Generated using “Scholar Googler” on March 10th, 2024

Peer-reviewed Papers in English Journals

See also: Google Scholar; ResearchGate; ORCID; ResearchID

*: Corresponding author; #: Students or postdocs in this lab; : Co-first authors.

    In Press/Preprint

  1. Ma, S.#, Chen, S., Ding, Y., He, Z., Hu, G., Liu, J., Luo, Y., Song, K., Yang, Y., Huang, X., Gao, M., Liu, L., Chen, B., He, X., Lu, X., Lv, B., Ma, L., Meng, Y., Tian, Z., Zhang, H., Zhang, X., Zhang, Y., Zhang, Z., Li, S.*, Zhang, J.*. What controls forest litter decomposition? A coordinated distributed teabag experiment across ten mountains. Ecography doi:10.1111/ecog.07339.

  2. Zhang, J.*, Qian, H., Wang, X. An online version and some updates of R package U.Taxonstand for standardizing scientific names in plant and animal species. Plant Diversity doi:10.1016/j.pld.2024.09.005. U.Taxonstand Online

  3. Wang, X., Liang, X.L.*, Campos, M., Zhang, J., Wang, Y. Benchmarking of Laser-Based Simultaneous Localization and Mapping Methods in Forest Environments. IEEE Transactions on Geoscience and Remote Sensing doi:10.1109/TGRS.2024.3439438

  4. Dai, X., Liang, X.L.*, Qi, H., Chen, J., Wang, X., Wang, X., Zhang, Q., Zhang, J. Automated registration of terrestrial point clouds through ground overlapping searching in forests. IEEE Transactions on Geoscience and Remote Sensing doi:10.1109/TGRS.2024.3471792

  5. Guo, W.Y.*, Serra-Diaz, J.M.*, Schrodt, F., …, Zhang, J., …, Svenning, J.-C. Paleoclimate and current climate collectively shape the phylogenetic and functional diversity of trees worldwide. PREPRINT doi:10.1101/2020.06.02.128975


    6. 2024

  6. Wang, X.R.#, Chen, L., Zhang, H.#, Liu, P.#, Shang, X.#, Wang, F.#, Zhang, Z., Zhao, J.#, Sun, M.#, Chen, J.#, Zhang, J.*. Insect herbivory on woody broadleaf seedlings along a subtropical elevational gradient supports the resource concentration hypothesis. American Journal of Botany, 111(6): e16355 doi:10.1002/ajb2.16355

  7. Guo, Q.*, Qian, H., Liu, P., Zhang, J. Bergmann’s rule in global terrestrial vertebrates. Biological Journal of the Linnean Society, 143: blae092 doi:10.1093/biolinnean/blae092

  8. Wang, X.†,*, Ma, Z., Xing, Y., Peng, T., Dun, X.*, He, Z., Zhang, J., Cheng, X. Rapid species discrimination of similar insects using hyperspectral imaging and lightweight edge artificial intelligence. Royal Society Open Science, 11: 240485 doi:10.1098/rsos.240485

  9. Xie, Z., Lux, J., Wu, Y., Sun, X.*, Chen, T., Zhu, J., Zhang, J., Wu, D.*, Scheu, S. Intraspecific variability and species turnover drive variations in Collembola body size along a temperate-boreal elevation gradient. Geoderma, 441: 116731 doi:10.1016/j.geoderma.2023.116731

  10. Guo, Q.*, Qian, H., Zhang, J. The relationships between species age and range size. Journal of Biogeography doi:10.1111/jbi.14809

  11. Guo, Q., Qian, H., Liu, P.C.#, Zhang, J.* Macroecological correlates of richness, body size, and species range size in terrestrial vertebrates across the world. Frontiers of Biogeography, 16(1) doi:10.21425/F5FBG61729

  12. Qian, H.*, Mishler, B., Qian, S., Zhang, J. Patterns and drivers of taxonomic and phylogenetic endemism in regional fern floras across the world. Biological Conservation, 291: 110506 doi:10.1016/j.biocon.2024.110506

  13. Qian, H.*, Mishler, B., Zhang, J., Qian, S. Global patterns and ecological drivers of taxonomic and phylogenetic endemism in angiosperm genera. Plant Diversity doi:10.1016/j.pld.2023.11.004

  14. Qian, H.*, Qian, S.*, Zhang, J., Mishler, B.*. Effects of climate and environmental heterogeneity on the phylogenetic structure of regional angiosperm floras worldwide Nature Communications doi:10.1038/s41467-024-45155-9

  15. Qian, H.*,Mishler, B., Zhang, J., Yi Jin, Meichen Jiang. Evolutionary causes of global patterns of species richness in regional fern floras across the world Journal of Biogeography doi:10.1111/jbi.14835


    16. 2023

  16. Chen, J.#, Li, W., Junker, T., Da, H., Zhang, Z., Hu, J., Yang, Q., Wang, X., Qin, Y., Shen, G., Shu, L., Zhang, J.*. Detecting forest canopy gaps using UAV RGB imagery in a species-rich subtropical forest. Remote Sensing in Ecology and Conservation, 9(5): 671-686 doi:10.1002/rse2.336

  17. Qian, H., Kessler, M., Zhang, J., Jin, Y., Soltis, D.E., Qian, S., Zhou, Y.D., Soltis, P.S. Angiosperm phylogenetic diversity is lower in Africa than South America. Science Advances, 9(46): eadj1022 doi:10.1126/sciadv.adj1022

  18. Zhang, J.*, Qian, H.* U.Taxonstand: An R package for standardizing scientific names of plants and animals. Plant Diversity, 45(1): 1-5 doi:10.1016/j.pld.2022.09.001

  19. Xing, D.*, Zhang, J., He, F. Comment on “Interspecific competition limits bird species’ ranges in tropical mountains.” Science, 379(6630), eade2109 doi:10.1126/science.ade2109

  20. Liu, L.#, Zhang, Z., Wang, X., Zhang, R., Wang, M., Wurzburger, N., Li, J., Zhang, J.*. Urbanization reduces soil microbial network complexity and stability in the megacity of Shanghai. Science of Total Environment, 893: 164915 doi:10.1016/j.scitotenv.2023.164915

