Abstract
Surface pollen and stomata of 61 samples collected in a study area ranging from tropical seasonal rainforest to oak forest (Quercus spinosa) in the Yulong Snow Mountain region in Yunnan, China, are used to distinguish vegetation communities. The results show that tropical seasonal rainforest (and mountain rainforest), south subtropical evergreen broad-leaved forest, and Quercus shrub are distinguished effectively from other vegetation types by analysis of surface pollen. The south subtropical evergreen broad-leaved forest, Pinus kesiya forest and evergreen broadleaf forest are distinguished effectively from other types of vegetation by pollen analysis. However, P. yunnanensis forest is not distinguished from other vegetation types, and P. armandii, P. densata forest and temperate deciduous conifer mixed forest are not distinguished. The over-representation of Pinus pollen is the main reason that these vegetation communities are not distinguished from each other. Conifer stomata analysis is an effective tool for identifying and distinguishing different types of coniferous forest, and this method performs well even with a small number of sampling points.
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References
Luo Y L, Sun X J. Vegetation evolution and millennial-scale climatic fluctuations since Last Glacial Maximum in pollen record from northern South China Sea. Chin Sci Bull, 2005, 50: 793–799
Xiao X Y, Shen J, Wang S M, et al. The plant diversity and its relationship with paleoenvironment since 2.78 Ma revealed by pollen records in the Heqing deep drilling core. Chin Sci Bull, 2008, 53: 3686–3698
Birks H H. The importance of plant macrofossils in late-glacial climatic reconstructions: An example from western Norway. Quat Sci Rev, 1993, 12: 719
Clayden S L, Cwynar L C, MacDonald G M, et al. Holocene pollen and stomates from a forest-tundra site on the Taimyr Peninsula, Siberia. Arct Antarct Alp Res, 1997, 29: 327–333
Trautmann W. Zur unterscheidung fossiler spaltoffnungen der mitteleuropaischen coniferen. Flora, 1953, 140: 523–533
Parshall T. Documenting forest stand invasion: Fossil stomata and pollen in forest hollows. Can J Bot, 1999, 77: 1529–1538
Hansen B C S, MacDonald G M, Moser K A. Identifying the tundra — forest border in the stomate record: An analysis of lake surface samples from the Yellowknife area, Northwest Territories, Canada. Can J Bot, 1996, 74: 796–800
MacDonald G M. Conifer Stomata. In: Smol J P, Birks H J B, Last W M, eds. Tracking Environmental Change Using Lake Sediments. Dordrecht: Kluwer Academic Publishers, 2001. 33–47
David F. Holocene tree limit history in the northern French Alps stomata and pollen evidence. Rev Palaeobot Palyno, 1997, 97: 227–237
Pisaric M F J. Holocene treeline dynamics in the mountains of northeastern British Columbia, Canada, inferred from fossil pollen and stomata. Holocene, 2003, 13: 161–173
Froyd C A. Fossil stomata, reveal early pine presence in Scotland: Implications for postglacial colonization analyses. Ecology, 2005, 86: 579–586
Pisaric M F J, Szeicz Julian M, Karst Tammy, et al. Comparison of pollen and conifer stomates as indicators of alpine treeline in northwestern Canadian lake sediments. Can J Bot, 2000, 78: 1180–1186
Yu Z. Late Quaternary paleoecology of Thuja and Juniperus (Cupressaceae) at Crawford Lake, Ontario, Canada: Pollen, stomata and macrofossils. Rev Palaeobot Palyno, 1997, 96: 241–254
Hansen B C S. Conifer stomate analysis as a paleoecological tool—an example from the Hudson-bay lowlands. Can J Bot, 1995, 73: 244–252
Kennedy L M, Horn S P, Orvis K H. Modern pollen spectra from the highlands of the Cordillera Central, Dominican Republic. Rev Palaeobot Palyno, 2005, 137: 51–68
Li C H, Tang L Y, Wan Hewen, et al. Vegetation and human activity in Yuyao (Zhejiang Province) inferred from the Sporo-Pollen record since the Late Pleistocene (in Chinese). Acta Micropalaeontol Sin, 2009, 26: 48–56
Zhang K, Zhao Y, Guo X L. Conifer stomata analysis in paleoecological studies on the Loess Plateau: An example from Tianchi Lake, Liupan Mountains. J Arid Environ, 75: 1209–1213
Guobang T, Zhiming L, Wang S, et al. Reconstruction of climatic sequence of the past 1ma in the Heqing Basin, Yunnan Province. Quat Sci, 2002, 22: 332–339
