HAO Guangyou, Male, born in December 1980, native of Liaocheng, Shandong Province. Professor, Doctoral Supervisor, Director of the Research Center for Forest Ecology and Forestry Eco-engineering; Director of the Daqinggou Sandy Land Ecological Experiment Station; Principal Investigator of the Plant Physiological Ecology Group; Overseas Talent Introduced by the Chinese Academy of Sciences; recipient of the "Excellent Young Scientists Fund" from the National Natural Science Foundation of China.

Primarily engaged in research on stress physiology and physiological ecology of trees, with a focus on the physiological mechanisms underlying tree productivity, drought and cold resistance, and responses to global change from the perspective of xylem hydraulic architecture.

He has published over 100 papers in academic journals such as Ecology, New Phytologist, and Plant Physiology.

He has received honors including"Leading Talent in Forestry and Grassland Science and Technology Innovation" from the National Forestry and Grassland Administration, "Youth Science and Technology Award in Forestry", "National Outstanding Young Professional in Ecological and Environmental Protection Technology" from the Ministry of Ecology and Environment, and "Academic Leader" award from Liaoning Province.

2005.09-2010.05 Ph.D. degree in Biology from the University of Miami,Coral Gables, Florida, USA.

2003.09-2009.12 Ph.D. degree in Ecology from the Graduate University of Chinese Academy of Sciences (GUCAS), Beijing, China.

Note: obtained double Ph.D degrees from UM and GUCAS

1999.09-2003.07 Bachelor's degree in Biology from the Southwest China Normal University.

2014.06–present Institute of Applied Ecology Chinese Academy of Sciences & University of the Chinese Academy of Sciences

2012.06-2014.05 Harvard University, Arnold Arboretum

2010.06-2012.05 Harvard University, Department of Organismic and Evolutionary Biology

Plant Physiological Ecology;Tree Physiology;Plant-Water Relations

1.2024 National Leading Talent in Forestry and Grassland Science and Technology Innovation, National Forestry and Grassland Administration;

2.2022 Outstanding Workers in Science and Technology in Liaoning Province;

3.2021 National Ecological and Environmental Protection Professionals: “Top Young Talents” (Ecological Protection and Restoration Direction);

4.2021 Outstanding young editorial board member of Journal of Nanjing Forestry University (Natural Science Edition);

5.2020 “Academic Lead Goose” in Liaoning Province;

6.2020 Young and Middle-aged Scientific and Technological Innovation Talents Support Program in Shenyang;

7.2019 Award of Distinguished Young Scholars in Forest Science and Technology, State Forestry and grassland administration & Chinese Society of Forestry;

8.2018 Top Talents Program of Shenyang City;

9.2018 Liaoning Revitalization Talent Program by Government of Liaoning Province;

10.2018 Award of Young and Middle-aged Talents in Science and Technology by Government of Liaoning Province;

11.2017 Research Grants to Distinguished Young Scientists by National Science Foundation of China;

12.2017 Honor of Leading Talents in Science and Technology by Government of Shenyang;

13.2016 Top Hundred Talents Program by the government of Liaoning Province;

14.2015 Reward for Advances in Since and Technology by the government of Yunnan Province.

1.2026–2030: Project Leader, Mechanisms of Hydraulic Obstacle-Mediated Shelterbelt Decline and Near-Natural Restoration, Strategic Priority Research Program of the Chinese Academy of Sciences;

2.2023–2027: Principal Investigator, Response Patterns of Forest Ecosystems to Climate Change in Northeast China and Underlying Tree Physiological Mechanisms, International (Regional) Cooperation and Exchange Program of the National Natural Science Foundation of China;

3.2018–2020: Principal Investigator, Tree Hydraulic Architecture, Excellent Young Scientists Fund of the National Natural Science Foundation of China;

4.2015–2018: Principal Investigator, Hydraulic Architecture of Major Tree Species in Northeast China, CAS Overseas Talent Program (Category A);

5.2022: Principal Investigator, Monitoring and Research Platform for Key Ecological Processes of Sand-Fixing Shelterbelts in Typical Ecologically Fragile Areas, CAS Special Fund for Improving Research Conditions in Central-Level Scientific Research Institutions; 2022–2026: Sub-Project Leader, Mechanisms for Productivity Enhancement and Carbon Sink Maintenance in Plantation Forest Ecosystems, Major Program of the National Natural Science Foundation of China;

