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高光  
副教授

Guang Gao
Associate Professor
Tel: 0592-2187963
Email: guang.gao@xmu.edu.cn
   
 
 
论文著作 Publications

Chen J, Rashid A, Wang S, Liu X, Gao G*. Metabolisms and multiple functions of laminaran in marine algae under global change: A critical review. Carbohydrate Polymers. 2024, 327:121652. https://doi.org/10.1016/j.carbpol.2023.121652
 
Feng Y, Xiong Y, Hall-Spencer, JM, Liu K, Beardall J, Gao K, Ge J, Xu J, Gao G*. Shift in algal blooms from micro- to macroalgae around China with increasing eutrophication and climate change. Global Change Biology, 2024, 30(1): e17018. https://doi.org/10.1111/gcb.17018
 
Jiang M, Hall-Spencer JM, Gao L, Ma Z, Gao G*. Nitrogen availability regulates the effects of a simulated marine heatwave on carbon sequestration and phycosphere bacteria of a marine crop. Limnology and Oceanography, 2024, 69(2), 339-354. https://doi.org/10.1002/lno.12487
 
王为磊, 高光, 戴民汉*. 海洋“造林”的碳汇效率之争. 中国科学通报, 2024, https://doi.org/10.1360/TB-2023-1304.
 
Bermejo R*, Green-Gavrielidis L, Gao G. Macroalgal blooms in a global change context. Frontiers in Marine Science, 2023, 10:1204117. https://doi.org/10.3389/fmars.2023.1204117
 
Ge J, Jin P, Xie S, Beardall J, Feng Y, Guo C, Ma Z, Gao G*. Micro-and nanoplastics interact with conventional pollutants on microalgae: Synthesis through meta-analysis. Environmental Pollution. 2023, 123127. https://doi.org/10.1016/j.envpol.2023.123127
 
Song C, Xiong Y, Jin P, Sun Y, Zhang Q, Ma Z, Gao G*. Mariculture structure adjustment to achieve China's carbon neutrality and mitigate climate change. Science of The Total Environment, 2023, 895:164986. https://doi.org/10.1016/j.scitotenv.2023.164986
 
Wei-Lei Wang*, Mar Fernández-Méndez, Franziska Elmer, Guang Gao, Yangyang Zhao, Yuye Han, Jiandong Li, Fei Chai & Minhan Dai. Ocean afforestation is a potentially effective way to remove carbon dioxide. Nature Communications, 2023, 14: 4339. https://doi.org/10.1038/s41467-023-39926-z
 
高光*,冯媛. 海藻对海洋热浪的生理生态学响应:进展与展望. 厦门大学学报,2023,62(3), 338-355. DOI: 10.6043/j.issn.0438-0479.20221102
 
Azizullah A*, Khan S, Gao G, Gao K*. The interplay between bisphenol A and algae–a review. Journal of King Saud University-Science, 2022,https://doi.org/10.1016/j.jksus.2022.102050
 
Gao G*, Beardall J, Jin P, Gao L, Xie S, Gao K. A review of existing and potential blue carbon contributions to climate change mitigation in the Anthropocene. Journal of Applied Ecology, 2022, 59: 1686–1699,https://doi.org/10.1111/1365-2664.14173
 
Gao G*, Gao L, Fu Q, Li X, Xu J. Coculture of the Pacific white shrimp Litopenaeus vannamei and the macroalga Ulva linza enhances their growth rates and functional properties. Journal of Cleaner Production, 2022, 349:131407, https://doi.org/10.1016/j.jclepro.2022.131407
 
Gao G., Wang T., Sun J., Zhao X., Wang L., Guo X., Gao K*. Contrasting responses of phytoplankton productivity between coastal and offshore surface waters in the Taiwan Strait and the South China Sea to short-term seawater acidification. Biogeosciences, 2022, 19: 2795-2804. https://doi.org/10.5194/bg-19-2795-2022
 
Jiang M, Gao L, Huang R, Lin X, Gao G*. Differential responses of bloom-forming Ulva intestinalis and economically important Gracilariopsis lemaneiformis to marine heatwaves under changing nitrate conditions. Science of the Total Environment, 2022, 840: 156591.
 