  21. Jiang, M.#, Kong, J.#, Zhang, Z., Hu, J., Qin, Y., Shang, K., Zhao, M., Zhang, J.*. Seeing Trees from Drones: The Role of Leaf Phenology Transition in Mapping Species Distribution in Species-Rich Montane Forests. Forests, 14(5): 908 doi:10.3390/f14050908

  22. Qian, H.*, Kessler, M., Zhang, J., Jin, Y., Jiang, M. Global patterns and climatic determinants of phylogenetic structure of regional fern floras. New Phytologist, 239(1): 415-428 doi:10.1111/nph.18920

  23. Qian, H.*, Zhang, J., Jin, Y., Deng, T. Effects of evolutionary history on assembly of flowering plants in regions across Africa. Ecography, 2023(9): e06775 doi:10.1111/ecog.06775

  24. Feng, Y., Wang, J., Zhang, J., Qi, X., Long, W., Ding, Y., Liu, L. Soil microbes support Janzen’s mountain passes hypothesis: the role of local-scale climate variability along a tropical montane gradient. Frontiers in Microbiology, 14 doi:10.3389/fmicb.2023.1135116

  25. Dai, Z., Zhang, J., Wang, J.* The ability of bryophytes to track areas of suitable climate depends on their habitat preferences. Journal of Systematics and Evolution, 61(1): 227-229 doi:10.1111/jse.12832

  26. Yang, J., Zhang, M., Zhang, J., Lu, H., Hauer, R.J. Allometric growth of common urban tree species in Qingdao city of eastern China. Forests, 14: 472 doi:10.3390/f14030472

  27. Hasigerili, Guo, K., Zheng, M., …, Zhang, J., Guo, W.* Intraspecific variations of adaptive strategies of native and invasive plant species along an elevational gradient. Flora, 304: 152297 doi:10.1016/j.flora.2023.152297

  28. Liu, Y., …, Zhang, J., Xing, D.* Remote sensing of subtropical tree diversity: the underappreciated roles of the practical definition of forest canopy and phenological variation. Forest Ecosystems, 10: 100122 doi:10.1016/j.fecs.2023.100122

  29. Guo, Q.*, Qian, H., Zhang, J. Does regional species diversity resist biotic invasions? Plant Diversity, 45(3): 353-357 doi:10.1016/j.pld.2022.09.004

  30. Qian, H.*, Zhang, J., Jiang, M. Global patterns of taxonomic and phylogenetic diversity of flowering plants: Biodiversity hotspots and coldspots. Plant Diversity, 45(3): 265-271 doi:10.1016/j.pld.2023.01.009

  31. Wang, X., Morin, X., Zhang, J., Chen, G., Mao, L., Chen, Y., Song, Z., Du, Y.*, Ma, K. Geographical patterns and determinants in plant reproductive phenology duration. Frontiers in Plant Science, 14: 1199316 doi:10.3389/fpls.2023.1199316


    32. 2022

  32. Yang, X.#, Angert, A.L., Zuidema, P.A., He, F., Huang, S., Li, S.Z., Li, S.L., Chardon, N.I., Zhang, J.* The role of demographic compensation in stabilizing marginal tree populations in North America. Ecology Letters 25(7):1676-1689 doi:10.1111/ELE.14028 【Media/媒体报道:科学网华东师大

  33. Ma, L.#, Liu, L.#, Lu, Y.#, Chen, L., Zhang, Z.#, Zhang, H.#, Wang, X.#, Shu, L.#, Yang, Q., Song, Q., Peng, Q., Yu, Z., Zhang, J.* When microclimates meet soil microbes: soil temperature mediates soil microbial diversity along an elevational gradient in subtropical forests. Soil Biology and Biochemistry 166: 108566 doi:10.1016/j.soilbio.2022.108566

  34. Zhang, J.*, Zhang, Z.#, Lutz, J.A., Chu, C., Hu, J., Shen, G.C., Li, B., Yang, Q., Lian, J., Zhang, M., Wang, X., Ye, W., He, F. Drone-acquired data reveal the importance of forest canopy structure in predicting tree diversity. Forest Ecology and Management 505: 119945 doi:10.1016/j.foreco.2021.119945

  35. Liu, L.#, Barberán, A., Gao, C., Zhang, Z., Wang, M., Wurzburger, N., Wang, X.#, Zhang, R.#, Li, J.X.*, Zhang, J.* Impact of urbanization on soil microbial diversity and composition in the megacity of Shanghai. Land Degradation & Development 33(2): 282-293 doi:10.1002/ldr.4145

  36. Tian, Z.#, Song, H.#, Wang, Y.#, Li, J., Maimaiti, M., Liu, Z., Zhang, H., Zhang, J.* Wild Apples Are Not That Wild: Conservation Status and Potential Threats of Malus sieversii in the Mountains of Central Asia Biodiversity Hotspot. Diversity 14(6): 489 doi:10.3390/d14060489

  37. Wang, X., Zhong, M., Zhang, J., Si, X., Yang, S., Jiang, J., Hu, J.*. Multidimensional amphibian diversity and community structure along a 2600 m elevational gradient on the eastern margin of the Qinghai-Tibetan Plateau. Zoological Research 43(1): 40-51 doi:10.24272/j.issn.2095-8137.2021.166【Media/媒体报道:封面文章、中国科学院中国新闻网

  38. Liu, J., Xia, S., Zeng, D., Liu, C., Li, Y., Yang, W., Yang, B., Zhang, J.*, Slik, F., Lindenmayer, D. Age and spatial distribution of the world’s oldest trees. Conservation Biology 36(4): e13907 doi:10.1111/cobi.13907 【Media/媒体报道:封面文章、Nature

  39. Guo, Q.*, Qian, H., Zhang, J.* On the relationship between species diversity and range size. Journal of Biogeography, 49(11): 1911-1919 doi:10.1111/jbi.14477

  40. Peng, S., Zhang, J., Zhang, X., Li, Y., Liu, Y., Wang, Z.* Conservation of woody species in China under future climate and land-cover changes. Journal of Applied Ecology, 59(1): 141-152 doi:10.1111/1365-2664.14037