6.2024–2025: Principal Investigator, Theories and Technologies for Enhancing Forest Quality and Ecosystem Services in Northeast China, Annual Project of the CAS Key Laboratory of Forest Ecology and Conservation;

7.2019–2022: Principal Investigator, Effects of Winter Embolism Resistance and Repair on Productivity and Stress Tolerance of Common Tree Species in the Changbai Mountain Forest Region, General Program of the National Natural Science Foundation of China; 2019–2021: Principal Investigator, Mechanisms of Tree Physiological Ecology for Maintaining Forest Ecosystem Function Stability in Northeast China, Liaoning Province "Xingliao Talent Program" Project;

8.2019–2021: Principal Investigator, Stress Physiology and Environmental Adaptability of Major Urban Greening Tree Species in Shenyang Under the Context of Frequent Extreme Weather Events, Shenyang Young and Middle-Aged Scientific and Technological Innovation Talent Support Program;

9.2018–2020: Principal Investigator, Hydraulic Architecture of Birch Species with Different Ploidy Levels, Young Scientists Fund of the National Natural Science Foundation of China; 2017–2019: Principal Investigator, Water Physiological and Ecological Mechanisms of Declining Pinus sylvestris var. mongolica Plantations in Sandy Lands, General Program of the Liaoning Provincial Natural Science Foundation;

10.2023–2027: Project Leader, Mechanisms of Degradation and Restoration of Desert-Oasis Ecosystems Under Water Resource Constraints, National Key Research and Development Program of the Ministry of Science and Technology of the People's Republic of China ;

11.2024–2029: Project Leader, Biogeographic Mechanisms and Key Technologies for Vegetation Establishment in Harsh Sites, CAS Stable Support Program for Basic Research in Young Teams;

12.2022–2024: Project Leader, Physiological and Ecological Mechanisms Underlying the Functioning of Typical Forest Ecosystems in the Northern Ecological Barrier Zone, CAS Institute of Applied Ecology "14th Five-Year Plan" Program;

13.2022–2024: Project Leader, Mechanisms of Carbon Sink Formation and Maintenance in Northeast China Forest Ecosystems, CAS Institute of Applied Ecology Independent Deployment Major Project;

14.2019–2022: Project Leader, Foundations of Restoration Ecology for Northeast China Forest Ecosystems—Biodiversity, Stand Structure, and Nitrogen Cycling Patterns, CAS Wang Kuancheng Pioneering Talent Program "Lu Jiaxi International Team";

15.2019–2022: Project Leader, Fundamental Studies on Tree Physiology for Forest Quality Enhancement Under Global Change, CAS Institute of Applied Ecology "Large Team" Project;

16.2019–2023: Project Leader, Effects of Aboveground and Belowground Functional Traits on Productivity and Stress Tolerance of Major Tree Species in Northeast China, CAS Basic Frontier Scientific Research Program "From 0 to 1" Original Innovation Project;

17.2016–2020: Project Leader, Water Transport Mechanisms at Individual and Stand Scales in Windbreak and Sand-Fixation Forests, CAS Key Frontier Science Research Program; 2023–2026: Sub-Project Leader, Development and Demonstration of Key Technologies for Collaborative Desertification Control in the Southern Margin of the Horqin Sandy Land, Liaoning Province "Open Competition to Select the Best Candidates" Science and Technology Program;

18.2023–2025: Sub-Project Leader, Response and Adaptation of Typical Forest Ecosystems in Southwest China to Extreme Drought, CAS "West Light" Cross-Team Program – Key Laboratory Cooperation Research Special Project;

19.2020–2024: Sub-Project Leader, Tree Physiological Mechanisms of Carbon Sources and Sinks in Terrestrial Forest Ecosystems, National Key Research and Development Program of the Ministry of Science and Technology of the People's Republic of China;

20.2016–2021: Sub-Project Leader, Tree Physiological Mechanisms of Carbon Sources and Sinks in Terrestrial Forest Ecosystems, National Key Research and Development Program of the Ministry of Science and Technology of the People's Republic of China;

