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Research Articles

The vertical distribution of modern pollen in the southeastern edge of the Tibetan Plateau, China

Changting Chia State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, China;b University of Chinese Academy of Sciences, Beijing, ChinaView further author information
,
Xiayun Xiaoa State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, ChinaCorrespondence[email protected]
View further author information
,
Jianjun Wanga State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, ChinaView further author information
,
Rui Kea State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, China;b University of Chinese Academy of Sciences, Beijing, ChinaView further author information
&
Baoyan Jiaa State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, China;b University of Chinese Academy of Sciences, Beijing, ChinaView further author information
Article: 2258941 | Published online: 03 Nov 2023

References

  • Araye Q, Yahara T, Satake A. 2023. Latitudinal cline of flowering and fruiting phenology in Fagaceae in Asia. Biotropica. 55(1):277–285.
  • Barboni D, Bonnefille R. 2001. Precipitation signal in pollen rain from tropical forests, South India. Review of Palaeobotany and Palynology. 114(3-4):239–258.
  • Basumatary SK, Bera SK, Sangma SN, Marak G. 2014. Modern pollen deposition in relation to vegetation and climate of Balpakram Valley, Meghalaya, northeast India; implications for Indo-Burma palaeoecological contexts. Quaternary International.. 325:30–40.
  • Birks HH, Birks HJB. 2000. Future uses of pollen analysis must include plant macrofossils. Journal of Biogeography. 27(1):31–35.
  • Birks HJB, Felde VA, Bjune AE, Grytnes JA, Seppä H, Giesecke T. 2016. Does pollen-assemblage richness reflect floristic richness? A review of recent developments and future challenges. Review of Palaeobotany and Palynology. 228:1–25.
  • Borcard D, Legendre P, Drapeau P. 1992. Partialling out the spatial component of ecological variation. Ecology. 73(3):1045–1055.
  • Cao XY, Tian F, Li K, Ni J, Yu XS, Liu LN, Wang NN. 2021. Lake surface sediment pollen dataset for the alpine meadow vegetation type from the eastern Tibetan Plateau and its potential in past climate reconstructions. Earth System Science Data. 13(7):3525–3537.
  • Cariveau DP, Bruninga-Socolar B, Pardee GL. 2020. A review of the challenges and opportunities for restoring animal-mediated pollination of native plants. Emerging Topics in Life Sciences. 4(1):99–109.
  • Cheng ZJ, Weng CY, Foong SY, Dai L. 2020. A study on modern pollen rain and pollen morphology in the tropical western Malay Peninsula and its implications for paleoenvironmental reconstructions in the Sunda region. Review of Palaeobotany and Palynology. 279:104236.
  • Connell JH. 1978. Diversity in tropical rain forests and coral reefs. Science. 199(4335):1302–1310.
  • Cour P, Zheng Z, Duzer D, Calleja M, Yao Z. 1999. Vegetational and climatic significance of modern pollen rain in northwestern Tibet. Review of Palaeobotany and Palynology. 104(3-4):183–204.
  • Dang C, Sun XF, Cheng ZL. 2018. Vertical zonality characteristics of debris flow along Zhamo highway in Tibet. Bulletin of Soil and Water Conservation. 38:328–333. (in Chinese with English abstract).
  • Dufrene M, Legendre P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs. 67(3):345.
  • Editorial Committee of China Vegetation Map, Chinese Academy of Sciences. 2007. Vegetation Map of the People’s of China (1:1000000). Beijing: Geology Press.
  • Felde VA, Peglar SM, Bjune AE, Grytnes JA, Birks HJB. 2014. The relationship between vegetation composition, vegetation zones and modern pollen assemblages in Setesdal, southern Norway. The Holocene. 24(8):985–1001.
  • Felde VA, Peglar SM, Bjune AE, Grytnes JA, Birks HJB. 2016. Modern pollen-plant richness and diversity relationships exist along a vegetational gradient in southern Norway. The Holocene. 26(2):163–175.