Sun J, Wang T, Huang R, Yi X, Zhang D, Beardall J, Hutchins D, Liu X, Wang X, Deng Z, Li G,Gao G, Gao K*. Enhancement of diatom growth and phytoplankton productivity with reduced O2 availability is moderated by rising CO2. Communications Biology, 2022, 5: 54.
 
Xiong Y, Gao L, Qu L, Xu J, Ma Z, Gao G*. The contribution of fish and seaweed mariculture to the coastal fluxes of biogenic elements in two important aquaculture areas, China. Science of The Total Environment. 2022, 856: 159056.
 
Gao G*, Gao L, Jiang M, Jian A, He L. The potential of seaweed cultivation to achieve carbon neutrality and mitigate deoxygenation and eutrophication. Environmental Research Letters, 2021, https://doi.org/10.1088/1748-9326/ac3fd9.
 
Gao G*, Zhao X, Jiang M, Gao L. Impacts of marine heatwaves on algal structure and carbon sequestration in conjunction with ocean warming and acidification. Frontiers in Marine Science, 2021, 8: 758651.
 
Gao G*, Zhao X, Jin P, Gao K, Beardall J. Current understanding and challenges for aquatic primary producers in a world with rising micro-and nano-plastic levels. Journal of Hazardous Materials, 2021. 406:124685, https://doi.org/10.1016/j.jhazmat.2020.124685
 
Gao G, Liu W, Zhao X, & Gao K*. Ultraviolet radiation stimulates activity of CO2 concentrating mechanisms in a bloom-forming diatom under reduced CO2 availability. Frontiers in Microbiology, 2021, 12:651567.
doi: 10.3389/fmicb.2021.651567
 
Huang R, Sun J, Yang Y, Jiang X, Wang Z, Song X, Wang T, Zhang D, Li H, Yi X, Chen S,Bao N, Qu L, Zhang R, Jiao N, Gao Y, Huang B, Lin X, Gao G, Gao K*. Elevated pCO2 Impedes Succession of Phytoplankton Community From Diatoms to Dinoflagellates Along With Increased Abundance of Viruses and Bacteria. Frontiers in Marine Science, 2021, 8:642208, https://doi.org/10.3389/fmars.2021.642208
 
Jin P, Zhang J, Wan J, Overmans S, Gao G, Ye M, Dai X, Zhao J, Xiao M, Xia J*. The combined effects of ocean acidification and heavy metals on marine organisms-A meta-analysis. Frontiers in Marine Science, 2021, 8: 801889.
 
Li X, Sun X, Gao L, Xu J, Gao G*. Effects of periodical dehydration on biomass yield and biochemical composition of the edible red alga Pyropia yezoensis grown at different salinities. Algal Research, 2021,56:102315
 
Wu M, Gao G*, Jian Y, Xu J. High CO2 increases lipid and polyunsaturated fatty acid productivity of the marine diatom Skeletonema costatum in a two-stage model. Journal of Applied Phycology, 2021, https://doi.org/10.1007/s10811-021-02619-5
 
Xie S, Lin F, Zhao X, Gao G*. Enhanced lipid productivity coupled with carbon and nitrogen removal of the diatom Skeletonema costatum cultured in the high CO2 level. Algal Research, 2021, https://doi.org/10.1016/j.algal.2021.102589.
 
Yu J, Tian JY, Gao G, Xu R, Lai JG, Yang GP*. Growth, DMS and DMSP production in Emiliania huxleyi under elevated CO2 and UV radiation. Environmental Pollution, 2021, 294:118643.
 