21.2015–2018: Sub-Project Leader, Theories and Technologies for Multi-Objective Management of Plantation Forests, CAS Featured Institute Discipline Construction Project; 2015–2018: Sub-Project Leader, Ecophysiological Response Mechanisms of Temperate Forest Tree Species to Key Global Change Factors, Open Fund of State Key Laboratory; 2020–2022: Sub-Project Leader, Regulation of Multi-Trophic Interactions and Mechanisms of Tree Population Decline and Mortality in Wild Fruit Forests on the Northern Slope of the Tianshan Mountains, CAS "West Light" Cross-Team Program – Key Laboratory Cooperation Research Special Project.

1.Zhang Chi, Hao Guang-You(*), Duan Chun-Yang,Zhang Jing, Yin Ben-Feng, Zhang Yuan-Ming(*).2026. Divergence in plant water relations mediates the clear niche differentiation of two congeneric desert shrub species. Plant Diversity. (Accepted)

2.Gong Xue-Wei, Yu Qing-Song, Li Hong-Li, Fang Zhuo-Qun, Guo Jia-Xu, Li Zhao-Kui(*), Wang Heng-Fang, Pang Zhong-Yi, Peng Yan-Hui, Sun Xue-Kai, Hao Guang-You(*). 2025. A Leaf Water Potential Prediction Model Based on Conditional Generative Adversarial Network and Distribution-Aware Regression Network. Frontiers in Plant Science. (Accepted)

3.Shi Han(#), Peng Xi(#), Guo Jing-Jing, Zhao Ru-Xia, Hao Guang-You(*). 2025. EMaxEnt modeling provides insights into climatic adaptability of Acer truncatum and Quercus mongolica in the typical sandy lands in China. Regional Sustainability. (Accepted)

4.Fang Li-Dong, Gong Xue-Wei, Jin Ying, Li Ming-Yong, Ning Qiu-Rui, Hao Guang-You(*). 2026. Poplar species with tall columnar crowns are more prone to hydraulic limitation than congener with short oval crowns in water-limited areas. Tree Physiology. 46 (1):tpaf149.

5.Gong Xue-Wei, Ouyang Yi-Lei, Liu Yan-Yan, Zhang Jin-En, Li Zhao-Kui, Li Hong-Li, Fang Zhuo-Qun, Cao Yu, Wu De-Dong, Ning Qiu-Rui, Hao Guang-You(*). 2025. Xylem hydraulic impairment due to stronger drought stress accounts for the reduced crown vitality and growth performance of Mongolian pine trees in higher-density plantations. Agricultural and Forest Meteorology 372: 110722.

6.Leng Qian-Nan, Sterck Frank, Zuidema Pieter A., Decuyper Mathieu, Gong Xue-Wei, Hao Guang-You(*). 2026. Temporal decoupling of carbon source and sink processes in temperate trees: insights from combined measurements of remote sensing and xylogenesis. New Phytologist 249(5): 2326-2337.

7.Leng Qian-Nan, Gong Xue-Wei, Li Ming-Yong, Shi Han, Li Zhao-Kui, Hao Guang-You(*). 2025. Scale- and age-dependent climate response patterns revealed in Pinus sylvestris var. mongolica and Larix principis-rupprechtii plantations in northern China. Forest Ecology and Management 595: 122973.

8.Liu Shen-Si, Zhou Yong-Jiao, Guo Ke-Xin, Song Shen-Hao, Zhao Dafubaiyila, Ding Wen-Ming, Xiu Fang, Hao Guang-You(*). 2025. Coordination of economics and hydraulic traits shapes the adaptive strategies of tree species in two forest communities with distinct water regimes. Tree Physiology 45(6): tpaf056.

9.Wang Ai-Ying(#), Li Si-Qi(#), Cui Han-Xiao, Liu Ya-Nan, Lu Yi-Jun, Hao Guang-You(*). 2025. Divergence in leaf and cambium phenologies among three temperate tree species of different wood types with special reference to xylem hydraulics. Frontiers in Plant Science 16: 1562873.

