut(Cocos nucifera Linn.) palm[J].Tropical Agriculture,2001,78(1):13-18.
[18] Wang W Y,Wang Q J,Wang H C.The effect of land management on plant community composition,species diversity,and productivity of alpine Kobersia steppe meadow[J].Ecological Research,2006,21(2):181-187.
[19] NI J,Wang G H.Northeast China Transect(NECT):Ten-Year Synthesis and Future Challenges[J].Acta Botanica Sinica,2004,46(4):379-390.
[20] Escos J,Pugnaire F I,Puigdefabregas J,et al.Stress resistance strategy in an arid land shrub:interactions between developmental instability and fractal dimension[J].Journal of Arid Environments,2000,45(4):325-336.
[21] Maggio A,Pascale S de,Ruggiero C,et al.Physiological response of field-grown cabbage to salinity and drought stress[J].European Journal of Agronomy,2005,23(1):57-67.
[22] Bingham I J.Soil-root-canopy interactions[J].Annals of Applied Biology,2001,138(2):243-251.
[23] Shinozaki K,Yamaguchi S,Kazuko S,et al.Gene networks involved in drought stress response and tolerance[J].Journal of Experimental Botany,2007,58(2):221-227.
[24] Li F M,Liu X L,Li S Q.Effects of early soil water distribution on the dry matter partition between roots and shoots of winter wheat[J].Agricultural Water Management,2001,49(3):163-171.
[25] Shi H,Shao M G.Soil and water loss from the Loess Plateau in China[J].Journal of Arid Environments,2000,45(1):9-20.
[26] Aiman E A.Modeling of alkaline scale formation in falling film horizontal-tube multiple-effect distillers[J].Desalination,2007,205(1):124-139.
[27] Shangguan Z P.Soil desiccation occurrence and its impact on forest vegetation in the Loess Plateau of China[J].The International Journal of Sustainable Development and World Ecology,2007,14(3):299-306.
[28] Irvine J,Law B E,Kurpius M R.Coupling of canopy gas exchange with root and rhizosphere respiration in a semi-arid forest[J].Biogeochemistry,2005,73(1):271-282.
[29] Laundre J W.Relationships between water availability,carbon isotope discrimination and plant productivity in two semi-arid grass and shrub species[J].Journal of Arid Environments,1999,41(1):49-60.
[30] James A,Andre F C,James N,et al.Ecological restoration:A new frontier for nature conservation and economics[J].Journal for Nature Conservation,2006,14(3/4):135-139.
[31] Castillo V M,Martinez M M,Albaladejo J.Runoff and soil loss response to vegetation removal in a semiarid environment[J].Soil Science Society of America Journal,1997,61(4):1116-1121.
备注/Memo
收稿日期:2009-8-6。
基金项目:中科院“百人计划”择优支持项目(C24016200);国家自然科学基金(30900186);安徽高校省级自然科学研究项目(KJ2008B192):黄土高原土壤侵蚀与旱地农业国家重点实验室基金(10501-242);安徽师范大学校科研专项(2009xzx15)
作者简介:左胜鹏(1979- ),男,江西南昌人,博士,副教授,主要从事环境生态学教学科研.E-mail:zuoshengpeng@163.com
通讯作者:李凤民(1962- ),男,河北新乐人,博士,教授,博士生导师,主要研究领域为植物生理生态学和生态系统生态学.E-mail:fmli@lzu.edu.cn