  41. Peng, S., Hu, R., Velazco, S., Luo, Y., Lyu, T., Zhang, X., Zhang, J., Wang, Z.* Preserving the woody plant tree of life in China under future climate and land-cover changes. Proceedings of the Royal Society B: Biological Sciences, 289: 20221497 doi:10.1098/rspb.2022.1497

  42. Qian, H.*, Zhang, J., Jiang, M. Global patterns of fern species diversity: An evaluation of fern data in GBIF. Plant Diversity, 44(2): 135-140 doi:10.1016/j.pld.2021.10.001

  43. Tang, J., Zhang, J., Zhao, X., Wei, W., Hong, M., Zhou, H., Zhang, J., Zhang, Z.* The fate of giant panda and its sympatric mammals under future climate change. Biological Conservation, 274: 109715 doi:10.1016/j.biocon.2022.109715

  44. Liu, H., Liang, M., Yang, Q., Zhang, J., Shen, G., Zhang, Z., Wang, X. Responses of tree seedlings to understory filtering by the recalcitrant fern layer in a subtropical forest. Frontiers in Plant Science, doi:10.3389/fpls.2022.1033731

  45. Lembrechts, J., van den Hoogen, J., Aalto, A., …, Zhang, J., Zhang, Z.C., …, Lenoir, J.* Global maps of soil temperature. Global Chang Biology, 28(9): 3110-3144 doi:10.1111/gcb.16060 [Data available here: https://zenodo.org/record/4558732#.Yz40IXZByUn]

  46. Chen, B.J.W., Teng, S.N., Zheng, G., …, Zhang, J., …, Xu, C.* Inferring plant–plant interactions using remote sensing. Journal of Ecology 110(10): 2268-2287 doi:10.1111/1365-2745.13980



    47. 2021

  47. Song, H.#, Ordonez, A., Svenning, J-C., Qian, H., Yin, X., Mao, L., Deng, T., Zhang, J.* Regional disparity in extinction risk: comparison of disjunct plant genera between eastern Asia and eastern North America. Global Change Biology 27(9): 1904-1914 doi:10.1111/gcb.15525

  48. Liu, L.#, Zhu, K., Krause, S., Li, S., Wang, X.#, Zhang, Z.#, Shen, M.#, Yang, Q., Lian, J., Wang, X.#, Ye, W., Zhang, J.* Changes in assembly processes of soil microbial communities during secondary succession in two subtropical forests. Soil Biology and Biochemistry 154:108144 doi:10.1016/j.soilbio.2021.108144

  49. Zhang, R.#, Zhang, Z.#, Shang, K., Zhao, M., Kong, J., Wang, X.#, Wang, Y.#, Song, H.#, Zhang, O.#, Lv, X.#, Zhang, J.* A taxonomic and phylogenetic perspective on plant community assembly along an elevational gradient in subtropical forests. Journal of Plant Ecology 14(4):702-716 doi:10.1093/jpe/rtab026

  50. Wang, X.#, Svenning, J-C., Liu, J., Zhao, Z., Zhang, Z., Feng, G., Si, X., Zhang, J.* Regional effects of plant diversity and biotic homogenization in urban greenspace–the case of university campuses across China. Urban Forestry & Urban Greening 62:127170 doi:10.1016/j.ufug.2021.127170

  51. Wang, X.#, Liu, J., Liang, C., Zhao, Z., Feng, G.*, Zhang, J.* Biodiversity dataset of vascular plants and birds in Chinese urban greenspace. Ecological Research 36:755-761 doi:10.1111/1440-1703.12240

  52. Mi, X., Feng, G., Hu, Y., Zhang, J., Chen, L., Corlett, R.T., Hughes, A.C., Pimm, S., Schmid, B., Shi, S., Svenning, J-C. and Ma, K.* The global significance of biodiversity science in China: an overview. National Science Review 8(7): nwab032 doi:10.1093/nsr/nwab032【Media/媒体报道:中国科学院国家科学评论

  53. Liu, J.J., Zhao, Y.P., Si, X.F., Feng, G., Slik, F., Zhang, J. University campuses as valuable resources for urban biodiversity research and conservation. Urban Forestry & Urban Greening 64(9): 127255 doi:10.1016/j.ufug.2021.127255

  54. Qian, H., Zhang, Y.D., Zhang, J., Jin, Y., Deng, T., Chen, S. A synthesis of botanical informatics for vascular plants in Africa. Ecological Informatics 64(9): 127255 doi:10.1016/j.ecoinf.2021.101382

  55. Jensen, D.A.#, Rao, M.D., Zhang, J., Gron, M., Tian, S., Ma, K.P., Svenning, J-C. The potential for using rare, native species in reforestation– A case study of yews (Taxaceae) in China. Forest Ecology and Management 482:118816 doi:10.1016/j.foreco.2020.118816



    56. 2020

  56. Feng, G., Zhang, J.*, Girardello, M., Pellissier, V., Svenning, J-C. Forest canopy height co-determines taxonomic and functional richness, but not functional dispersion of mammals and birds globally. Global Ecology and Biogeography 29(8):1350-1359 doi:10.1111/geb.13110

  57. Liu, L.# and Zhang, J.* 2020. Decoding the secret of species coexistence: a perspective from soil fungi. Science China Life Sciences 63:169-170 doi:10.1007/s11427-019-1591-8

  58. Lembrechts, J., Aalto, J., Ashcroft, M., …, Zhang, J., Zhang, Z.C., et al. SoilTemp: a global database of near-surface temperature. Global Chang Biology 26(11):6616–6629 doi:10.1111/gcb.15123

  59. Qian, H., Zhang, J., Sandel, B. and Jin, Y. 2020. Phylogenetic structure of angiosperm trees in local forest communities along latitudinal and elevational gradients in eastern North America. Ecography 43:419–430 doi:10.1111/ecog.04873

  60. Liu, L.#, Zhu, K., Wurzburger, N. and Zhang, J.* Relationships between plant and soil microbial diversity vary across taxonomic groups and spatial scales. Ecosphere 11(1):e02999 doi:10.1002/ecs2.2999



