Acta Prataculturae Sinica ›› 2014, Vol. 23 ›› Issue (2): 313-322.DOI: 10.11686/cyxb20140237
Previous Articles Next Articles
PENG Hai-ying1, LI Xiao-yan2,3, TONG Shao-yu1
Received:
2013-06-06
Online:
2014-02-25
Published:
2014-04-20
CLC Number:
PENG Hai-ying, LI Xiao-yan, TONG Shao-yu. Advance in shrub encroachment in arid and semiarid region[J]. Acta Prataculturae Sinica, 2014, 23(2): 313-322.
[1] Scurlock J M O, Hall D O. The global carbon sink: a grassland perspective[J]. Global Change Biology, 1998, 4: 229-233. [2] 李博. 中国北方草地退化及其防治对策[J]. 中国农业科学, 1997, 30(6): 553-558. [3] Van Auken O W. Shrub invasions of North American semiarid grasslands[J]. Annual Review of Ecology and Systematics, 2000, 31: 197-215. [4] Eldridge D J, Bowker M A, Maestre F T, et al. Impacts of shrub encroachment on ecosystem structure and functioning: towards a global synthesis[J]. Ecology Letters, 2011, 14(7): 709-722. [5] MEA. Millennium Ecosystem Assessment—Ecosystems and Human Well-Being: Desertification Synthesis[R]. World Resources Institute, Washington, DC, 2005. [6] Campbell B D, Stafford-Smith D M, McKeon G M. Elevated CO2 and water supply interactions in grasslands: a pastures and rangelands management perspective[J]. Global Change Biology, 1997, 3: 177-187. [7] Morgan J A, Milchunas D G, LeCain D R, et al. Carbon dioxide enrichment alters plant community structure and accelerates shrub growth in the shortgrass steppe[J]. Proceedings of the National Academy of Science of the United States of America, 2007, 104: 14724-14729. [8] Reynolds J F, Smith D M S, Lambin E F, et al. Global desertification: Building a science for dryland development[J]. Science, 2007, 316: 847-851. [9] Pacala S W, Hurtt G C, Baker D, et al. Consistent land-and atmosphere-based US carbon sink estimates[J]. Science, 2001, 292: 2316-2320. [10] Knapp A K, Briggs J M, Collins S L, et al. Shrub encroachment in North American grasslands: shifts in growth form dominance rapidly alters control of ecosystem carbon inputs[J]. Global Change Biology, 2008, 14: 615-623. [11] Trollope W S W, Hobson F O, Danckwerts J E, et al. Encroachment and control of undesirable plants[A]. In: Danckwerts J E, Van Niekerk J P. Veld Management in the Eastern Cape[M]. Pretoria, South Africa: Department of Agriculture and Water Supply, 1989: 73-89. [12] 周道玮. 内蒙古小叶锦鸡儿灌丛化草地[J]. 内蒙古草业, 1990, 31: 7-19. [13] Van Auken O W. Causes and consequences of woody plant encroachment into western North American grasslands[J]. Journal of Environmental Management, 2009, 90: 2931-2942. [14] Eldridge D J, Wilson B R, Oliver I. Regrowth and Soil Erosion in the Semiarid Woodlands of New South Wales[R]. NSW Department of Land and Water Conservation, Sydney, 2003: 42. [15] Kerley G I H, Knigh M H, DeKock M. Desertification of subtropical thicket in the Eastern Cape, South Africa: are there alternatives[J]. Environmental Monitoring and Assessment, 1995, 37: 211-230. [16] Lechmere-Oertel R G, Cowling R M, Kerley G I H. Landscape dysfunction and reduced spatial heterogeneity in soil resources and fertility in semiarid succulent thicket[J]. South Africa. Austral Ecology, 2005, 30: 615-624. [17] Booth C A, Sanchez-Bayo F, Kin G W. Establishment of woody weeds in western New South Wales. 