Gao K*, Gao G, Wang Y. Dupont S. Impacts of ocean acidification under multiple stressors on typical organisms and ecological processes. Marine Life Science Technology, 2020, https://doi.org/10.1007/s42995-020-00048-w
 
Ma J, Xu T, Bao M, Zhou H, Zhang T, Li Z, Gao G, Li X and Xu J*. Response of the red algae Pyropia yezoensis grown at different light intensities to CO2-induced seawater acidification at different life cycle stages.Algal Research, 2020, https://doi.org/10.1016/j.algal.2020.101950
 
Wang Y, Fan X, Gao G, Beardall J, Inaba K, Hall-Spencer JM, Xu D, Zhang X, Han W, McMinn A, and Ye N*. Decreased motility of flagellated microalgae grown in CO2-induced acidified waters for over five years. Nature Climate Change, 2020, 10(6): 561-567, https://doi.org/10.1038/s41558-020-0776-2
 
Zhang X, Xu D, Han W, Wang Y, Fan X, Loladze I, Gao G, Zhang Y, Tong S, Ye N*. Elevated CO2 affects kelp nutrient quality: A case study of Saccharina japonica from CO2 enriched coastal mesocosm systems. Journal of Phycology, 2020, https://doi.org/10.1111/jpy.13097
 
Zheng S, Chen S, Zou S, Yan Y, Gao G, He M, Chen H,Wang Q*. Bioremediation of Pyropia-processing wastewater coupled with lipid production using Chlorella sp. Bioresource Technology, 2020,321:124428.
 
Feng Z*, Wang R, Zhang T, Wang J, Huang W, Li J, Xu J, and Gao G*. Microplastics in specific tissues of wild sea urchins along the coastal areas of northern China, Science of the Total Environment, 2020, https://doi.org/10.1016/j.scitotenv.2020.138660
 
Feng Z*, Zhang T, Shi H, Gao K, Huang W, Xu J, Wang J, Wang R, Li J, and Gao G*. Microplastics in bloom-forming macroalgae: distribution, characteristics and impacts. Journal of Hazardous Materials, 2020, https://doi.org/10.1016/j.jhazmat.2020.122752
 
Feng Z*, Zhang T, Wang J, Huang W, Wang R, Xu J, Fu G, and Gao G*. Spatio-temporal features of microplastics pollution in macroalgae growing in an important mariculture area, China. Science of the Total Environment, 2020, https://doi.org/10.1016/j.scitotenv.2020.137490.
 
Gao G*,Burgess G, Wu M, Wang S, and Gao K*. Using macroalgae as biofuel: current opportunities and challenges. Botanica Marina, 2020, 63(4): 355-370, https://doi.org/10.1515/bot-2019-0065.
 
Ma J, Wang W, Liu X, Wang Z, Gao G, Wu H, Li X, Xu J*. Zinc toxicity alters the photosynthetic response of red alga Pyropia yezoensis to ocean acidification. Environmental Science and Pollution Research, 2020, doi:10.1007/s11356-019-06872-7.
 
Feng Z, Zhang T, Li Y, He X, Wang R, Xu J, Gao G*. The accumulation of microplastics in fish from an important fish farm and mariculture area, Haizhou Bay, China. Science of The Total Environment, 2019, https://doi.org/10.1016/j.scitotenv.2019.133948.
 
Gao G, Fu Q, Beardall J, Wu M, Xu J*. Combination of ocean acidification and warming enhances the competitive advantage of Skeletonema costatum over a green tide alga, Ulva linza. Harmful Algae, 2019, https://doi.org/10.1016/j.hal.2019.101698
 
Gao G, Wu M, Fu Q, Li X, Xu J. A two-stage model with nitrogen and silicon limitation enhances lipid productivity and biodiesel features of the marine bloom-forming diatom Skeletonema costatum. Bioresource Technology, 2019, 289:121717.
 
Gao G, Gao Q, Bao M, Xu J, Li X. Nitrogen availability modulates the effects of ocean acidification on biomass yield and food quality of a marine crop Pyropia yezoensis. Food Chemistry, 2019, 271: 623-629.
 