  • Fu T, Liang EY, Lu XM, Gao S, Zhang L, Zhu HF, Rossi S, Julio CJ. 2020. Tree growth responses and resilience after the 1950-Zayu-Medog earthquake, southeast Tibetan Plateau. Dendrochronologia. 62:125724.
  • Furlanetto G, Ravazzi C, Badino F, Brunetti M, Champvillair E, Maggi V. 2019. Elevational transects of modern pollen samples: site-specific temperatures as a tool for palaeoclimate reconstructions in the Alps. The Holocene. 29(2):271–286.
  • Gong L, Luo J, Lin L. 2020. Species diversity and vertical distribution pattern of Orchidaceae in Namcha Barwa, Tibet. Journal of Plateau Agriculture. 4:499–505. (in Chinese with English abstract).
  • Grimm EC. 1993. TILIA V2.0 (Computer Software). Springfield (IL): Illinois State Museum, Research and Collection Centre.
  • Grimm EC. 2015. Tilia/TGView 2.0.41. Springfield (IL): Illinois State Museum, Research and Collections Center.
  • Herzschuh U. 2007. Reliability of pollen ratios for environmental reconstructions on the Tibetan Plateau. Journal of Biogeography. 34(7):1265–1273.
  • Herzschuh U, Birks HJB. 2010. Evaluating the indicator value of Tibetan pollen taxa for modern vagetation and climate. Review of Palaeobotany and Palynology. 160(3-4):197–208.
  • Herzschuh U, Birks HJB, Mischke S, Zhang CJ, Böhner J. 2010. A modern pollen-climate calibration set based on lake sediments from the Tibetan Plateau and its application to a Late Quaternary pollen record from the Qilian Mountains. Journal of Biogeography. 37(4):752–766.
  • Herzschuh U, Cao XY, Laepple T, Dallmeyer A, Telford RJ, Ni J, Chen FH, Kong ZC, Liu GX, Liu KB, et al. 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature Communications. 10(1):2376.
  • Herzschuh U, Winter K, Wünnemann B, Li SJ. 2006. A general cooling trend on the central Tibetan Plateau throughout the Holocene recorded by the Lake Zigetang pollen spectra. Quaternary International. 154-155:113–121.
  • Hill MO. 1973. Diversity and evenness: a unifying notation and its consequences. Ecology. 54(2):427–432.
  • Hu A, Wang JJ, Sun H, Niu B, Si GC, Wang J, Yeh CF, Zhu XX, Lu XC, Zhou JZ, et al. 2020. Mountain biodiversity and ecosystem functions: interplay between geology and contemporary environments. The ISME Journal. 14(4):931–944.
  • [IBCAS] Institute of Botany, Chinese Academy of Sciences. 1960. Pollen morphology of plants from China. Beijing (China): Science Press.
  • [IBCAS] Institute of Botany, Chinese Academy of Sciences. 1976. Sporae Pteridophytorum Sinicorum. Beijing (China): Science Press.
  • Institute of Botany and South China Institute of Botany, Academia, Sinica. 1982. Angiosperm pollen flora of tropic and subtropic China. Beijing (China): Science Press.
  • IPCC. 2022. Climate change 2022: impacts, adaptation, and vulnerability. Contribution of working group II to the sixth assessment report of the Intergovernmental Panel on Climate Change [Pörtner H-O, Roberts DC, Tignor M, Poloczanska ES, Mintenbeck K, Alegría A, Craig M, Langsdorf S, Löschke S, Möller V, et al., editors]. Cambridge: Cambridge University Press.
  • Jarvis DI, Clay-Poole ST. 1992. A comparison of modern pollen rain and vegetation in southwestern Sichuan Province, China. Review of Palaeobotany and Palynology. 75(3-4):239–258.
  • Kessler M. 2001. Patterns of diversity and range size of selected plant groups along an elevational transect in the Bolivian Andes. Biodiversity & Conservation. 10:1897–1921.
  • Lentfer CJ, Boyd WE. 1998. A comparison of three methods for the extraction of phytoliths from sediments. Journal of Archaeological Science. 25(12):1159–1183.
  • Li BS. 1984. The vertical spectra of vegetation in the Mt. Namjagbarwa Region. Mountain Research. 2:174–181. (in Chinese with English abstract).
