[1] Dong M (董 鸣). Clonal Plant Ecology. Beijing: Science Press, 2011 (in Chinese) [2] Suzuki JI, Stuefer J. On the ecological and evolutionary significance of storage in clonal plants. Plant Species Biology, 1999, 14: 11-17 [3] Cook RE. Clonal plant populations. American Scientist, 1983, 71: 244-253 [4] van Groenendael JM, Klimes L, Klimesová J, et al. Comparative ecology of clonal plants. Philosophical Transactions B, 1996, 351: 1331-1339 [5] de Kroon H, van Groenendael JM. The Ecology and Evolution of Clonal Plants. Leiden: Backhuys Publi-shers, 1997 [6] Horgan K, Skudder D, Holden G. Clonal storage and rejuvenation. FRI Bulletin, 1997, 3: 273-280 [7] KlimesováJ, de Bello F. CLO-PLA: The database of clonal and bud bank traits of Central European flora. Journal of Vegetable Science, 2009, 20: 511-516 [8] KlimesováJ, Herben T. Clonal and bud bank traits: Patterns across temperate plant communities. Journal of Vegetable Science, 2015, 26: 243-253 [9] Herben T, Sera B, KlimesováJ. Clonal growth and sexual reproduction: Tradeoffs and environmental constraints. Oikos, 2015, 124: 469-476 [10] Song M-H (宋明华), Dong M (董 鸣). Importance of clonal plants in community. Acta Ecologica Sinica (生态学报), 2002, 22(11): 1960-1967 (in Chinese) [11] Wang N (王 宁), Li W-F (李卫芳), Zhou B (周兵), et al. Invasiveness, clonal form and geographical origin of invasive clonal plant species in China. Biodiversity Science (生物多样性), 2016, 24(1): 12-19 (in Chinese) [12] Pyšek P. Clonality and plant invasion: Can a trait make a difference? // de Kroon H, van Goenendae J, eds. The Ecology and Evolution of Clonal Plants. Leidon, the Netherlands: Backhuys Publishers, 1997: 405-427 [13] Liu J, Dong M, Miao SL, et al. Invasive alien plants in China: Role of clonality and geographical origin. Biolo-gical Invasions, 2006, 8: 1461-1470 [14] Song YB, Yu FH, Keser LH, et al. United we stand, divided we fall: A meta-analysis of experiments on clonal integration and its relationship to invasiveness. Oecologia, 2013, 171: 317-327 [15] Song YB, Yu FH, Li JM, et al. Plant invasiveness is not linked to the capacity of regeneration from small fragments: An experimental test with 39 stoloniferous species. Biological Invasions, 2013, 15: 1367-1376 [16] Dong BC, Liu RH, Zhang Q, et al. Burial depth and stolon internode length independently affect survival of small clonal fragments. PLoS One, 2011, 6(9): e23942 [17] Dong BC, Yu GL, Guo W, et al. How internode length, position and presence of leaves affect survival and growth of Alternanthera philoxeroides after fragmentation? Evolutionary Ecology, 2010, 24: 1447-1461 [18] Nesom GL. Taxonomic notes on acaulescent Oxalis (Oxa-lidaceae) in the United States. Phytologia, 2009, 91: 501-526 [19] Kil JH, Shim KC, Park SH, et al. Distributions of naturalized alien plants in South Korea. Weed Technology, 2004, 18: 1493-1495 [20] Mercer P, Gilliland T. Occurrence of Puccinia sorghi on maize in Northern Ireland. EPPO Bulletin, 1999, 29: 203-204 [21] Vaio M, Gardner A, Speranza P, et al. Phylogenetic and cytogenetic relationships among species of Oxalis section Articulatae (Oxalidaceae). Plant Systematics and Evolution, 2016, 302: 1253-1265 [22] Cornelissen JHC, Lavorel S, Garnier E, et al. A handbook of protocols for standardised and easy measurement of plant functional traits worldwide. Australian Journal of Botany, 2003, 51: 335-380 [23] Watson MA. Resource storage and the