Personal details

FirstName:Fuxi LastName:Shi

Birth Date:20/06/1987 Nationality:Chinese

Address:College of Forestry, Jiangxi Agricultural University, No. 1101 Zhimin Road,NanchangCity330045, JiangxiProvince, P.R.China

Researchgate:https://www.researchgate.net/profile/Fuxi-Shi

Education

1.College of Earth and Environmental Sciences, Lanzhou University, Lanzhou City,China

PhD.PhysicalGeography(2016–2019)

2.College of Geography and Environmental Science, Northwest Normal University, Lanzhou City,China

M.S.PhysicalGeography(2009–2012)

3.College of Geography and Environmental Science, Northwest Normal University, Lanzhou City,China

B.S.Geography(2005–2009)

Professional Experience

1.Associate professor, College of Forestry, Jiangxi Agricultural University, Nanchang City, China (2022-present)

2.Senior Lecturer, College of Forestry, Jiangxi Agricultural University, Nanchang City, China (2019-2021)

3.Engineer,Northeast Institute of Geography and Agroeclogy, Chinese Academy of Sciences, Changchun City, China(2012-2017)

Research Interests

1.Response mechanisms of plant water use to changes in precipitation patterns (based on stablecarbon,oxygen and hydrogen isotopes)

2.ReconstructionofHolocene climatic changesuse of peat macrofossil(mainly by stableisotopictechnique)

3.Paleohydroclimatic significancesof carbon,oxygen and hydrogen isotopesofα-cellulose in vascular plant-dominated peatlands(based on the in situ observation and sampling)

4.Responseofplant functionaltraitsto global warmingand links toecosystemcarbon cyclingin the permafrostpeatlands(mainly byopen-top chamberexperiments)

ResearchProjects

1.Stable isotopes tracer study on response of different mycorrhizal treespecies to seasonal drought in the subtropical broadleaf evergreen forest,supported by Jiangxi Provincial NaturalScience Foundation(2024-2027,Leader).

2.Response mechanisms of water use for the typical afforestation trees to changes in precipitation patterns in the middle subtropical zones based on stable isotopes,funded by National Natural Science Foundation of China(2021-2024,Leader).

3.Water use mechanisms of two endangered plants (Toona ciliate var. pubescensandTaxus chinensis var. mairei) and its responses to extreme precipitationevents,supported by Jiangxi Provincial NaturalScience Foundation(2020-2022,Leader).

4.The reconstruction of peat cellulose hydrogen/oxygen isotopic records from Altai Mountains in central Asia and their paleohydroclimatic significances,funded by National Natural Science Foundation of China(2018-2021,Majorparticipant).

5.Shift offlowering phenology and its impacts on plant seed productionunder climate warming in the Northern peatland,funded by National Natural Science Foundation of China(2017-2019,Leader).

Publications(*Corresponding author)

1.Jiang F, Pu T, Xue ZJ, Ma YW, Shi XY*,Shi FX*. Stable carbon isotope composition and intrinsic water use efficiency in plants along an altitudinal gradient on the eastern slope of Yulong Snow Mountain, China.Ecological Processes, 2024, 13, 36. (Co-corresponding author)

2.Ren JS, Huang KX, Xu FF, Zhang Y, Yuan BS, Chen HM,Shi FX*. The changes in soil microbial communities and assembly processes along vegetation succession in a subtropical forest.Forests, 2024, 15, 242. (Corresponding author)

3.Li R, Wu PP, Peng C,Shi FX, Rong Mao*. Shifted plant composition predominantly controls nitrogen addition effect on community‑level leaf nutrient resorption in a boreal peatland.Plant and Soil, 2024, 494, 321-331.

4.Li YX, Qin QQ, Tian YP, Li JY, Yang CX, Peng SY,Shi FX, Rao ZG*. Newly-found ferns in an artificially illuminated deep karst cave have the most negative known carbon isotope values.Science Bulletin, 2024, 69, 881-884.