  • Li CH, Tong GB, Shen J, Wang SM, Yang XD, Liu ZM. 2008. A study of surface pollen on an elevational gradient in Lijiang and Dali areas, Yunnan Province, China. Acta Palaeontologica Sinica. 47:168–175. (in Chinese with English abstract).
  • Li JY, Xu QH, Zheng Z, Lü HY, Luo YL, Li YC, Li CH, Seppä H. 2015. Assessing the importance of climate variables for the spatial distribution of modern pollen data in China. Quaternary Research. 83(2):287–297.
  • Li MP, Miao N, Liu SR. 2022. Effects of nitrogen-fixing tree species Alnus nepalensis on the degraded soils and understory restiration in the upper reaches of the Jinsha River, China. Acta Ecologica Sinica. 42:1–10. (in Chinese with English abstract).
  • Li Q. 2018. Spatial variability and long-term change in pollen diversity in Nam Co catchment (central Tibetan Plateau): implications for alpine vegetation restoration from a paleoecological perspective. Science China Earth Sciences. 61(3):270–284.
  • Li SP, Hu YQ, Ferguson DK, Yao JX, Li CS. 2013. Pollen dispersal in a mountainous area based on pollen analysis of four natural trap types from Lugu Lake, southwest China. Journal of Systematics and Evolution. 51(4):413–425.
  • Li XF, Wang P, Wang HY, Tong KY, Yang G. 2018a. Differential tectonic uplift indicated by river geomorphic parameters at the Tsangpo River Gorge. Quat Sci. 38:183–192. (in Chinese with English abstract).
  • Li YF, He J, Li CH, Xu B, Xie XJ. 2018b. A study of the relationship between the pollen in the surface sediments and the vegetation from the Laojun mountain of Lijiang, Yunnan Province, southwest China. Acta Micropalaeontologica Sinica. 35:51–64. (in Chinese with English abstract).
  • Liang C, Zhao Y, Qin F, Cui QY, Li Q, Li H, Zhang ZY. 2019. Complex responses of vegetation diversity to Holocene climate change in the eastern Tibetan Plateau. Vegetation History and Archaeobotany. 28(4):379–390.
  • Lisitsyna OV, Hicks S. 2014. Estimation of pollen deposition time-span in moss polsters with the aid of annual pollen accumulation values from pollen traps. Grana. 53(3):232–248.
  • Liu HH, Zeng S, Xu JM. 2014. The vegetation coverage dynamics due to geohazards after the 2008 earthquake in Wenchuan. International Symposium on Optoelectronic Technology and Application 2014: Optical Remote Sensing Technology and Applications. Proceedings of SPIE, Beijing, 92990E.
  • Liu R, Wang CJ, He J, Zhang ZX. 2018. Analysis of geographical distribution of Abies in China under climate change. Bulletin of Botanical Research. 38:37–46. (in Chinese with English abstract).
  • Lü H, Wu N, Yang X, Shen C, Zhu L, Wang L, Li Q, Xu D, Tong G, Sun X. 2008. Spatial pattern of Abies and Picea surface pollen distribution along the elevation gradient in the Qinghai-Tibetan Plateau and Xinjiang, China. Boreas. 37(2):254–262.
  • Lü HY, Wu NQ, Liu KB, Zhu LP, Yang XD, Yao TD, Wang L, Li Q, Liu XQ, Shen CM, et al. 2011. Modern pollen distributions in Qinghai-Tibetan Plateau and the development of transfer functions for reconstructing Holocene environmental changes. Quaternary Science Reviews. 30(7-8):947–966.
  • Lü XM, Chen H, Xu QH. 2006. Surface pollen and its relationship to vegetation on the southern slope of the eastern Qilian Mountains. Journal of Geographical Sciences. 16(2):215–222.
  • Lü XM, Herrmann M, Mosbrugger V, Yao TD, Zhu L. 2010. Airborne pollen in the Nam Co Basin and its implication for palaeoenvironmental reconstruction. Review of Palaeobotany and Palynology. 163(1-2):104–112.