10.Khan Aattaullah, Gong Xue-Wei, Liu Shen-Si, Zhang Chi, Hao Guang-You(*). 2025. Contrasts in hydraulics underlie the divergent performances of Populus and native tree species in water limited sandy land environments. Physiologia Plantarum 177(1): e70075.

11.Zhou Yong-Jiao, Ning Qiu-Rui, Cui Han-Xiao, Hao Guang-You(*). 2025. Corner's rules and their linkages with twig functions and tree productivity in simple- and compound-leaved tree species. Plant, Cell and Environment 48(5): 3314-3325.

12.Guo Jing-Jing, Gong Xue-Wei, Hao Guang-You(*). 2025. Leaf transpirational cooling and thermal tolerance vary along the spectrum of iso-anisohydric stomatal regulation in sand-fixing shrubs. Plant, Cell and Environment 48(3): 2053-2066.

13.Li Ming-Yong, Wang Miao, Li Na, Ge Jin-Nan, Hao Guang-You(*). 2025. Variability increased underneath growth enhancement of Mongolian pine natural forests in northeastern China in response to climate change. Forest Ecology and Management 578: 122414.

14.Wang Ai-Ying(#), Lu Yi-Jun(#), Cui Han-Xiao, Liu Shen-Si, Li Si-Qi, Hao Guang-You(*). 2024. Xylem hydraulics of two temperate tree species with contrasting growth rates. Plants-Basel 13(24): 3575

15.Li Zhao-Kui, Li Hong-Li, Gong Xue-Wei(*), Wang Heng-Fang, Hao Guang-You(*). 2024. Prediction and mapping of leaf water content in Populus alba var. pyramidalis using hyperspectral imagery. Plant Methods 20(1): 184.

16.Yin Xiao-Han, Sass-Klaassen Ute, Hao Guang-You(*), Sterck Frank. 2024. Ring- and diffuse-porous tree species coexisting in cold and humid temperate forest diverge in stem and leaf phenology. Dendrochronologia 86: 126220.

17.Lu Long-Long, Liu Hao, Wang Jing, Zhao Kun-Peng, Miao Yuan, Li Hai-Chang, Hao Guang-You(*), Han Shi-Jie(*). 2024. Seasonal patterns of nonstructural carbohydrate storage and mobilization in two tree species with distinct life-history traits. Tree Physiology 44(7): tpae042.

18.Liu Hong-Xing(#), Li Ming-Yong(#), Han Rui-Yun, Zhang Xiao-Lin, Ge Jin-Nan, Hao Guang-You(*). 2024. Increased temperatures contribute to early aging of plantation-grown Mongolian pine in introduced areas at lower latitudes. Journal of Forestry Research 35(1): 122.

19.Shi Han, Peng Xi, Zhou Yong-Jiao, Wang Ai-Ying, Sun Xue-Kai, Li Na, Bao Quan-Sheng, Buric Gude, Hao Guang-You(*). 2024. Resilience and response: Unveiling the impacts of extreme droughts on forests through integrated dendrochronological and remote sensing analyses. Forest Ecosystems 11: 100209.

20.Guo Ke-Xin(#), Guo Jing-Jing(#), Gong Xue-Wei, Shi Han, Zhou Yong-Jiao, Leng Qian-Nan, Hao Guang-You(*). 2024. Coordinated responses of Hemiptelea davidii at the individual tree and stand levels to interannual climatic variation in a water-limited area. Forest Ecology and Management 561: 121900.

21.Guo Jing-Jing, Gong Xue-Wei, Li Xue-Hua, Zhang Chi, Duan Chun-Yang, Lohbeck Madelon, Sterck Frank, Hao Guang-You(*). 2024. Coupled hydraulics and carbon economy underlie age-related growth decline and revitalisation of sand-fixing shrubs after crown removal. Plant, Cell and Environment 47(8): 2999-3014.

22.Li Ming-Yong, Yang Lei-Lei, Cao Yu, Wu De-Dong, Hao Guang-You(*). 2024. Aging Mongolian pine plantations face high risks of drought-induced growth decline: evidence from both individual tree and forest stand measurements. Journal of Forestry Research 35(2): 38.