Gao G, Qu L, Xu T, Li X, Xu J. Future CO2-induced ocean acidification enhances resilience of a green tide alga to low-salinity stress. ICES Journal of Marine Science, 2019, fsz135
 
Xu Z, Gao G, Tu B, Qiao H, Ge H, Wu H. Physiological response of the toxic and non-toxic strains of a bloom-forming cyanobacterium Microcystis aeruginosa to changing ultraviolet radiation regimes. Hydrobiologia, 2019, 8331(1):143–156
 
Yue F, Gao G, Ma J, Wu H, Xu J. Future CO2-induced seawater acidification mediates the physiological performance of a green alga Ulva linza in different photoperiods. Peer J, 2019, 7: e7048.
 
Ma J, Qu L, Wang W, Liu X, Qiao S, Wu H, Gao G, Xu J. Differential photosynthetic response of a green tide alga Ulva linza to ultraviolet radiation, under short and long-term ocean acidification regimes. Photochemistry and Photobiology, 2019, 95(4): 990-998.
 
Bao M, Hu L, Fu Q, Gao G, Li X, Xu J. Different photosynthetic responses of Pyropia yezoensis to ultraviolet radiation under changing temperature and photosynthetic active radiation regimes. Photochemistry and Photobiology. 2019, DOI: doi.org/10.1111/php.13108.
 
Gao G, Clare AS, Rose C, Caldwell GS. 2018. Ulva rigida in the future ocean: potential for carbon capture, bioremediation, and biomethane production. Global Change Biology Bioenergy, 2018, 10: 39-51.
 
Gao G, Shi Q, Xu Z, Campbell D A, Wu H. Global warming interacts with ocean acidification to alter PSII function and protection in the diatom Thalassiosira weissflogii. Environmental and Experimental Botany, 2018, 147: 95-103.
 
Gao G, Xu Z, Shi Q, Wu H. Increased CO2 exacerbates the stress of ultraviolet radiation on photosystem II function in the diatom Thalassiosira weissflogii. Environmental and Experimental Botany, 2018, 156: 96-105.
 
Gao G, Xia J, Yu J, Fan J, Zeng X. Regulation of inorganic carbon acquisition in a red tide alga (Skeletonema costatum): the importance of phosphorus availability. Biogeosciences, 2018, 15(16): 4871-4882.
 
Gao G, Clare A S, Chatzidimitriou E, Rose C, Caldwell GS. Effects of ocean warming and acidification, combined with nutrient enrichment, on chemical composition and functional properties of Ulva rigida. Food Chemistry, 2018, 258: 71-78.
 
Gao G, Xia J, Yu J, Zeng X. Physiological response of a red tide alga (Skeletonema costatum) to nitrate enrichment, with special reference to inorganic carbon acquisition. Marine Environmental Research, 2018, 133: 15-23.
 
Gao G, Beardall J, Bao M, Wang C, Ren W, Xu J. Ocean acidification and nutrient limitation synergistically reduce growth and photosynthetic performances of a green tide alga Ulva linza. Biogeosciences, 2018, 15: 3409-3420.
 
Yuan W§, Gao G§, Shi Q, Xu Z, Wu H. Combined effects of ocean acidification and warming on physiological response of the diatom Thalassiosira pseudonana to light challenges. Marine Environmental Research, 2018, 135: 63-69. §joint first author
 
Wu H, Gao G, Zhong Z, Li X, Xu J. Physiological acclimation of the green tidal alga Ulva prolifera to a fast-changing environment. Marine Environmental Research, 2018, 137: 1-7.
 
Xu J, Zhang X, Fu Q, Gao G, Gao K. Water depth-dependant photosynthetic and growth rates of Gracilaria lemaneiformis, with special reference to effects of solar UV radiation. Aquaculture, 2018, 484: 28-31.
 
Gao G, Clare AS, Rose C, Caldwell GS. Reproductive sterility increases the capacity to exploit the green seaweed Ulva rigida for commercial applications. Algal Research-Biomass, Biofuels and Bioproducts, 2017, 24: 64-71.
 