  • Matthias I, Semmler MSS, Giesecke T. 2015. Pollen diversity captures landscape structure and diversity. Journal of Ecology. 103(4):880–890.
  • Meltsov V, Poska A, Reitalu T, Sammul M, Kull T. 2013. The role of landscape structure in determining palynological and floristic richness. Vegetation History and Archaeobotany. 22(1):39–49.
  • Montade V, Diogo DIJS, Bremond L, Favier C, Costa IRD, Ledru MP, Paradis L, Martins ESPR, Burte J, Silva FHME, et al. 2016. Pollen-based characterization of montane forest types in north-eastern Brazil. Review of Palaeobotany and Palynology. 234:147–158.
  • Nakamura T, Takahara H, Ohno K. 2012. Pollen-vegetation relationship of surface pollen assemblages and objective vegetation reconstruction in the Hakkoda Mountains, northeastern Japan. Quaternary International. 254:138–151.
  • Pan SA, Li XH, Feng QH, Liu XL, Sun JX. 2022. Response of Abies faxoniana to future climate change and its potential distribution patterns in Sichuan Province. Acta Ecologica Sinica. 42:4055–4064. (in Chinese with English abstract).
  • Pardoe HS. 2021. Identifying floristic diversity from the pollen record in open environments; considerations and limitations. Palaeogeography, Palaeoclimatology, Palaeoecology. 578:110560.
  • Pardoe HS, Giesecke T, van der Knaap WO, Svitavská-Svobodová H, Kvavadze EV, Panajiotidis S, Gerasimidis A, Pidek IA, Zimny M, S’wieta-Musznicka J, et al. 2010. Comparing pollen spectra from modified Tauber traps and moss samples: examples from a selection of woodlands across Europe. Vegetation History and Archaeobotany. 19(4):271–283.
  • Peres-Neto PR, Legendre P, Dray S, Borcard D. 2006. Variation partitioning of species data matrices: estimation and comparison of fractions. Ecology. 87(10):2614–2625.
  • Qi L, Qiao Y-s, Liu Z-x, Peng S-s, Cheng Y, Wang Y, Zhang X-j, Tian M-z, Yang S-b, Bai W-b. 2021. Carbon isotope variations of modern soils in the eastern margin of the Tibetan Plateau and their controlling factors. Journal of Mountain Science. 18(4):878–890.
  • Quamar MF. 2019. Palynological study of surface soil samples from the Kartala Forest Range of the Korba District, Chhattisgarh, central India: modern pollen-rain vegetation relationship. Geophytology. 49:37–48.
  • Quamar MF. 2022. Modern pollen-vegetation relationship from the Rourkela (Sundargarh District), Odisha, India; a preliminary study and a comparative account. Palynology. 46(3):1–14.
  • Quamar MF, Bera SK. 2014a. Pollen production and depositional behaviour of teak (Tectona grandis Linn. F.) and sal (Shorea robusta Gaertn. F.) in tropical deciduous forests of Madhya Pradesh, India: an overview. Quaternary International. 325:111–115.
  • Quamar MF, Bera SK. 2014b. Surface pollen and its relationship with modern vegetation in tropical deciduous forests of southwestern Madhya Pradesh, India: a review. Palynology. 38(1):147–161.
  • Quamar MF, Bera SK. 2017. Do the common natural pollen trapping media behave similarly? A comparative study of modern palynoassemblages from Chhattisgarh, central India. Quaternary International. 444:217–226.
  • Quamar MF, Kar R. 2020. Modern pollen dispersal studies in India: a detailed synthesis and review. Palynology. 44(2):217–236.
  • Rahbek C. 1995. The elevational gradient of species richness: a uniform pattern? Ecography. 18(2):200–205.
  • Reitalu T, Bjune AE, Blaus A, Giesecke T, Helm A, Matthias I, Peglar SM, Salonen JS, Seppä H, Väli V, et al. 2019. Patterns of modern pollen and plant richness across northern Europe. Journal of Ecology. 107(4):1662–1677.