5.Yang D,Shi FX, Fang XM, Zhang RL, Shi JM, Zhang Y*. Effect of the Moso bambooPyllostachys edulis(Carrière) J.Houz. on soil phosphorus bioavailability in a broadleaf forest (Jiangxi Province, China).Forests, 2024, 15, 328.

6.Zhang Y, Wan SZ,Shi FX, Fang XM, Huang C*. Identification and characterization of a phosphate-solubilizing bacterium and its growth-promoting effect on Moso bamboo seedlings.Forests, 2024, 15, 364.

7.Huang KX, Xue ZJ, Wu JC, Wang H, Zhou HQ, Xiao ZB, Zhou W, Cai JF, Hu LW, Ren JS, Zhang Y, Xiao SS,Shi FX*. Water use efficiency of five tree species and its relationships with leaf nutrients in a subtropical broad-leaf evergreen forest of southern China.Forests, 2023, 14, 2298. (Corresponding author)

8.Chen HM,Shi FX, Xu JW, Liu XP, Mao R*. Tree mycorrhizal type controls over soil water-extractable organic matter quantity and biodegradation in a subtropical forest of southern China.Forest Ecology and Management, 2023, 535, 120900.

9.Chen HM,Shi FX,Wang XW, Zhang XH,Mao R*.Conversion of drylands to paddy fields on former wetlands restores soil organic carbon by accumulating labile carbon fractions in the Sanjiang Plain, northeast China.Journal of the Science of Food and Agriculture, 2023, 103,599-605.

10.Zhang XF, Zhong NH, Li R,Shi FX, Mao R*. Nitrogen addition mediates monospecific and mixed litter decomposition in a boreal peatland.Catena, 2023, 225, 107051.

11.Shi FX, Chen HM, Wang XW, Mao R*. Alder encroachment alters subsoil organic carbon pool and chemical structure in a boreal peatland of Northeast China.Science of the Total Environment, 2022, 850, 157849.

12.Shi FX, Wang XW, Lin GG, Zhang XH, Chen HM, Mao R*. Cryptogams and dwarf evergreen shrubs are vulnerable to nitrogen addition in a boreal permafrost peatland of Northeast China.Applied Vegetation Science, 2022, 25, e12691.

13.Gao FY, Yang JH, Xia DS, Lu H, Wang SY, Li KM, Wang ZQ, Wu ZP, Zhou JX,Shi FX*. Linking moisture and near-surface wind with winter temperature to reveal the Holocene climate evolution in arid Xinjiang region of China.Geoscience Frontiers, 2022, 13, 101433. (Corresponding author)

14.ChenGJ,Shi FX,Ying Q,Mao R*.Alder expansion increases soil microbial necromass carbon in a permafrost peatland of Northeast China.Ecological Indicators, 2022, 144, 109488.

15.Yu LL, Zhang XH,Shi FX, Mao R*. Effect of shrub encroachment on leaf nutrient resorption in temperate wetlands in the Sanjiang Plain of Northeast China.Ecological Processes, 2022, 11, 67.

16.Xu JW, Yang N,Shi FX, Zhang Y, Wan SZ, Mao R*. Bark controls tree branch-leached dissolved organic matter production and bioavailability in a subtropical forest.Biogeochemistry, 2022, 158(3), 1-11.

17.Huang C*, Feng JY, Tang FR, He HS, Liang Y, Wu MM, Xu WR, Liu B,Shi FX, Chen FS. Predicting the responses of boreal forests to climate-fire-vegetation interactions in Northeast China.Environmental Modelling and Software, 2022, 153, 105410.

18.Song YY, Wang LL, Ma XY,Shi FX, Wang XW, Ren JS, Jiang L, Hou AX, Song CC*. Effects of plant community diversity on soil microbial functional groups in permafrost peatlands of Greater Khingan Mountains, Northeast China.Wetlands Ecology and Management, 2022, 30 (3),595-606.