Xiao X Y, Shen J, Xiao H F, et al. Paleoegetation and paleoclimate of the Heqing basin during 2.780–1.802 mab.p.in Yunnan province, China. Quat Sci, 2007, 27: 417–426
Xiao X Y, Shen J, Xiao H F, et al. Paleovegetation and paleoclimate of the Heqing Basin during 2.780–1.802 mab.p. in Yunnan Province, China (in Chinese). Quat Sci, 2007, 27: 417–426
Li C H, Tong G B, Shen J, et al. A study of surface pollen on an elevational gradient in Lijiang and Dali areas, Yunnan Province, China (in Chinese). Acta Palaeontol Sin, 2008. 47: 168–175
Xiao, X Y, Shen J, Wang S M. Spatial variation of modern pollen from surface lake sediments in Yunnan and southwestern Sichuan Province, China. Rev Palaeobot Palyno, 2011, 165: 224–234
Wright H E Jr. The use of surface samples in Quaternary pollen analysis. Rev Palaeobot Palyno, 1967, 2: 321–330
Sweeney C A. A key for the identification of stomata of the native conifers of Scandinavia. Rev Palaeobot Palyno, 2004, 128: 281–290
Clayden S L, Cwynar L C, MacDonald G M. Stomate and pollen content of lake surface sediments from across the tree line on the Taimyr peninsula, Siberia. Can J Bot, 1996, 74: 1009–1015
Gervais B R, MacDonald G M. Modern pollen and stomate deposition in lake surface sediments from across the treeline on the Kola Peninsula, Russia. Rev Palaeobot Palyno, 2001, 114: 223–237
Leitner R, Gajewski K. Modern and Holocene stomate records of tree-line variations in northwestern Quebec. Can J Bot, 2004, 82: 726–734
Pisaric M F J, MacDonald Glen M, Cwynar Les C, et al. Modern pollen and conifer stomates from north-central Siberian lake sediments: Their use in interpreting late quaternary fossil pollen assemblages. Arct Antarct Alp Res, 2001, 33: 19–27
Wu Z Y, Zhu Y C, Jiang H Q, et al. Vegetation of Yunnan. Beijing: Science Press, 1987
Faegri K, Kaland P E, Krzywinski K. Textbook of Pollen analysis. West Sussex: John Wiley & Sons Ltd, 1989
Hansen B C S. Conifer stomate analysis as a paleoecological tool: An example from the Hudson Bay Lowlands. Can J Bot, 1995, 73: 244–252
Wan H W, Shen J, Tang L Y, et al. Morphology of stomata of pinaceae and Cupressaceae from northwestern China (in Chinese). Acta Micropalaeontol Sin, 2007, 24: 309–319
Grimm, E C. TILIA 2.0. Illinois State Museum. Heidelberg: Springer, 1990
Grimm, E C. TILIA Graph v. 2.0.2. Illinois State Museum, Research and Collection Center. Heidelberg: Springfield, 2004
Ter Braak C J F, Canoco S P. Reference manual and user’s guide to Canoco for Windows: Software for Canonical Community Ordination (version 4). Microcomputer Power, Ithaca, NY, USA, 1998
Wu Y S, Sun X J. A preliminary study on the relationship between the pollen percentages in forest surface samples and surrounding vegetation on west mountain of Kunming, Yunnan. J Integr Plant Biol, 1987, 29: 204–211
Li X, Liu J L. Holocene vegetational and environmental changes at Mt. Luoji, Sichuan (in Chinese). Acta Geograph Sin, 1988, 43: 44–50
Chen Y S, Wu Y S, and Xiao J Y. The study on topsoil pollen in Kunming (in Chinese). J Integr Plant Biol, 1991, 33: 855–862
Jarvis D I, Clay-Poole S T. A comparison of modern pollen rain and vegetation in southwestern Sichuan Province, China. Rev Palaeobot Palyno, 1992, 75: 239–258
Tong G B, Yang X D, Liu Z M, et al. Surface soil pollen distributions in the Yulong Mountain (in Chinese). Mar Geo Quat Geo, 2003, 23: 103–107
Li W Y, Yao Z J. Center and North Subtropical Vegetation and Environmental Research During Quaternary in China. Beijing: Ocean Press, 1993. 14–26
Liu H P, Xie L D. A study on the representation of some main pollens in Shennongjia region (in Chinese). J Cent Chin Norm Univ (Nat Sci), 1998, 32: 495–497
Li W Y. Relationships between pollen and plant of the Abies Fargesii forest and its succession in the Shennongjia Mountains (in Chinese). Acta Geograph Sin, 1991, 46: 186–193
Li Y C, Xu Q H, Xiao J L, et al. Indication of some major pollen taxa in surface samples to their parent plants of forest in northern China (in Chinese). Quat Sci, 2005, 25: 598–608
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Shen, H., Li, C., Wan, H. et al. Relationships between vegetation and stomata, and between vegetation and pollen surface soil in Yunnan, Southwest China. Chin. Sci. Bull. 58, 1775–1786 (2013). https://doi.org/10.1007/s11434-012-5657-2
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DOI: https://doi.org/10.1007/s11434-012-5657-2