  • Roleček J, Abraham V, Vild O, Svitavská HS, Jamrichová E, Plesková Z, Pokorný P, Kuneš P. 2021. Holocene plant diversity dynamics show a distinct biogeographical pattern in temperate Europe. Journal of Biogeography. 48(6):1366–1376.
  • Shen C, Liu KB, Tang LY, Overpeck JT. 2006. Quantitative relationships between modern pollen rain and climate in the Tibetan Plateau. Review of Palaeobotany and Palynology. 140(1-2):61–77.
  • Shen C, Liu KB, Tang LY, Overpeck JT. 2021. Modern pollen rain in the Tibetan Plateau. Frontiers in Earth Science. 9:732411.
  • Shi YF, Yu G, Liu XD, Li BY, Yao TD. 2001. Reconstruction of the 30-40 ka BP enhanced Indian monsoon climate based on geological records from the Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology. 169(1-2):69–83.
  • Sun H, Yang D, Chen JW. 2013. Yarlung Zangbo River Grand Canyon: from the tropics to the cold pole. Forest & Humankind. S1:78–85. (in Chinese).
  • Sun H, Zhou ZK. 1996. The characters and origin of the flora from the big bend gorge of Yalu Tsangpu (Brahmabutra) River, Eastern Himalayas. Acta Botanica Yunnanica. 18:185–204. (in Chinese with English abstract).
  • Sun H, Zhou ZK, Yu HY. 1996. A preliminary probe into the secondary succession series of tropical forests in the big bend gorge of Yalu Tsangpo River in S.E. Tibet, E. Himalayas. Acta Botanica Yunnanica. 18:308–316. (in Chinese with English abstract).
  • Sun H, Zhou ZK, Yu HY. 1997. The vegetation of the big bend gorge of Yalu Tsangpo River, S.E. Tibet, E. Himalayas. Acta Botanica Yunnanica. 19:59–68. (in Chinese with English abstract).
  • Tan JF, Xiao XY, Li YL, Luo J. 2020. Relationship between modern vegetation and pollen assembalges in the Shangri-la area, Yunnan Province. Acta Micropalaeontologica Sinica. 37:68–81. (in Chinese with English abstract).
  • Tang LY, Mao LM, Shu JW, Li CH, Shen CM, Zhou ZZ. 2016. An illustrated handbook of Quaternary pollen and spores in China. Beijing (China): Science Press.
  • Tang ZY, Fang JY. 2004. A review on the elevational patterns of plant species diversity. Biodiversity Science. 12(1):20–28. (in Chinese with English abstract).
  • ter Braak CJF, Verdonschot PFM. 1995. Canonical correspondence analysis and related multivariate methods in aquatic ecology. Aquatic Sciences. 57(3):255–289.
  • Wang FX, Qian NF, Zhang YL, Yang HQ. 1995. Pollen flora of China. Beijing (China): Science Press.
  • Wei HC, Ma HZ, Zheng Z, Pan AD, Huang KY. 2011. Modern pollen assemblages of surface samples and their relationships to vegetation and climate in the northeastern Qinghai-Tibetan Plateau, China. Review of Palaeobotany and Palynology. 163(3-4):237–246.
  • Weng C, Hooghiemstra H, Duivenvoorden JF. 2007. Response of pollen diversity to the climate-driven altitudinal shift of vegetation in the Colombian Andes. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 362(1478):253–262.
  • Wu YS, Xiao JY. 1989. Modern pollen rain on Liangwang mountain of Chenggong, Yunnan. Acta Botanica Yunnanica. 11:145–153. (in Chinese with English abstract).
  • Xiao L, Wang HY, Guo LY, Li XC, Sun N, Xia XY, Wang JN. 2023. Origin and spread of Tsuga (Endl.) Carrière based on fossil records. Journal of Earth Science. 14:9–26. (in Chinese with English abstract).
  • Xiao XY, Shen J, Wang SM. 2011. Spatial variation of modern pollen from surface lake sediments in Yunnan and southwestern Sichuan Province, China. Review of Palaeobotany and Palynology. 165 (3-4):224–234.