    61. 2019

  61. Wang, Y.Z.#, Pedersen, J., MacDonald, S.E., Nielsen, S.E.* and Zhang, J.* 2019. Experimental test of assisted migration for conservation of locally range-restricted plants in Alberta, Canada. Global Ecology and Conservation 9(1):e00572 doi:10.1016/j.gecco.2019.e00572

  62. Shen, G.C., Yan, E.R., Bar‑Massada, A., Zhang, J., Liu, H.M., Wang, X.H. and Xu, M.S. 2019. Species with moderate intraspecific trait variability are locally abundant within an environmentally heterogeneous subtropical forest. Oecologia 190(3):629-637 doi:10.1007/s00442-019-04437-6

  63. MacDonald, Z.G.#, Acorn, J.H., Zhang, J. and Nielsen, S.E. 2019. Perceptual Range, Targeting Ability, and Visual Habitat Detection by Greater Fritillary Butterflies Speyeria cybele (Lepidoptera: Nymphalidae) and Speyeria atlantis. Journal of Insect Science 19(4):1-10 doi: 10.1093/jisesa/iez060



    64. 2018

  64. Zhang, J.*, Qian, H., Girardello, M., Pellissier, V., Nielsen, S.E. and Svenning, J.-C. 2018. Trophic interactions among vertebrate guilds and plants shape global patterns in species diversity. Proceedings of the Royal Society B: Biological Sciences 285:20180949. doi:10.1098/rspb.2018.0949【Media/媒体报道:Wikipedia 维基百科中国科学网果壳网

  65. Zhu, K., Zhang, J., Niu, S.L., Chu, C.J. and Luo, Y.Q. 2018. Limits to growth of forest biomass carbon sink under climate change. Nature Communications 9(1):2709 doi:10.1038/s41467-018-05132-5【Media/媒体报道:Phys.orgEurekAlert!UPI.comScience DailyYale Environment 360

  66. Qian, H., Zhang, J.* and Hawkins, B.A. 2018. Mean family age of angiosperm tree communities and its climatic correlates along elevational and latitudinal gradients in eastern North America. Journal of Biogeography 45(1):259-268 doi:10.1111/jbi.13108

  67. Bu, X.L., Gu, X.Y., Zhou, X.Q., Zhang, M.Y., Guo, Z.Y., Zhang, J., Zhou, X.H., Chen, X.Y. and Wang, X.H. 2018. Extreme drought slightly decreased soil labile organic C and N contents and altered microbial community structure in a subtropical evergreen forest. Forest Ecology and Management 429:18-27 doi:10.1016/j.foreco.2018.06.036



    68. 2017

  68. Zhang, J.*, Nielsen, S.E., Chen, Y.H., Georges, D., Qin, Y.C., Wang, S., Svenning, J-C. and Thuiller, W. 2017. Extinction risk of North American seed plants elevated by climate and land-use change. Journal of Applied Ecology 54:303-312 doi:10.1111/1365-2664.12701

  69. Chen, Y.H., Zhang, J., Jiang, J.P., Nielsen, S.E. and He, F.L. 2017. Assessing the effectiveness of China’s protected areas to conserve current and future amphibian diversity. Diversity and Distributions 23:146-157 doi:10.1111/ddi.12508

  70. Qian, H., Field, R., Zhang, J. and Zhang, Y.J. 2017. Does daily climate variation have an effect on species’ elevational range size? Journal of Biogeography 44:2432-2436 doi:10.1111/jbi.13065

  71. Wang, Y.Y., Zhang, J.*, LaMontagne, J.M., Lin, F., Li, B.H., Ye, J., Yuan, Z.Q., Wang, X.G. and Hao, Z.Q.* 2017. Variation and synchrony of tree species mast seeding in an old-growth temperate forest. Journal of Vegetation Science 28:413-423 doi:10.1111/jvs.12494



    72. 2016

  72. Zhang, J.*, Nielsen, S.E., Mao, L.F., Chen, S.B. and Svenning, J-C. 2016. Regional and historical factors supplement current climate in shaping global forest canopy height. Journal of Ecology 104:469-478 doi:10.1111/1365-2745.12510

  73. Zhang, J.*, Hu, J.B.*, Lian, J.Y., Fan, Z.J., Ouyang, X. and Ye, W.H. 2016. Seeing the forest from drones: Testing the potential of lightweight UAVs as a tool for long-term forest monitoring. Biological Conservation 198:60-69 doi:10.1016/j.biocon.2016.03.027

  74. Chai, S., Zhang, J., Nixon, A. and Nielsen, S.E. 2016. Using Risk Assessment and Habitat Suitability Models to Prioritise Invasive Species for Management in a Changing Climate. PLoS One 11(10):e0165292 doi:10.1371/journal.pone.0165292

  75. Yang, Q.S., Shen, G.C., Liu, H.M., Wang, Z., Ma, Z., Fang, X., Zhang, J. and Wang, X.H. 2016. Detangling the effects of environmental filtering and dispersal limitation on aggregated distributions of tree and shrub species: life stage matters. PLoS One 11(5):e0156326 doi:10.1371/journal.pone.0156326

  76. Ding, Y., Liu, G.F., Zang, R.G., Zhang, J., Liu, X.H. and Huang, J.H. 2016. Distribution of vascular epiphytes along a tropical elevational gradient: disentangling the abiotic and biotic determinants. Scientific Reports 6:19706 doi:10.1038/srep19706

  77. Qian, H., Field, R., Zhang, J.L., Zhang, J. and Chen, S.B. 2016. Phylogenetic structure and ecological and evolutionary determinants of species richness for angiosperm trees in forest communities in China. Journal of Biogeography 43:603-615 doi:10.1111/jbi.12639

  78. Qian, H. and Zhang, J. 2016. Are phylogenies derived from family-level supertrees robust for studies on macroecological patterns along environmental gradients? Journal of Systematics and Evolution 54:29-36 doi:10.1111/jse.12161