expression of clonal plant life histories. Evolutionary Ecology, 2008, 22: 471-475 [24] Dong BC, Yu GL, Guo W, et al. How internode length, position and presence of leaves affect survival and growth of Alternanthera philoxeroides after fragmentation? Evolutionary Ecology, 2010, 24: 1447-1461 [25] Ye X-H (叶学华), Hu Y-K (胡宇坤), Liu Z-L (刘志兰), et al. Water heterogeneity affects water storage in two rhizomatous clonal plants Leymus secalinus and Calamagrostis pseudophragmites. Chinese Journal of Plant Ecology (植物生态学报), 2013, 37(5): 427-435 (in Chinese) [26] Wang M-Z (王沫竹), Dong B-C (董必成), Li H-L (李红丽), et al. Growth and biomass allocation responces to light intensity and nutrient availability in the rhizomatous herb Bolboschoenus planiculmis. Acta Ecologica Sinica (生态学报), 2016, 36(24): 8091-8101 (in Chinese) [27] Oesterheld M, Mcnaughton SJ. Effect of stress and time for recovery on the amount of compensatory growth after grazing. Oecologia, 1991, 85: 305-313 [28] Zhou Z (周 振), Li C-R (李传荣), Xu J-W (许景伟), et al. The compensatory growth of shrubby Pinus thunbergii response to the boring stress in sandy coast. Acta Ecologica Sinica (生态学报), 2012, 32(2): 457-464 (in Chinese) [29] Xue R (薛 睿), Zheng S-X (郑淑霞), Bai Y-F (白永飞). Impacts of grazing intensity and management regimes on aboveground primary productivity and compensatory growth of grassland ecosystems in Inner Mongolia. Biodiversity Science (生物多样性), 2010, 18(3): 300-311 (in Chinese) [30] Bao G-Z (包国章), Li X-L (李向林), Shen W-B (沈万斌), et al. Effect of cutting periodicity on energy allocation and architecture of Trifolium repens. Chinese Journal of Applied Ecology (应用生态学报), 2003, 14(2): 215-218 (in Chinese) [31] Zhang L-L (张璐璐), Zhou X-S (周晓松), Li Y-N (李英年), et al. Effects of clipping, fertilizing and watering on compensatory growth of Kobresia humilis. Chinese Journal of Plant Ecology (植物生态学报), 2011, 35(6): 641-652 (in Chinese) [32] Bao W-Y (包乌云), Zhao M-L (赵萌莉), Hong M (红 梅), et al. Effect of cutting on yield and compensatory growth of artificial pasture. Chinese Journal of Grassland (中国草地学报), 2015, 37(5): 46-51 (in Chinese) [33] Hosaka N, Kachi N, Kudoh H, et al. Compensatory growth of the clonal understory tree, Asimina triloba, in response to small-scale disturbances. Plant Ecology, 2016, 217: 471-480 [34] Zheng C-C (郑聪聪), Wang Y-J (王永静), Sun H (孙 昊), et al. Effects of clipping on nitrogen allocation strategy and compensatory growth of Leymus chinensis under saline-alkali conditions. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(7): 2222-2230 (in Chinese) [35] Liu HD, Yu FH, He WM, et al. Clonal integration improves compensatory growth in heavily grazed ramet populations of two inland-dune grasses. Flora: Morphology, Distribution, Functional Ecology of Plants, 2009, 204: 298-305 [36] Bach CE. Effects of clonal integration on response to sand burial and defoliation by the dune plant Ipomoea pes-caprae (Convolvulaceae). Australian Journal of Botany, 2000, 48: 159-166 [37] Lei L-J (雷羚洁), Kong D-L (孔德良), Li X-M (李晓明), et al. Plant functional traits, functional diversity, and ecosystem functioning: Current knowledge and perspectives. Biodiversity Science (生物多样性), 2016, 24(8): 922-931 (in Chinese) [38] Bernhardt-Römermann M, Gray A, Vanbergen AJ, et al. Functional traits and local environment predict vegetation responses to disturbance: A pan-European multi-site experiment. Journal of Ecology, 2011, 99: 777-787 |