19.Sun WZ,Shi FX*, Chen HM, Zhang Y, Guo YD, Mao R. Relationship between relative growth rate and C:N:P stoichiometry for the marsh herbaceous plants under water-level stress conditions.Global Ecology and Conservation, 2021, 25, e01416. (Corresponding author)

20.Cao JT, Rao ZG*,Shi FX, Lian EG, Jia GD*. Lake-level records support a mid-Holocene maximum precipitation in northern China.Science China Earth Sciences, 2021,64(12),2161-2171.

21.Zhang Y, Yang GS,Shi FX, Mao R*. Biomass allocation between leaf and stem regulates community-level plant nutrient resorption efficiency response to nitrogen and phosphorus additions in a temperate wetland of Northeast China.Journal of Plant Ecology,2021, 14,58-66.

22.Gao FY*, Zheng XM, Jia J, Li KM, Xia DS*, Yang JH, Lu H,Shi FX, Chen ZX, Wang SY. Evolution ofnear-surface wind strength in Northeastern arid central Asia during the Holocene.Paleoceanography and Paleoclimatology, 2021, 36, e2020PA003970.

23.Ren H,Shi FX*, Mao R, Guo YD, Zhao WZ. Response of individual sizes and spatial patterns ofDeyeuxia angustifoliato increasing water level gradient in a freshwater wetland.Environmental Science and Pollution Research, 2020, 27(14), 17085-17092. (Corresponding author)

24.Rao ZG*,Shi FX, Li YX, Huang C, Zhang XZ, Yang W, Liu LD, Zhang XP, Wu Y.Long-term winter/summer warming trends during the Holocene revealed by α-cellulose δ¹⁸O/δ¹³C records from an alpine peat core from central Asia.Quaternary Science Reviews,2020,232, 106217.

25.Cao JT, Rao ZG*,Shi FX, Jia GD*. Ice formation on lake surfaces in winter causes warm-season bias of lacustrine brGDGT temperature estimates.Biogeosciences, 2020, 17, 2521-2536.

26.Li YX, Tian YP, Guo HC, Wei SK, Cao JT, Huang C,Shi FX, Rao ZG*. Complex “human−vegetation−climate” interactions in the Late Holocene and their significance for paleotemperature reconstructions.PNAS, 2020, 117(11), 5568-5570.

27.Wu DD, Cao JT, Jia GD, Guo HC,Shi FX, Zhang XP, Rao ZG*. Peat brGDGTs-based Holocene temperature history of the Altai Mountains in arid Central Asia.Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, 538, 109464.

28.Cao LG, Zhou ZC, Xu XWH,Shi FX. Spatial and temporal variations of the greenhouse gas emissions in coastal saline wetlands in southeastern China.Environmental Science and Pollution Research, 2020, 27(2), 1118–1130.

29.Rao ZG*, Guo HC, Cao JT,Shi FX, Jia GD, Li YX, Chen FH. Consistent long-term Holocene warming trend at different elevations in the Altai Mountains in arid central Asia.Journal of Quaternary Science, 2020, 1-10.

30.Shi FX, Rao ZG*, Li YX, Cao JT, Shi XY, Li CZ, Sun WZ. Precipitation δ¹⁸O recorded by the α-cellulose δ¹⁸O of plant residues in surface soils: Evidence from a broad environmental gradient in inland China.Global Biogeochemical Cycles,2019, 33(11), 1440-1468.

31.Shi FX, Rao ZG*, Cao JT, Huang C, Wu DD, Yang W, Sun WZ. Meltwater is the dominant water source controlling α-cellulose δ¹⁸O in a vascular-plant-dominated alpine peatland in the Altai Mountains, Central Asia.Journal of Hydrology, 2019, 572, 192-205.

32.Zhang Y,Shi FX, Mao R*.Alnus sibiricaencroachment promotes dissolved organic carbon biodegradation in a boreal peatland.Science of the Total Environment, 2019, 695, 133882.