    79. 2007–2015

  79. Zhang, J., Huang, S. and He, F.L.* 2015. Half-century evidence from western Canada shows forest dynamics are primarily driven by competition followed by climate. Proceedings of the National Academy of Sciences of USA 112:4009-1014 doi: 10.1073/pnas.1420844112【Media/媒体报道:Phys.orgUniv. of Alberta

  80. He, F.L., Huang, S. and Zhang, J. 2015. Reply to Price et al.: An inconvenient truth about the long-term forest change in western Canada: competition, not climate, is the primary driving force. Proceedings of the National Academy of Sciences of USA E4341 doi:10.1073/pnas.1509592112

  81. Zhang, J.*, Nielsen, S.E., Stolar, J., Chen, Y.H. and Thuiller, W. 2015. Gains and losses of plant species and phylogenetic diversity for a northern high-latitude region. Diversity and Distributions 21:1441-1454 doi:10.1111/ddi.12365

  82. Zhang, J.* and Huang, X.L. 2015. Correspondence: China needs more monitoring apps. Nature 520:436 doi:10.1038/520436d

  83. Chen, S.B., Ferry, J.W., Mao, L.F., Zhang, J., Sa, R., Zhou, K. and Gao, J.X. 2015. Spatial patterns and environmental correlates of bryophyte richness: sampling effort matters. Biodiversity and Conservation 3:593-607 doi:10.1007/s10531-014-0838-8

  84. Qian, H., Wiens, J.J., Zhang, J. and Zhang, Y.J. 2015. Evolutionary and ecological causes of species richness patterns in North American angiosperm trees. Ecography 3:241-250 doi:10.1111/ecog.00952

  85. Zhang, J.*, Huang, S., Hogg, T., Lieffers, V., Qin, Y. and He, F.L. 2014. Estimating spatial variation in Alberta forest biomass from a combination of forest inventory and remote sensing data. Biogeosciences 11:2793-2808 doi:10.5194/bg-11-2793-2014

  86. Zhang, J.*, Nielsen, S., Grainger, T.N., Webster, N. Kohler, M., Chipchar, T. and Farr, D. 2014. Sampling landscape-scale plant diversity and rarity: the importance of sampling time in species detectability. PLoS One 9(4):e95334 doi:10.1371/journal.pone.0095334

  87. Zhang, J.*, Mayor, S. and He, F.L. 2014. Does disturbance regime change community assembly of vascular plant communities in the boreal forest? Journal of Plant Ecology 7:188-201 doi:10.1093/jpe/rtt068

  88. Qian, H. and Zhang, J. 2014. Using an updated time-calibrated family-level phylogeny of seed plants to test for non-random patterns of life forms across the phylogeny. Journal of Systematics and Evolution 4:423-430 doi:10.1111/jse.12086

  89. Huang, J.X., Zhang, J., Bin, Y., Lian, J.Y., Shen, Y., Cao, H., Ye, W.H. and Wu, L.F. 2014. Different relationships between temporal phylogenetic turnover and phylogenetic similarity in two forests were detected by a new null model. PLoS One 9(4):e95703 doi:10.1371/journal.pone.0095703

  90. Qian, H., Hao, Z.Q. and Zhang, J. 2014. Phylogenetic structure and phylogenetic diversity of angiosperm assemblages in forests along an elevational gradient in Changbaishan, China. Journal of Plant Ecology 7:154-165 doi:10.1093/jpe/rtt072

  91. Zhang, J.*, Kissling, W.D. and He, F.L. 2013. Local forest structure, climate and human disturbance determine regional distribution of boreal bird species richness in Alberta, Canada. Journal of Biogeography 40:1131-1142 doi:10.1111/jbi.12063

  92. Qian, H., Zhang, Y.J., Zhang, J. and Wang, X.L. 2013. Latitudinal gradients in phylogenetic relatedness of trees in North America. Global Ecology and Biogeography 22:1183–1191 doi:10.1111/geb.12069

  93. Bai, X.J., Queenborough, S.A., Wang, X.G., Zhang, J., Yuan, Z.Q., Xing, D.L. and Hao, Z.Q. 2012. Effects of local biotic neighbors and habitat heterogeneity on tree and shrub seedling survival in an old-growth temperate forest. Oecologia 170:755-765 doi:10.1007/s00442-012-2348-2

  94. Li, B.H., Hao, Z.Q., Bin, Y., Zhang, J. and Wang, M. 2012. Seed rain dynamics reveals strong dispersal limitation, different reproductive strategies and responses to climate in a temperate forest in northeast China. Journal of Vegetation Science 23:271-279 doi:10.1111/j.1654-1103.2011.01344.x

  95. Zhang, J., Song, B., Hao, Z.Q., Li, B.H., Ye, J. and Wang, X.G. 2010. Spatial patterns and associations of six congeneric species in an old-growth temperate forest. Acta Oecologica 36:29-38 doi:10.1016/j.actao.2009.09.005

  96. Wang, X.G., Ye, J., Li, B.H., Zhang, J., Lin, F. and Hao, Z.Q. 2010. Spatial distributions of species in an old-growth temperate forest, northeastern China. Canadian Journal of Forest Research 40:1011-1019 doi:10.1139/X10-056

  97. Zhang, J., Hao, Z.Q., Song, B., Li, B.H., Ye, J. and Wang, X.G. 2009. Fine-scale species co-occurrence patterns in an old-growth temperate forest. Forest Ecology and Management 257:2115-2120 doi:10.1016/j.foreco.2009.02.016

  98. Zhang, J., Hao, Z.Q., Sun, I.F., Song, B., Ye, J., Li, B.H. and Wang, X.G. 2009. Density dependence on tree survival in an old-growth temperate forest in northeastern China. Annals of Forest Science 66:204p1-9 doi:10.1051/forest/2008086

  99. Wang, X.G., Hao, Z.Q., Zhang, J., Lian, J.Y., Li, B.H., Ye, J. and Yao, X.L. 2009. Tree size distributions in an old-growth temperate forest. Oikos 118:25-36 doi:10.1111/j.0030-1299.2008.16598.x

