Jiangxiaodong

l  Ph.D – Stony Brook University. May 2010

l  M. S. – Xiamen University. June 2004.

l  B. A. – Xiamen University. June 2001.

Experience:

l  Professor, East China Normal University, December, 2016－present

l  Associate Professor, East China Normal University, August, 2010－December, 2016

l  Assistant Researcher, Polar Research Institute of China, July, 2004－August 2006 (The 22nd Chinese Antarctic Exploration, December 2005－February 2006, 2005 Chinese Arctic Yellow River Station Exploration, Ny-Alesund, Svalbard, August 13－September 18, 2005)

Zooplankton Ecology

RESEARCHER ID  F-9678-2013

ORCID iD orcid.org/0000-0001-7998-0440

1.        Zhang H., Li J., Zhou C., Liu X., Jiang X.*, 2025. Potentiated plastic and genetic adaptation to copper pollution in high-density populations of water fleas.Environmental Science & Technology, 2025, 59: 14336-14346.

2.        Fan J., Li J., Xie Y., Zhang H., Jiang X.*, 2025. Synchronous responses to tidal restriction by seawall construction across fish and plankton communities in Yangtze River Estuary. Marine Environmental Research, 210, 107312.

3.        Zhao Y., Zhang Q., Green A.J., Tang S., Jiang X.*, 2025. Experimental evidence of internal transport of invasive apple snail eggs by waterbirds. Aquatic Invasions.

4.        Yang K., Li J., Xie Y., Chen Y., Zhang H., Jiang X.*, 2025. Weak salinization alleviates the harmful impact of cyanobacteria on water fleas. Environmental Pollution, 372, 126002.

5.        Chen X., Yan A., Lu S.*, Zhang H., Li D., Jiang X.*, 2025. Accelerated stochastic processes of plankton community assembly due to tidal restriction by seawall construction in the Yangtze River Estuary. Marine Environmental Research, 204, 106941.

6.        Chen X., Wei Q., Niu Y., Jiang X.*, 2024. Complementary roles of eDNA metabarcoding and microscopy in plankton monitoring across seven habitats. Journal of Plankton Research, 46: 555-566.

7.        Fan J., Yang J., He Y., Jiang X.*, 2023. Diel, seasonal, and annual variations of fish assemblages in intertidal creeks of the Changjiang River estuary.Journal of Oceanology and Limnology, 41: 1849-1863.

8.        Li J., Xu J., Jiang X.*, 2023. Urban runoff mortality syndrome in zooplankton caused by tire wear particles. Environmental Pollution, 329: 121721.

9.        Zhang H, Jiang X.*, 2022. Forward and reverse evolution of multivariate responses to cyanobacteria in experimental waterflea populations. Limnology and Oceanography,67: 2418-2430.

10.     Zhang H, Jiang X.*, 2022. Resurrection of dormant zooplankton grazers reveals multiple evolutionary responses to toxic cyanobacteria. Limnology and Oceanography, 67: 2000-2011.

11.     Zhang H, He Y, Yang J, Mao H, Jiang X.*, 2022. Contemporary adaptive evolution in fragmenting river landscapes: evidence from the native waterflea Ceriodaphnia cornuta. Journal of Plankton Research, 44: 88-98.

12.     Dong Y, Zhang H, Wu H.*, Xue J., Liu Y., Jiang X.*, 2021. Invasion risk to Yangtze River Estuary posed by resting eggs in ballast sediments from transoceanic ships. Journal of Experimental Marine Biology and Ecology, 545: 151627.

13.     Zhang H., Mao H., Dong Y., Jiang X.*, 2021. Isolation and characterization of microsatellite loci for use in population genetic analysis in the small-bodied cladocerans Ceriodaphnia cornuta along a riverscape. Fundamental and Applied Limnology 195: 21-37.

14.     Dong Y., Zheng X., Ma Y., Li Q., Xu B., Jiang X.*, 2020. Diversity and community structure of zooplankton resting eggs in intertidal mudflats and creeks of an estuary. Journal of Experimental Marine Biology and Ecology 532,151446..