23.Duan Chun-Yang, Li Ming-Yong, Zhang Chi, Gong Xue-Wei, Zhu Jiao-Jun, Cao Yu, Wu De-Dong, Hao Guang-You(*). 2023. Thinning effectively mitigates the decline of aging Mongolian pine plantations by alleviating drought stress and enhancing plant carbon balance. Environmental and Experimental Botany 213: 105434.

24.Gong Xue-Wei, Leigh Andrea, Guo Jing-Jing, Fang Li-Dong, Hao Guang-You(*). 2023. Sand dune shrub species prioritize hydraulic integrity over transpirational cooling during an experimental heatwave. Agricultural and Forest Meteorology 336(1): 109483.

25.Leng Qian-Nan, Gong Xue-Wei, Li Ming-Yong, Hao Guang-You(*). 2023. Tree density reduction mitigates the decline of Larix principis-rupprechtii plantations: Evidence from a combination of dendroclimatic and physiological measurements. Agricultural and Forest Meteorology 333: 109390.

26.Han Rui-Yun(#), Gong Xue-Wei(#), Li Ming-Yong, Leng Qian-Nan, Zhou Yong-Jiao, Ning Qiu-Rui, Hao Guang-You(*). 2023. Combined tree-ring width and wood anatomy chronologies provide insights into the radial growth and hydraulic strategies in response to an extreme drought in plantation-grown Mongolian pine trees. Environmental and Experimental Botany 208: 105259.

27.Gong Xue-Wei, Hao Guang-You(*). 2023. The synergistic effect of hydraulic and thermal impairments accounts for the severe crown damage in Fraxinus mandshurica seedlings following the combined drought-heatwave stress. Science of The Total Environment 856(1): 159017.

28.Yin Xiao-Han, Hao Guang-You(*), Sterck Frank. 2023. Ring- and diffuse-porous tree species from a cold temperate forest diverge in stem hydraulic traits, leaf photosynthetic traits, growth rate and altitudinal distribution. Tree Physiology 43(5): 722-736.

29.Zhang Chi, Khan Attaullah, Duan Chun-Yang, Cao Yu, Wu De-Dong, Hao Guang-You(*). 2023. Xylem hydraulics strongly influence the niche differentiation of tree species along the slope of a river valley in a water-limited area. Plant, Cell and Environment 46(1): 106-118.

30.Wang Ai-Ying(#), Cui Han-Xiao(#), Gong Xue-Wei, Guo Jing-Jing, Wu Nan, Hao Guang-You(*). 2022. Contrast in vulnerability to freezing-induced xylem embolism contributes to divergence in spring phenology between diffuse- and ring-porous temperate trees. Forest Ecosystems 9: 100070.

31.Song Jia, Trueba Santiago, Yin Xiao-Han, Cao Kun-Fang, Brodribb Timothy J., Hao Guang-You(*). 2022. Hydraulic vulnerability segmentation in compound-leaved trees: Evidence from an embolism visualization technique. Plant Physiology 189(1): 204-214.

32.Ning Qiu-Rui, Gong Xue-Wei, Li Ming-Yong, Hao Guang-You(*). 2022. Differences in growth pattern and response to climate warming between Larix olgensis and Pinus koraiensis in Northeast China are related to their distinctions in xylem hydraulics. Agricultural and Forest Meteorology 312: 108724.

33.Yin Xiao-Han, Hao Guang-You(*), Sterck Frank. 2022. A trade-off between growth and hydraulic resilience against freezing leads to divergent adaptations among temperate tree species. Functional Ecology 36(3): 739-750.

34.Duan Chun-Yang, Li Ming-Yong, Fang Li-Dong, Cao Yu, Wu De-Dong, Liu Hui, Ye Qing, Hao Guang-You(*). 2022. Greater hydraulic safety contributes to higher growth resilience to drought across seven pine species in a semi-arid environment. Tree Physiology 42(4): 727-739.

35.Li Ming-Yong, Leng Qian-Nan, Hao Guang-You(*). 2021. Contrasting patterns of radial growth rate between Larix principis-rupprechtii and Pinus sylvestris var. mongolica along an elevational gradient are mediated by differences in xylem hydraulics. Forest Ecology and Management 497: 119524.