2. Growth and competitive potential[J]. Rangeland Ecology & Management, 1996, 18: 80-98. [18] Noble J C. The delicate and noxious scrub: CSIRO studies on native tree and shrub proliferation in the semi-arid woodlands of Eastern Australia[J]. Australian Geographical Studies, 1999, 37(3): 347-376. [19] Ratajczak Z, Nippert J B, Hartman J C, et al. Positive feedbacks amplify rates of woody encroachment in mesic tallgrass prairie[J]. Ecosphere, 2011, 2(11): 121. [20] D’Odorico P, Okin G S, Bestelmeyer B T. A synthetic review of feedbacks and drivers of shrub encroachment in arid grasslands[J]. Ecohydrology, 2012, 5(5): 520-530. [21] Tews J, Esther A, Sue J, et al. Linking a population model with an ecosystem model: Assessing the impact of land use and climate change on savanna shrub cover dynamics[J]. Ecological Modelling, 2006, 195(3-4): 219-228. [22] Maestre F T, Bowker M A, Puche M D, et al. Shrub encroachment can reverse desertification in semi-arid Mediterranean grasslands[J]. Ecology Letters, 2009, 12: 930-941. [23] Miller R F, Bates J D, Svejcar T J, et al. Biology, Ecology and Management of Western Juniper (Juniperus occidentalis)[R]. Technical bulletin 152, Agriculture Experiment Station, Oregon State University, Corvalis, Oregon, 2005. [24] Miller R F, Tausch R J, McArthur E D, et al. Age Structure and Expansion of Pion-juniper Woodlands: a Regional Perspective in the Intermountain West[R]. Research Paper RMRS-RP-69. USDA, Forrest Service, Rocky Mountain Research Station, Fort Collins, Colorado, 2008: 1-15. [25] Coetzee B W T, Tincani L, Wodu Z, et al. Overgrazing and bush encroachment by Tarchonanthus camphoratus in a semi-arid savanna[J]. African Journal of Ecology, 2008, 46: 449-451. [26] Miller R F, Rose J A. Fire history and western juniper encroachment in sagebrush steppe[J]. Journal of Range Management, 1999, 52(6): 550-559. [27] Okin G S, D’Odorico P, Archer S R. Impact of feedbacks on Chihuahuan desert grasslands: Transience and metastability[J]. Journal of Geophysical Research, 2009, 114: 1-8. [28] IPCC. Climate Change 2007: Synthesis Report[R]. 2007. [29] Martinez-Vilalta J, Pockman W T. The vulnerability to freezing-induced xylem cavitation of Larrea tridentata (Zygophyllaceae) in the Chihuahuan desert[J]. American Journal of Botany, 2002, 89: 1916-1924. [30] Sanz-Elorza M, Dana E D, González A, et al. Changes in the high-mountain vegetation of the central Iberian Peninsula as a probable sign of global warming[J]. Annals of Botany, 2003, 92(2): 273-280. [31] Brown J H, Valone T J, Curtin C G. Reorganization of an arid ecosystem in response to recent climate change[J]. Proceedings of the National Academy of Science of the United States of America, 1997, 94(18): 9729-9733. [32] Sankaran M, Hanan N P, Scholes R J, et al. Determinants of woody cover in African Savannas[J]. Nature, 2005, 438: 846-849. [33] Derner J D, Tischler C R, Polley H W, et al. Seedling growth of two honey mesquite varieties under CO2 enrichment[J]. Rangeland Ecology & Management, 2005, 58(3): 292-298. [34] 李西良, 侯向阳, Leonid U, 等. 气候变化对家庭牧场复合系统的影响及其牧民适应[J]. 草业学报, 2013, 22(1): 148-156. [35] Brantley S T, Young D R. Contribution of sunflecks is minimal in expanding shrub thickets compared to temperate forest[J]. Ecology, 2009, 90: 1021-1029. [36] Howard K S C, Eldridge D J, Soloveres S. Positive effects of shrubs on plant species diversity do not change along a gradient in grazing pressure in an arid shrubland[J]. Basic and Applied Ecology, 2012, 13: 159-168. [37] Li X Y, Zhang S Y, Peng H Y, et al. Soil water and temperature dynamics in shrub-encroached grasslands and climatic implications: Results from Inner Mongolia steppe ecosystem of north China[J]. Agricultural and Forest Meteorology, 2013, 171-172: 20-30. [38] Zhang T H, Su Y Z, Cui J Y, et al. A Leguminous Shrub (Caragana microlhylla) in semiarid sandy soils of north China[J]. Pedosphere, 2006, 16(3): 319-325. [39] Lett M S, Knapp