15.     Liu M., Li J., Wang W., Jiang X.*, 2019. Immigration shapes evolutionary tolerance to toxic cyanobacteria in two cladoceran grazers. Hydrobiologia, 826：397-409.

16.     Jiang X.*, Xie J., Xu Y., Zhong W., Zhu X., Zhu C., 2017. Increasing dominance of small zooplankton with toxic cyanobacteria. Freshwater Biology 62: 429-443.

17.     Jiang X.*, Gao H., Zhang L., Liang H. Zhu X., 2016. Rapid evolution of tolerance to toxic Microcystis in two cladoceran grazers. Scientific Reports 6: 25319; doi: 10.1038/srep25319.

18.     Chen Y., Zhang L., Jiang X.*, 2015. Fine-scale local adaptation of cyanobacterial tolerance in Simocephalus vetulus (Crustacea: Cladocera). Journal of Plankton Research 37: 764-772.

19.     Chen Y., Xu B., Yang W., Jiang X.*, 2015. Combined effects of calcium deficiency and increasing cyanobacteria on competitive dominance of zooplankton. Fundamental and Applied Limnology187: 11-20.

20.     Jiang X.*, Liang H., Chen Y., Xu X, Huang D., 2015. Microgeographic adaptation to toxic cyanobacteria in two aquatic grazers.Limnology and Oceanography 60：947-956.

21.     Jiang X.*, Zhang L., Li Q., Zhang H., Chen Y., 2014. Combined effects of calcium deficiency, cyanobacteria, and warming on the population fitness of three cladocerans. Fundamental and Applied Limnology185: 321-328.

22.     Li Q., Jiang X.* 2014. Offspring tolerance to toxic Microcystis aeruginosa in Daphnia pulex shaped by maternal food availability and age. Fundamental and Applied Limnology 185: 315-319.

23.     Jiang X.*, Yang W., Zhang L., Chen L., Niu Y., 2014. Predation and cyanobacteria jointly facilitate competitive dominance of small-bodied cladocerans. Journal of Plankton Research36: 956-965.

24.     Jiang X.*, Yang W., Xiang X., Niu Y., Chen L., Zhang J., 2014. Cyanobacteria alter competitive outcomes between Daphnia and Bosmina in dependence on environmental conditions. Fundamental and Applied Limnology 184: 11-22.

25.     Jiang X.*, Li Q., Zhao S., Zhang L., Zhao Y., Chen L., Yang W., Liang H., 2014. Temperature reaction norms of Daphnia carinata fitness: the effects of food concentration, population density and photoperiod.Journal of Freshwater Ecology, 29: 25-35.

26.     Jiang X.*, Li Q., Liang H., Zhao S., Zhang L., Zhao Y., Chen L., Yang W., Xiang X., 2013. Clonal variation in growth plasticity within a Bosmina longirostris population: the potential for resistance to toxic cyanobacteria. PLoS ONE8(9): e73540.

27.     Jiang X.*, Zhang L., Liang H., Li Q., Zhao Y., Chen L., Yang W., Zhao S., 2013. Resistance variation within a Daphnia pulex population against toxic cyanobacteria. Journal of Plankton Research 35: 1177-1181.

28.     Jiang X.*, Yang W., Zhao S., Liang H., Zhao Y., Chen L., Li R., 2013. Maternal effects of inducible tolerance against the toxic cyanobacterium Microcystis aeruginosa in the grazer Daphnia carinata. Environmental Pollution 178: 142-146.

29.     Jiang X.*, Liang H., Yang W., Zhang J., Zhao Y., Chen L., Zhao S., Jing X., 2013. Fitness benefits and costs of induced defenses in Daphnia carinata (Cladocera: Daphnidae) exposed to cyanobacteria. Hydrobiologia 702: 105-113.

30.     Jiang X.*, Zhao S., Xu Z., Wang G., He J., Cai M., 2012. Abundance and age of viable resting eggs of the calanoid copepod Boeckella poppei Mrázek in sediments: evidence of egg banks in two Antarctic maritime lakes. Polar Biology35: 1525-1531.