  100. Wang, X.G., Hao, Z.Q., Ye, J., Zhang, J., Li, B.H. and Yao, X.L. 2008. Spatial variation of species diversity across scales in an old-growth temperate forest of China. Ecological Research 23:709-717 doi:10.1007/s11284-007-0430-8

  101. Wang, X.G., Hao, Z.Q., Ye, J., Zhang, J., Li, B.H. and Yao, X.L. 2008. Spatial pattern of diversity in an old-growth temperate forest in Northeastern China. Acta Oecologica 33:345-354 doi:10.1016/j.actao.2008.01.005

  102. Song, P.F., Hao, Z.Q. and Zhang, J. 2008. Valuing Eco-Assets: A note on valuation methods. The International Journal of Sustainable Development and World Ecology 15:512-517 doi:10.1080/13504500809469846

  103. Hao, Z.Q., Zhang, J., Song, B., Ye, J. and Li, B.H. 2007. Vertical structure and spatial associations of dominant tree species in an old-growth temperate forest. Forest Ecology and Management 252:1-11 doi:10.1016/j.foreco.2007.06.026


    104. Peer-reviewed Papers in Chinese Journals

    1. Zhang, J.*, Hao, Z. 2024. The neglected giant Tchen-Ngo Liou: The enlightenment of his dynamic geobotany theory to current studies in vegetation ecology and biodiversity. 不该遗忘的刘慎谔:动态地植物学思想对当前植被生态学与生物多样性研究的启示. Chinese Journal of Applied Ecology 应用生态学报 35(9): 2631-2638. (In Chinese) doi: 10.13287/j.1001-9332.202409.034
    2. Li, M.#, Wu, X.#, Zhou, Y., Long, S., Zhang, M., Gu, H., Si, X., Yan, E., Zhang, J.*. Elevational pattern of species range size of vascular plants in Changbai Mountain, China: A test of Rapoport’s rule. 长白山维管植物海拔梯度上种域格局及Rapoport法则的检验. Chinese Journal of Applied Ecology 应用生态学报 12: ???. (In Chinese) doi: 10.13287/j.1001-9332.202400.000
    3. Zhang, J.*, Wang, Z., Che, J., Wang, Y., Ma, K. 2023. Editoral. The neglected giant: Alfred Russel Wallace. 编者按. 不该遗忘的华莱士. Biodiversity Science 生物多样性 31(12): 23500. (In Chinese) doi: 10.17520/biods.2023500
    4. Shang, X.#,Zhang, J.*, Gao, H., Ku, W., Bi, Y., Li, X., Yan, E. 2023. Island area and climate jointly impact seed plant richness patterns across the Zhoushan Archipelago. 岛屿面积与气候共同影响舟山群岛种子植物丰富度格局. Biodiversity Science 生物多样性 31(12): 23392. (In Chinese) doi: 10.17520/biods.2023392
    5. Shen, Z.H.*, Zhang, J. 2023. Editoral. Semi-humid evergreen broad-leaved forests: Characteristics and status of plant diversity. 编者按. 半湿润常绿阔叶林: 分布、结构与植物多样性特征. Biodiversity Science 生物多样性 31(11): 23436. (In Chinese) doi: 10.17520/biods.2023436
    6. Wang, X., Mi, X., Wang, X., Jiang, M., Yang, T., Zhang, J., Shen, Z.H.* 2023. Comparison on woody plant diversity of evergreen broad-leaved forest dynamics plots in mid-subtropical China. 中国中亚热带常绿阔叶林动态监测样地群落木本植物多样性比较. Biodiversity Science 生物多样性 31(11): 23296.(In Chinese) doi: 10.17520/biods.2023296
    7. Wang, F.#, Lu, Y.#, Zhang, Z.#, …, Zhang, J.* 2023. Altitudinal variations and seasonal dynamics of near-surface and soil temperatures in subtropical forests of Mt. Guanshan, Jiangxi Province, China. 江西官山亚热带森林近地表和土壤温度的海拔梯度变化及其季节动态. Chinese Journal of Applied Ecology 应用生态学报 34(5): 1161-1168. (In Chinese) doi: 10.13287/j.1001-9332.202305.019
    8. Chen, X., Tu, Y., Dai, Z., …, Zhang, J., Wang, J.* 2023. Bryophytes diversity of Tianmushan National Nature Reserve, Zhejiang Province. 浙江天目山国家级自然保护区苔藓植物多样性. Biodiversity Science 生物多样性 31(4): 22649. (In Chinese) doi: 10.17520/biods.2022649
    9. Zhang, J., Kong, H., Huang, X., Fu, S., Guo, L., Guo, Q., Lei, F., Lv, Z., Zhou, Y., Ma, K.* 2022. Thirty key questions for biodiversity science in China. 中国生物多样性研究的30个核心问题. Biodiversity Science 生物多样性 30(10): 22609. (In Chinese) doi: 10.17520/biods.2022609
    10. Qian, H.*,Zhang, J., Zhao, J.# 2022. How many known vascular plant species are there in the world? An integration of multiple global plant databases. 世界上已知维管植物有多少种?基于多个全球植物数据库的整合. Biodiversity Science 生物多样性 30(7): 22254. (In Chinese) doi: 10.17520/biods.2022254
    11. Yan, E.*, Si, X., Zhang, J., Chen, X. 2022. Edward O. Wilson and the Theory of Island Biogeography. E. O. 威尔逊与岛屿生物地理学理论. Biodiversity Science 生物多样性 30(1): 22024. (In Chinese) doi: 10.17520/biods.2022024
    12. Zhang, J.*, Huang, X.*, Zhou, Y., Ma, K. 2021. Editorial: Biodiversity data papers: Standardizing and diversifying data sharing. 编者按. 生物多样性数据论文: 规范化和多样化. Biodiversity Science 生物多样性 29(9):1147-1148. (In Chinese) doi: 10.17520/biods.2021369
    13. Zhang, Z., Hu, J., Yang, Q., Lian, J., Li, B., Wang, X., Ye, W., Zhang, J.* 2021. An unmanned aerial vehicle visible light remote sensing image dataset of four forest dynamic plots in subtropical China. 中国亚热带4个森林动态监测样地无人机可见光遥感影像数据集. Biodiversity Science 生物多样性 29(9):1181-1185. (In Chinese) doi: 10.17520/biods.2021299
    14. Mi, X.C., Feng, G., Zhang, J., Hu, Y.B., Zhu, L. and Ma, K.P.* 2021. Review on Biodiversity Science in China. 中国生物多样性科学研究进展评述. Bulletin of the Chinese Academy of Sciences 中国科学院院刊 36(4):384-398. (In Chinese) doi: 10.16418/j.issn.1000-3045.20210307002
    15. Zhang, J., Song, K. and Song, Y.C.* 2020. History of French-Swiss School of phytosociology and its influences on modern vegetation ecology. 法瑞学派的发展历史及其对当代植被生态学的影响. Chinese Journal of Plant Ecology 植物生态学报 44(7):699–714. (In Chinese) doi: 10.17521/cjpe.2020.0054
    16. Kong, J.X., Zhang, Z.C. and Zhang, J. 2019. Classification and identification of plant species based on multi-source remote sensing data: Research progress and prospect. 基于多源遥感数据的植物物种分类与识别:研究进展与展望. Biodiversity Science 生物多样性 27:796–812. (In Chinese) doi: 10.17520/biods.2019197
    17. Zhang, J.* 2019. From Simple to Complex and Vice Versa: the “Right” Way to Using Drones in Ecology? 由简入繁,化繁为简:生态+无人机的“正确”打开方式? Tropical Geography 热带地理 39(4):479–481. (In Chinese) doi: 10.13284/j.cnki.rddl.003151
    18. Zhang, J.* and Huang, X.L. 2019. Biodiversity along elevational gradients: the commemoration of the 250th birthday of Alexander von Humboldt. 生物多样性的海拔梯度格局——纪念亚历山大·冯·洪堡诞辰250周年. WUYI Science Journal 武夷科学 35(1):1–3. (In Chinese) doi: 10.15914/j.cnki.wykx.2019.01.01