Gao G, Clare A S, Rose C, Caldwell GS. Intrinsic and extrinsic control of reproduction in the green tide-forming alga, Ulva rigida. Environmental and Experimental Botany, 2017, 139: 14-22.
 
Gao G, Jin P, Liu N, Li F, Tong S, Hutchins DA, Gao K. The acclimation process of phytoplankton biomass, carbon fixation and respiration to the combined effects of elevated temperature and pCO2 in the northern South China Sea. Marine Pollution Bulletin, 2017, 118: 213-220.
 
Gao G, Liu Y, Li X, Feng Z, Wu H, Xu J. Expected CO2-induced ocean acidification modulates copper toxicity in the green tide alga Ulva prolifera. Environmental and Experimental Botany, 2017, 135:63-72.
 
Gao G, Clare AS, Rose C, Caldwell GS. Non-cryogenic preservation of thalli, germlings, and gametes of the green seaweed Ulva rigida. Aquaculture, 2017, 473: 246-250.
 
Xu Z, Gao G*, Xu J, Wu H. Physiological response of a golden tide alga (Sargassum muticum) to the interaction of ocean acidification and phosphorus enrichment. Biogeosciences, 2017, 14: 671-681.
 
Gao G, Clare AS, Rose C, Caldwell GS. Eutrophication and warming-driven green tides (Ulva rigida) are predicted to increase under future climate change scenarios. Marine Pollution Bulletin, 2017, 114: 439-447.
 
Gao G, Liu Y, Li X, Feng Z, Xu J. An ocean acidification acclimatized green tide alga is robust to changes of seawater carbon chemistry but vulnerable to light stress. PLoS ONE, 2016, 11(12): e0169040.
 
Gao G, Zhong Z, Zhou X, Xu J. Changes in morphological plasticity of Ulva prolifera under different environmental conditions: a laboratory experiment. Harmful Algae, 2016, 59: 51-58.
 
Jin P§, Gao G§, Liu X, Li FT, Tong SY, Ding JC, Zhong ZH, Liu NN, Gao KS. Contrasting photophysiological characteristics of phytoplankton assemblages in the northern South China Sea. PLoS ONE, 2016, 11(5): e0153555.
 
Jiang XM, Han QX, Gao XZ, and Gao G*. Conditions optimising on yield of biomass, total lipid, and valuable fatty acids in two strains of Skeletonema menzelii. Food Chemistry, 2016,194: 723-732.
 
Gao KS§, Xu JT§, Gao G§, Li Y, Hutchins D, Huang BQ, Jin P, Cai XN, Häder DP, Li W, Xu K, Liu N, and Riebesell U. Rising CO2 and increased light exposure synergistically reduce marine primary productivity. Nature Climate Change, 2012, 2: 519-523. § Joint first author.
 
Wu XJ§, Gao G§, Giordano M, and Gao KS. Growth and photosynthesis of a diatom grown under elevated CO2 in the presence of solar UV radiation. Fundamental and Applied Limnology, 2012, 180(4): 279-290. § Joint first author.
 
Li G, Gao K, Gao G. Differential impacts of solar UV radiation on photosynthetic carbon fixation from the coastal to offshore surface waters in the South China Sea. Photochemistry and Photobiology, 2011, 87(2): 329-334.
 
Gao G, Gao KS, and Giordano M. Responses to solar UV radiation of the diatom Skeletonema costatum (Bacillariophyceae) grown at different Zn2+ concentrations. Journal of Phycology, 2009, 45(1): 119-129.
 
高光, 吴红艳, 高坤山. 阳光紫外辐射对褐藻羊栖菜生长和光合作用的影响. 水生生物学报. 2009, 33(2): 284-288.
 
邹玉霞, 莫照兰, 高光, 刘婷, 张培军. 间接 ELISA 技术在病原性鳗弧菌 SMP1 快速检测中的应用. 海洋科学. 2007;31(6):75-78.