A K. Woody plant encroachment and removal in mesic grasslands: production and composition responses of herbaceous vegetation[J]. American Midland Naturalist, 2005, 153: 217-231. [40] Báez S, Collins S L. Shrub invasion decreases diversity and alters community stability in northern Chihuahuan desert plant communities[J]. PLoS One, 2008, 3(6): 1-8. [41] Ratajczak Z, Nippert J B, Collins S L. Woody encroachment decreases diversity across North American grasslands and savannas[J]. Ecology, 2012, 93: 697-703. [42] Zavaleta E S, Kettley L S. Ecosystem change along a woody invasion chronosequence in a California grassland[J]. Journal of Arid Environments, 2006, 66: 290-306. [43] Blaum N, Rossmanith E, Popp A, et al. Shrub encroachment affects mammalian carnivore abundance and species richness in semiarid rangelands[J]. Acta Oecologica, 2007, 31(1): 86-92. [44] Thompson W A, Eldridge D J. Plant cover and composition in relation to density of Callitris glaucophylla (white cypress pine) along a rainfall gradient in eastern Australia[J]. Australian Journal of Botany, 2005, 53: 545-554. [45] Castro H, Freitas H. Above-ground biomass and productivity in the Montado: From herbaceous to shrub dominated communities[J]. Journal of Arid Environments, 2009, 73: 506-511. [46] D’Odorico P, Fuentens J D, Pockman W T, et al. Positive feedback between microclimate and shrub encroachment in the northern Chihuahuan desert[J]. Ecosphere, 2010, 1(6): 1-11. [47] Chapin F S, Sturm M, Serreze M C, et al. Role of land-surface changes in Arctic summer warming[J]. Science, 2005, 310: 657-660. [48] Alofs K M, Fowler N L. Habitat fragmentation caused by woody plant encroachment inhibits the spread of an invasive grass[J]. Journal of Applied Ecology, 2010, 47(2): 338-347. [49] Boeken B, Orenstein D. The effect of plant litter on ecosystem properties in a Mediterranean semi-arid shrubland[J]. Journal of Vegetation Science, 2001, 12(6): 825-832. [50] Parizek B, Rostagno C M, Sottini R. Soil erosion as affected by shrub encroachment in Northeastern Patagonia[J]. Journal of Range Management, 2002, 55(1): 43-48. [51] Li X Y, Yang Z P, Li Y T, et al. Connecting ecohydrology and hydropedology in desert shrubs: stemflow as a source of preferential flow in soils[J]. Hydrology and Earth System Sciences, 2009, 13: 1133-1144. [52] Wilcox B P. Shrub control and streamflow on rangelands: a process based viewpoint[J]. Journal of Range Management, 2002, 55(4): 318-326. [53] Newman B D, Breshears D D, Gard M O. Evapotranspiration partitioning in a semiarid woodland: ecohydrologic heterogeneity and connectivity of vegetation patches[J]. Vadose Zone Journal, 2010, 9: 561-572. [54] Hibbard K A, Archer S, Schimel D S, et al. Biogeochemical changes accompanying woody encroachment in a subtropical savanna[J]. Ecology, 2001, 82: 1999-2011. [55] Lyon A J. Assessment of Shrub Encroachment on Belowground Carbon Dynamics in Tallgrass Prairie Using an Isotopic Approach[D]. Kansas, America: Master of science, Emporia state university, 2012. [56] 熊小刚, 韩兴国. 内蒙古半干旱草原灌丛化过程中小叶锦鸡儿引起的土壤碳、氮资源空间异质性分布[J]. 生态学报, 2005, 25(7): 1678-1683. [57] 李雪华, 蒋德明, 骆永明. 小叶锦鸡儿固沙灌丛的肥岛效应及其对植被影响[J]. 辽宁工程技术大学学报(自然科学版), 2010, 29(2): 336-339. [58] 左小安, 赵学勇, 赵哈林, 等. 沙地退化植被恢复过程中灌木发育对草本植物和土壤的影响[J]. 生态环境学报, 2009, 18(2): 643-647. [59] Cable J M, Barron-Gafford G A, Ogle K, et al. Shrub encroachment alters sensitivity of soil respiration to temperature and moisture[J]. Journal of Geophysical Research: Biogeosciences, 2012, 117: 2005-2012. [60] 刘方明, 郝伟, 姜勇. 科尔沁沙地小叶锦鸡儿对土壤有机碳积累的影响[J]. 辽宁工程技术大学学报, 2006, 25(2): 294-296. [61] 李秋艳, 方海燕. 