  • Xiao XY, Shen J, Wang SM, Xiao HF, Tong GB. 2008. The plant diversity and its relationship with paleoenvironment since 2.78 Ma revealed by pollen records in the Heqing deep drilling core. Chinese Science Bulletin. 53(23):3686–3698.
  • Yang TJ. 2018. Characteristics and control measures of debris flow along the ZhaMo highway. China Sciencepaper. 13:1055–1059. (in Chinese with English abstract).
  • Yang YC, Gao DY, Li BS. 1987. A preliminary probe into water vapor channel in the lower reaches of Yalu Tsangpo River (Chinese). Science in China, Series B. 8:893–902. (in Chinese).
  • Yu G, Ke XK, Xue B, Ni J. 2004. The relationships between the surface arboreal pollen and the plants of the vegetation in China. Review of Palaeobotany and Palynology. 129(4):187–198.
  • Yu G, Tang LY, Yang XD, Ke XK, Harrison SP. 2001. Modern pollen samples from alpine vegetation on the Tibetan Plateau. Global Ecology and Biogeography. 10(5):503–519.
  • Zhang DH, Han XL, Dai RR, Sun AZ. 2013. Relationship between the surface and mean annual precipitation in the Niyang River Basin. Geography and Geo-Information Science. 29:80–85. (in Chinese with English abstract).
  • Zhang LJ, Li YH, Ren H, Wang LY, Zhu WB, Zhu LQ. 2020. Prediction of the suitable distribution of Cyclobalanopsis glauca and its implications for the northern boundary of subtropical zone of China. Geographical Research. 39:990–1001. (in Chinese with English abstract).
  • Zhang R, Tian F, Xu QH, Zhou X, Liu XQ, Cao XY. 2020. Representation of modern pollen assemblage to vertical variations of vegetation and climate in the Yadong area, eastern Himalaya. Quaternary International. 536:45–51.
  • Zhang YJ, Duo L, Pang YZ, Felde VA, Birks HH, Birks HJB. 2018. Modern pollen assemblages and their relationships to vegetation and climate in the Lhasa Valley, Tibetan Plateau, China. Quaternary International. 467:210–221.
  • Zhang Y, Kong ZC, Yang ZJ, Wang L, Duan XH. 2017. Surface pollen distribution from alpine vegetation in Eastern Tibet, China. Scientific Reports. 7(1):586.
  • Zhang ZY, Harrison SP, Mosbrugger V, Ferguson DK, Paudayal KN, Trivedi A, Li CS. 2015. Evaluation of the realism of climate reconstruction using the Coexistence Approach with modern pollen samples from the Qinghai–Tibetan Plateau. Review of Palaeobotany and Palynology. 219:172–182.
  • Zhao Y, Herzschuh U. 2009. Modern pollen representation of source vegetation in the Qaidam Basin and surrounding mountains, north-eastern Tibetan Plateau. Vegetation History and Archaeobotany. 18(3):245–260.
  • Zhao Y, Xu QH, Huang XZ, Guo XL, Tao SC. 2009. Differences of modern pollen assemblages from lake sediments and surface soils in arid and semi-arid China and their significance for pollen-based quantitative climate reconstruction. Review of Palaeobotany and Palynology. 156(3-4):519–524.
  • Zheng Z, Cour P, Huang CX, Duzer D, Robert G, Calleja M, Beaudouin C, Deng Y, Huang KY. 2007. Dust pollen distribution on a continental scale and its relation to present-day vegetation along north-south transects in east China. Science in China Series D: Earth Sciences. 50(2):236–246.
  • Zheng Z, Ma T, Roberts P, Li Z, Yue YF, Peng HH, Huang KY, Han ZY, Wan QC, Zhang YZ, et al. 2021. Anthropogenic impacts on Late Holocene land-cover change and floristic biodiversity loss in tropical southeastern Asia. Proc Natl Acad Sci USA. 118:e2022210118.
  • Zheng Z, Wei JH, Huang KY, Xu QH, Lu HY, Tarasov P, Luo CX, Beaudouin C, Deng Y, Pan AD, et al. 2014. East Asian pollen database: modern pollen distribution and its quantitative relationship with vegetation and climate. Journal of Biogeography. 41(10):1819–1832.

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