    19. Zhang, F.L., Wang, X., Zhang, O.K., Zhang, Z.C. and Zhang, J.* 2019. The health status of ancient trees and their variations along an altitudinal gradient in the West Tianmu Mountain, Zhejiang province. 浙江西天目山古树树干健康状况及其随海拔梯度变化规律. WUYI Science Journal 武夷科学 35(1):12–20. (In Chinese) doi: 10.15914/10.15914/j.cnki.wykx.2019.01.03
    20. Zhang, J.. 2018. Book review in two textbooks of vegetation ecology and a short discussion in the importance of local study cases in ecology textbooks. 两本《植被生态学》评介-兼谈本土案例对生态学教材的重要性. Biodiversity Science 生物多样性 26:651–653. (In Chinese) doi:10.17520/biods.2018160
    21. Tang, Z.Y., Jiang, W., Zhang, J. and Zhang, X.Y. 2018. Applications of satellite and air-borne remote sensing in biodiversity research and conservation. 航空航天遥感在物种多样性研究与保护中的应用. Biodiversity Science 生物多样性 26:807–818. (In Chinese) doi:10.17520/biods.2018079
    22. Zhang, F.L., Wang, X. and Zhang, J.* 2018. Biodiversity information resources. II. Environmental data. 生物多样性信息资源. II. 环境类型数据. Biodiversity Science 生物多样性 26:53–65. (In Chinese) doi:10.17520/biods.2017189
    23. Hu, J.B. and Zhang, J.*. 2018. Unmanned Aerial Vehicle remote sensing in ecology: Advances and prospects. 无人机遥感在生态学中的应用; 研究进展与展望. ACTA ECOLOGICA SINICA 生态学报 38(1):20–30. (In Chinese) doi:10.5846/stxb201612092538
    24. Wang, X., Zhang, F.L. and Zhang, J.* 2017. Biodiversity information resources. I. Species distribution, catalogue, phylogeny, and life history traits. 生物多样性信息资源. I. 物种分布、编目、系统发育与生活史性状. Biodiversity Science 生物多样性 25:1223-1238. (In Chinese) doi:10.17520/biods.2017184
    25. Zhang, J.* 2017. Biodiversity science and macroecology in the era of big data. 大数据时代的生物多样性科学与宏生态学. Biodiversity Science 生物多样性 25:355-363. (In Chinese) doi:10.17520/biods.2017037
    26. Sui, D.D., Wang, Y., Lian, J.Y., Zhang, J., Hu, J.B., Ouyang, X.J., Fan, Z.J., Cao, H.L. and Ye, W.H. 2017. Gap distribution patterns in the south subtropical evergreen broad-leaved forest of Dinghushan. 鼎湖山南亚热带常绿阔叶林林窗分布格局及其成因. Biodiversity Science 生物多样性 25:382-392. (In Chinese) doi:10.17520/biods.2017027
    27. Zhang, J.*, Chen, S.B., Chen, B., Du, Y.J., Huang, X.L., Pan, X.B. and Zhang, Q. 2013. Citizen science: integrating scientific research, ecological conservation and public participation. 公众科学: 整合科学研究, 生态保护和公众参与. Biodiversity Science 生物多样性 21:738-749. (In Chinese) doi:10.3724/SP.J.1003.2013.12113
    28. Bai, X.J., Li, B.H., Zhang, J., Wang, L.W., Yuan, Z.Q. and Hao, Z.Q. 2010. Species compostion, structure, and spatial distribution of shrub species in broad-leaved Korean pine (Pinus koraiensis) mixed forest. 长白山阔叶红松林灌木物种组成、结构和空间分布. Chinese Journal of Applied Ecology 应用生态学报 21:1899-1906. (In Chinese) doi:10.13287/j.1001-9332.2010.0306
    29. Zhang, J., Li, B.H., Bai, X.J., Yuan, Z.Q, Wang, X.G., Ye, J. and Hao, Z.Q. 2009. Composition and interannual dynamics of tree seedlings in broad-leaved Korean Pine mixed forest in Changbai Mountain. 长白山阔叶红松林乔木树种幼苗组成及其年际动态. Biodiversity Science 生物多样性 17:385-396. (In Chinese) doi:10.3724/SP.J.1003.2009.09102
    30. Zhang, J., Hao, Z.Q., Li, B.H., Ye, J., Wang, X.G. and Yao, X.L. 2008. Composition and seasonal dynamics of seed rain in Broad-leaved Korean pine mixed forest, Changbai Mountain. 长白山阔叶红松 (Pinus koraiensis) 林种子雨组成及其季节动态. Acta Ecologica Sinica 生态学报 28:2445-2454. (In Chinese)
    31. Yao, X.L., Piao, Z.J., Li, B.H., Zhang, J., Wang, X.G., Ye, J. and Hao, Z.Q. 2008. Seed consumption of Pinus koraiensis by rodents and birds. 啮齿动物和鸟类对红松种子的消耗. Chinese Journal of Applied Ecology 应用生态学报 19:1759-1763. (In Chinese) doi:10.13287/j.1001-9332.2008.0301
    32. Wang, X.G., Hao, Z.Q., Ye, J., Zhang, J., Li, B.H. and Yao, X.L. 2008. Relationships between species abundance and spatial distribution pattern of broad-leaved Korean pine (Pinus koraiensis) mixed forest in Changbai Mountain of China. 长白山阔叶红松林物种多度和空间分布格局的关系. Chinese Journal of Ecology 生态学杂志 27:145-150. (In Chinese) doi:10.13292/j.1000-4890.2008.0061
    33. Hao, Z.Q., Zhang, J., Li, B.H., Ye, J., Wang, X.G. and Yao, X.L. 2008. Natural secondary poplar-birch forest in Changbai Mountain: species composition and community structure. 长白山次生杨桦林样地: 物种组成与群落结构. Chinese Journal of Plant Ecology 植物生态学报 32:251-261. (In Chinese) doi:10.3773/j.issn.1005-264x.2008.02.003
    34. Hao, Z.Q., Li, B.H., Zhang, J., Wang, X.G., Ye, J. and Yao, X.L. 2008. Broad-leaved Korean pine (Pinus koraiensis) mixed forest plot in Changbaishan of China: Community composition and structure. 长白山阔叶红松林样地 (CBS): 群落组成与结构. Chinese Journal of Plant Ecology 植物生态学报 32:238-250. (In Chinese) doi:10.3773/j.issn.1005-264x.2008.02.002
    35. Li, B.H., Zhang, J., Ye, J., Yao, X.L., Wang, X.G. and Hao, Z.Q. 2008. Diversity, Seasonal dynamics and Spatial distribution patterns of herbs in broad-leaved Korean pine (Pinus koraiensis) mixed forest in Changbai Mountain. 长白山阔叶红松林草本植物多样性季节动态及空间分布格局. Chinese Journal of Applied Ecology 应用生态学报 19:467-473. (In Chinese) doi:10.13287/j.1001-9332.2008.0144
    36. Zhang, J., Hao, Z.Q., Song, B., Ye, J., Li, B.H. and Yao, X.L. 2007. Spatial distribution patterns and associations of Korean pine (Pinus koraiensis) and Tilia amurensis in Broad-leaved Korean pine mixed forest in Changbai Mountain. 长白山阔叶红松林中红松与紫椴的空间分布格局及其关联性. Chinese Journal of Applied Ecology 应用生态学报 18:1681-1687. (In Chinese) doi:10.13287/j.1001-9332.2007.0307
    37. Lin, F., Hao, Z.Q., Li, B.H., Ye, J., Dai, G.H., Zhang, J. and Ni, W.D. 2007. The relationship between the moss community characteristics and the regeneration in the dark coniferous forest of Changbai Mountain. 长白山暗针叶林苔藓植物群落特征与林木更新的关系. Acta Ecologica Sinica 生态学报 27:1308-1314. (In Chinese)