36.Gong Xue-Wei, Guo Jing-Jing, Fang Li-Dong, Bucci Sandra J., Goldstein Guillermo, Hao Guang-You(*). 2021. Hydraulic dysfunction due to root-exposure-initiated water stress is responsible for the mortality of Salix gordejevii shrubs on the windward slopes of active sand dunes. Plant and Soil 459(1-2): 185-201. (封面文章)

37.Fang Li-Dong, Ning Qiu-Rui, Guo Jing-Jing, Gong Xue-Wei, Zhu Jiao-Jun, Hao Guang-You(*). 2021. Hydraulic limitation underlies the dieback of Populus pseudo-simonii trees in water-limited areas of northern China. Forest Ecology and Management 483: 118764.

38.Li Mingyong(#), Fang Lidong(#), Duan Chunyang, Cao Yu, Yin Hong, Ning Qiu-Rui, Hao Guang-You(*). 2020. Greater risk of hydraulic failure due to increased drought threatens pine plantations in Horqin Sandy Land of northern China. Forest Ecology and Management 461: 117980.

39.Gong Xue-Wei, Guo Jing-Jing, Jiang De-Ming, Li Xue-Hua, Scholz Fabian G., Bucci Sandra J., Goldstein Gullermo, Hao Guang-You(*). 2020. Contrasts in xylem hydraulics and water use underlie the sorting of different sand-fixing shrub species to early and late stages of dune stabilization. Forest Ecology and Management 457: 117705.

40.Guo Jing-Jing, Gong Xue-Wei, Fang Li-Dong, Jiang De-Ming, Ala Musa, Bucci Sandra J., Scholz Fabian G., Goldstein Guillermo, Hao Guang-You(*). 2020. Switching of dominant positions between two sand-fixing shrub species during the dune revegetation process is underlain by their contrasting xylem hydraulics and water-use strategies. Land Degradation and Development 31(10): 1195-1205.

41.Yang Da, Zhang Yong-Jiang, Song Jia, Niu Cun-Yang, Hao Guang-You(*). 2019. Compound leaves are associated with high hydraulic conductance and photosynthetic capacity: evidence from trees in Northeast China. Tree Physiology 39(5): 729-739.

42.Yin Xiao-Han, Sterck Frank, Hao Guang-You(*). 2018. Divergent hydraulic strategies to cope with freezing in co-occurring temperate tree species with special reference to root and stem pressure generation. New Phytologist 219(2): 530-541.

43.Liu Yan-Yan, Wang Ai-Ying, An Yu-Ning, Lian Pei-Yong, Wu De-Dong, Zhu Jiao-Jun, Meinzer Frederick C., Hao Guang-You(*). 2018. Hydraulics play an important role in causing low growth rate and dieback of aging Pinus sylvestris var. mongolica trees in plantations of Northeast China. Plant, Cell and Environment 41(7): 1500-1511.

44.Hao Guang-You, Holbrook N. Michele, Zwieniecki Maciej A., Gutschick Vincent P., BassiriRad Hormoz(*). 2018. Coordinated responses of plant hydraulic architecture with the reduction of stomatal conductance under elevated CO2 concentration. Tree Physiology 38(7): 1041-1052.

45.Wang Ai-Ying, Han Shi-Jie(*), Zhang Jun-Hui, Wang Miao, Yin Xiao-Han, Fang Li-Dong, Yang Da, Hao Guang-You(*). 2018. The interaction between nonstructural carbohydrate reserves and xylem hydraulics in Korean pine trees across an altitudinal gradient. Tree Physiology 38(12): 1792-1804.

46.Song Jia, Yang Da, Niu Cun-Yang, Zhang Wei-Wei, Wang Miao, Hao Guang-You. 2018. Correlation between leaf size and hydraulic architecture in five compound-leaved tree species of a temperate forest in NE China. Forest Ecology and Management 418(SI): 63-72.

47.Fang Li-Dong, Zhao Qiong, Liu Yan-Yan, Hao Guang-You. 2018. The influence of a five-year nitrogen fertilization treatment on hydraulic architecture of Pinus sylvestris var. mongolica in a water-limited plantation of NE China. Forest Ecology and Management 418(SI): 15-22.