31.     Jiang X.*, Lonsdale D.J., Gobler C.J., 2011. Rapid gain and loss of evolutionary resistance to the harmful dinoflagellate Cochlodinium polykrikoides in the copepod Acartia tonsa. Limnology and Oceanography56: 947-954.

32.     Xu Z., Jiang X., Wang G*., He J., Cai M., Wu L., Jiang J., Chen X., 2011. DNA extraction, amplification and analysis of the 28S rRNA portion in sediment-buried copepod DNA in the Great Wall Bay and Xihu Lake, Antarctica. Journal of Plankton Research 33: 917-925.

33.     Jiang X.*, Lonsdale D.J., Gobler C.J., 2010. Grazers and vitamins shape chain formation in a bloom-forming dinoflagellate Cochlodinium polykrikoides. Oecologia 164: 455-464.

34.     Jiang X.*, Lonsdale D.J., Gobler C.J., 2010. Density-dependent nutritional value of the dinoflagellate Cochlodinium polykrikoides to the copepod Acartia tonsa. Limnology and Oceanography55: 1643 – 1652.

35.     Jiang X.*, Tang Y., Lonsdale D.J., Gobler C.J., 2009. Deleterious consequences of a red tide dinoflagellate Cochlodinium polykrikoides Margalef for the calanoid copepod Acartia tonsa Dana. Marine Ecology Progress Series 390: 105 – 116.

36.     Jiang X., Wang G.*, Lin Q., 2008. Reduction of hydrocarbon contamination of viability of Acartia pacifica benthic resting eggs. Chinese Journal of Oceanography and Limnology 26: 91 – 98.

37.     Jiang X.*, Wang G., Li S., He J., 2007. Heavy metal exposure reduces hatching success of Acartia pacifica resting eggs in the sediment.Journal of Environmental Sciences 19: 712 – 716.

38.     Wu L., Wang G.*, Jiang X., Li S., 2007. Seasonal reproductive biology of Centropages tenuiremis (Copepoda) in Xiamen waters, People’s Republic of China. Journal of Plankton Research 29: 437 – 446.

39.     Jiang X.*, Wang G., Li S., 2007. Egg density and sinking rate of a planktonic copepod Calanus sinicus (Copepoda: Calanoida). Acta Ecologica Sinica 27: 1550 – 1557.

40.     Jiang X.*, Wang G., Li S., 2006. Reduction of recruitment of Acartia pacifica nauplii from benthic resting eggs due to organochlorine pesticides. Journal of Environmental Sciences 18: 552 – 556.

41.     Jiang X.*, Wang G., Li S., 2006. Population dynamics of Acartia pacifica (Copepoda: Calanoida): the importance of benthic-pelagic coupling. Acta Oceanologia Sinia 25(6):88 – 98.

42.     Wang G.*, Jiang X., Wu L., Li S., 2005. Differences in density, sinking rate and biochemical composition between subitaneous and diapause egg of Centroapages tenuiremis (Copepoda: Calanoida). Marine Ecology Progress Series 288:165 – 171.

43.     Jiang X., He J.*, Cai M., 2005. Abundance and biomass of heterotrophic microbes in an Arctic fjord (Kongsfjorden, Svalbard). Acta Oceanologia Sinia 24(6):143 – 152.

44.     Wang G.*, Jiang X., Li S., 2005. A potential source of recruitment of Acartia pacifica nauplii: viable benthic resting eggs. Acta Oceanologia Sinia 24(2):151 – 158.

45.     He J.*, Cai M., Jiang X., Chen B., Yu Y., 2005. Characterization of the summer pack ice biotic community of Canada Basin. Acta Oceanologia Sinia 24(6): 80 – 87.

46.     Jiang X.*, Wang G., Li S., 2004. Age, distribution and abundance of viable resting eggs of Acartia pacifica (Copepoda: Calanoida) in Xiamen Bay, China. Journal of Experimental Marine Biology and Ecology 312:89 – 100.