    Books, Book Chapters, Research Reports and Others

    1. Zhang, J.. 2022. 公众参与的力量:科学研究的“新”形式(The Power of Public Participation: A New Approach to Scientific Research). 科学,74(5): 1-4. 全文链接
    2. Zhang, J., Zhang, Z.C., Wang, Y.Z., Liu, X.Y., Song, H.J., Gao, Z.W., Wang, X., Zhang, R. 2020. Chinese version of Prof. Mark Vellend’s book “The Theory of Ecological Communities”. Higher Education Press, Beijing. [张健, 张昭臣, 王宇卓, 刘翔宇, 宋厚娟, 高志文, 王昕, 张然. 2020. 生态群落理论(译著)(原作者: Prof. Mark Vellend). 高等教育出版社, 北京.]
    3. Göbel, C., Cappadonna, J.L., Newman, G.J., Zhang, J., Vohland, K. 2017. More Than Just Networking for Citizen Science: Examining Core Roles of Practitioner Organizations. Analyzing the Role of Citizen Science in Modern Research. Edited by Luigi Ceccaroni and Jaume Piera. doi:10.4018/978-1-5225-0962-2.ch002
    4. Li,B.H., Wang, X.G., Zhang, J., Bai, X.J., Ye, J. and Zhanqing Hao. 2010. Changbaishan Temperate Forest Dynamic Plots: Composition and Their Spatial Patterns. China Forestry Publishing House, Beijing. [李步杭, 王绪高, 张健, 白雪娇, 叶吉, 郝占庆. 2010. 长白山温带森林:阔叶红松林及其次生杨桦林的物种组成与分布格局. 中国林业出版社, 北京.]
    5. Zhang, J.. 2013. Boreal Forests and Taiga. Biomes and Ecosystems: An Encyclopedia. Edited by Robert Warren Howarth & Jacqueline Mohan. Salem Press.
    6. Chai, S.L., Nixon, M., Zhang, J., Nielsen, S.E. 2014. Predicting invasive plant response to climate change: Prioritization and mapping of new potential threats to Alberta’s biodiversity. Available at: http://www.emcla.ca/
    7. Nielsen, S.E., Grainger, T.N., Webster, N., Zhang, J., Farr, D., Chai, S.L., Cote, S., Kohler, M., & Chipchar, T. 2013. Targeted rare plant surveys for the Lower Athabasca: A report on 2012 activities. Available at: http://www.emcla.ca/

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