33.Song YY, Song CC*,Shi FX, Wang MQ, Ren JS, Wang XW, Jiang L. Linking plant community composition with the soil C pool, N availability and enzyme activity in boreal peatlands of Northeast China.Applied Soil Ecology, 2019, 140, 144-154.

34.Rao ZG*, Huang C, Xie LH,Shi FX, Zhao Y, Cao JT, Gou XH, Chen JH, Chen FH. Long-term summer warming trend during the Holocene in central Asia indicated by alpine peatα-cellulose δ¹³C record.Quaternary Science Reviews, 2019, 203, 56-67.

35.Shan LP, Song CC*, Zhang XH, Cagle GA,Shi FX. Plant defence allocation patterns following an increasing water level gradient in a freshwater wetland.Ecological Indicators, 2019, 107, 105542.

36.Rao ZG*, Huang C,Shi FX, Zhang XZ, Zhang XP. Reply to the comments on “Reconciling the ‘westerlies’ and ‘monsoon’ models: A new hypothesis for the Holocene moisture evolution of the Xinjiang region, NW China” by Dongliang Zhang and Yunpeng Yang.Earth-Science Reviews, 2019, 198(24):102943.

37.Rao ZG*, Wu DD,Shi FX, Guo HC, Cao JT, Chen FH. Reconciling the‘westerlies’and‘monsoon’models: A new hypothesis for the Holocene moisture evolution of the Xinjiang region, NW China.Earth-Science Reviews, 2019, 191, 263-272.

38.Gao FY,Shi FX*, Chen HM, Zhang XH, Yu XY, Cui Q, Zhao CZ.Rapid expansion ofMelicaprzewalskyicauses soil moisture deficit and vegetation degradation in subalpine meadows.CLEAN-Soil, Air, Water,2018, 46(1), 1700587.(Corresponding author)

39.Cui Q, Song CC*, Wang XW,Shi FX, Yu XY, Tan WW. Effects of warming on N₂O fluxes in a boreal peatland ofpermafrost region, Northeast China.Science of the Total Environment,2018,616-617,427-434.

40.Rao ZG*, Guo WK, Cao JT,Shi FX, Jiang H, Li CZ. Relationship between the stable carbon isotopic composition of modern plants and surface soils and climate: A global review.Earth-Science Reviews, 2017, 165, 110-119.

41.Yu XY, Song CC*, Sun L, Wang XW,Shi FX, Cui Q, Tan WW. Growing season methane emissions from a permafrost peatland of northeast China: Observations using open-path eddy covariance method.Atmospheric Environment, 2017, 153,135-149.

42.Cui Q, Song CC*, Wang XW,Shi FX, Wang LL, Guo YD. Rapid N₂O fluxes at high level of nitrate nitrogen addition during freeze-thaw events in boreal peatlands of Northeast China.Atmospheric Environment,2016, 135, 1-8.

43.Mao R*, Chen HM, Zhang XH,Shi FX, Song CC. Effects of P addition on plant C:N:P stoichiometry in an N-limited temperate wetland of Northeast China.Science of the Total Environment, 2016, 559, 1-6.

44.Shi FX, Song CC*, Zhang XH, Mao R, Guo YD, Gao FY*.Plant zonation patterns reflected by the differences in plant growth,biomass partitioning and root traits along a water level gradient amongfour common vascular plants in freshwater marshes of the SanjiangPlain, Northeast China.Ecological Engineering,2015,81,158-164.

45.Zhang XH, Song CC*, Mao R, Yang GS, Tao BX,Shi FX, Zhu XY, Hou AX. Litter mass loss and nutrient dynamics of four emergent macrophytes during aerial decomposition in freshwater marshes of the Sanjiang plain, Northeast China.Plant and Soil, 2014, 385, 139-147.

46.Wang JY, Song CC*, Zhang J, Wang LL, Zhu XY,Shi FX. Temperature sensitivity of soil carbon mineralization and nitrous oxide emission in different ecosystems along a mountain wetland-forest ecotone in the continuous permafrost of Northeast China.Catena, 2014, 121,110-118.