荒漠绿洲边缘泡泡刺灌丛土壤种子库研究[J]. 干旱区研究, 2008, 25(4): 502-505. [62] 李彦娇, 包维楷, 吴福忠. 岷江干旱河谷灌丛土壤种子库及其自然更新潜力评估[J]. 生态学报, 2010, (2): 877-884. [63] 吴建波. 内蒙古高原小叶锦鸡儿植物根围土壤线虫群落多样性研究[D]. 天津: 南开大学, 2006. [64] 熊小刚, 韩兴国. 资源岛在草原灌丛化和灌丛化草原中的作用[J]. 草业学报, 2006, 15(1): 9-14. [65] Fuhlendorf S D, Archer S A, Smeins F, et al. The combined influence of grazing, fire, and Herbaceous productivity on tree-grass interactions[J]. Western North American Juniperus Communities Ecological Studies, 2008, 196: 219-238. [66] D’Odorico P, Francesco Laio F, Luca Ridolfi L. Noise-induced stability in dryland plant ecosystems[J]. Proceedings of the National Academy of Sciences of the United States of America, 2005, 102(31): 10819-10822. [67] Valentin C, d’Herbe`s J M. Niger tiger bush as a natural water harvesting system[J]. Catena, 1999, 37: 231-256. [68] D’Odorico P, Caylor K, Okin G S, et al. On soil moisture-vegetation feedbacks and their possible effects on the dynamics of dryland ecosystems[J]. Journal of Geophysical Research: Biogeosciences, 2007, 112(G4): 2005-2012. [69] D’Odorico P, Laio F, Ridolfi L. A probabilistic analysis of fire induced tree-grass coexistence in savannas[J]. The American Naturalist, 2006, 167(3): 79-87. [70] Ravi S, D’Odorico P, Wang L X, et al. Post-fire resource redistribution in desert grasslands: a possible negative feedback on land degradation[J]. Ecosystems, 2009, 12: 434-444. [71] Ravi S, D’Odorico P. Post-fire resource redistribution and fertility island dynamics in shrub-encroached desert grasslands: a modeling approach[J]. Landscape Ecology, 2009, 24: 325-335. [72] Roques K G, O’Connor T G, Watkinson A R. Dynamics of shrub encroachment in an African Savanna: relative influences of fire, herbivory, rainfall and density dependence[J]. Journal of Applied Ecology, 2001, 38(2): 268-280. [73] Whitford W G. The Ecology of Desert Ecosystems[M]. New York: Academic Press, 2002. [74] Okin G S, Gillette D A, Herrick J E. Multi-scale controls on and consequences of aeolian processes in landscape change in arid and semi-arid environments[J]. Journal of Arid Environment, 2006, 65: 253-275. [75] Grover H D, Musick H B. Shrubland encroachment in souththern New Mexico, U.S.A.: an analysis of desertification processes in the American southwest[J]. Climate Change, 2000, 17: 305-330. [76] 李愈哲, 樊江文, 张良侠, 等. 不同土地利用方式对典型温性草原群落物种组成和多样性以及生产力的影响[J]. 草业学报, 2013, 22(1): 1-9. [77] 范月君, 向阳, 石红霄, 等. 气候变暖对草地生态系统碳循环的影响[J]. 草业学报, 2012, 21(3): 294-302. |
[1] | LI Xin-yong,WANG Yan-rong,JIA Cun-zhi. Effect of urea fertilizer on growth and performance of Cleistogenes songorica turfgrass [J]. Acta Prataculturae Sinica, 2014, 23(6): 136-141. |
[2] | ZHOU Xiang-rui,YUE Li-jun,WANG Suo-min. Sodium compound fertilizer improved growth and drought tolerance of Zygophyllum xanthoxylum seedlings under drought stress [J]. Acta Prataculturae Sinica, 2014, 23(6): 142-147. |
[3] |
SHEN Xiao-yun, JIANG Hui-mei, YUAN rong, JIA Zhi-hai.
Effect of nitrogen fertilizer source on mineral element content of forage and in the blood of grazing Guizhou semi-fine sheep [J]. Acta Prataculturae Sinica, 2012, 21(3): 275-280. |
[4] | YU Fang-fang, CHANG Zhi-hui, HAN Lie-bao. General situation of studies on grassland application of municipal sludge compost [J]. Acta Prataculturae Sinica, 2011, 20(5): 259-265. |
[5] | HE Dan, LI Xiang-lin, WAN Li-qiang, HE Feng, LI Chun-rong. Influence of urea application on aboveground biomass and important value of the species in the degraded grassland [J]. Acta Prataculturae Sinica, 2009, 18(3): 154-158. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||