48.Wang Miao(*), Zhang Wei-Wei, Li Na, Liu Yan-Yan, Zheng Xing-Bo, Hao Guang-You(*). 2018. Photosynthesis and growth responses of Fraxinus mandshurica Rupr. seedlings to a gradient of simulated nitrogen deposition. Annals of Forest Science 75(1): 1.

49.Zhang Wei-Wei, Wang Miao, Wang Ai-Ying, Yin Xiao-Han, Feng Zhao-Zhong, Hao Guang-You(*). 2018. Elevated ozone concentration decreases whole-plant hydraulic conductance and disturbs water use regulation in soybean plants. Physiologia Plantarum 163(2): 183-195.

50.Yang Da, Goldstein Guillermo, Wang Miao, Zhang Wei-Wei, Wang Ai-Ying, Liu Yan-Yan, Hao Guang-You(*). 2017. Microenvironment in the canopy rivals the host tree water status in controlling sap flow of a mistletoe species. Tree Physiology 37(4): 501-510.

51.Zhang Wei-Wei(#), Song Jia(#), Wang Miao, Liu Yan-Yan, Li Na, Zhang Yong-Jiang, Holbrook N. Michele, Hao Guang-You(*). 2017. Divergences in hydraulic architecture form an important basis for niche differentiation between diploid and polyploid Betula species in NE China. Tree Physiology 37(5): 604-616.

52.Niu Cun-Yang, Meinzer Frederick C., Hao Guang-You(*). 2017. Divergence in strategies for coping with winter embolism among co-occurring temperate tree species: the role of positive xylem pressure, wood type and tree stature. Functional Ecology 31(8): 1550-1560.

53.Wang Ai-Ying, Wang Miao, Yang Da, Song Jia, Zhang Wei-Wei, Han Shi-Jie, Hao Guang-You(*). 2016. Responses of hydraulics at the whole-plant level to simulated nitrogen deposition of different levels in Fraxinus mandshurica. Tree Physiology 36(8): 1045-1055.

54.Liu Yan-Yan, Song Jia, Wang Miao, Li Na, Niu Cun-Yang, Hao Guang-You(*). 2015. Coordination of xylem hydraulics and stomatal regulation in keeping the integrity of xylem water transport in shoots of two compound-leaved tree species. Tree Physiology 35(12): 1333-1342.

55.Hao Guang-You(*), Cao Kun-Fang, Goldstein Guillermo. 2016. Hemiepiphytic trees: Ficus as a model system for understanding hemiepiphytism. In: Goldstein G, Santiago LS, eds. Tropical Tree Physiology: adaptations and responses in a changing environment. 3-24. (书籍章节)

56.Hao Guang-You, Wang Ai-Ying, Sack Lawren, Goldstein Guillermo, Cao Kun-Fang(*). 2013. Is hemiepiphytism an adaptation to high irradiance? Testing seedling responses to light levels and drought in hemiepiphytic and non-hemiepiphytic Ficus. Physiologia Plantarum 148(1): 74-86.

57.Hao Guang-You(*), Lucero Mary E., Sanderson Stewart C., Zacharias Elizabeth H., Holbrook N. Michele. 2013. Polyploidy enhances the occupation of heterogeneous environments through hydraulic related trade-offs in Atriplex canescens (Chenopodiaceae). New Phytologist 197(3): 970-978.

58.Hao Guang-You(#)(*), Wheeler James K.(#), Holbrook N. Michele, Goldstein Guillermo. 2013. Investigating xylem embolism formation, refilling and water storage in tree trunks using frequency domain reflectometry. Journal of Experimental Botany 64(8): 2321-2332.

59.Hao Guang-You, Wang Ai-Ying, Liu Zhi-Hui, Franco Augusto C., Goldstein Guillermo, Cao Kun-Fang(*). 2011. Differentiation in light energy dissipation between hemiepiphytic and non-hemiepiphytic Ficus species with contrasting xylem hydraulic conductivity. Tree Physiology 31(6): 626-636.

60.Hao Guang-You(*), Goldstein Guillermo, Sack Lawren, Holbrook N. Michele, Liu Zhi-Hui, Wang Ai-Ying, Harrison Rhett D., Su Zhi-Hui, Cao Kun-Fang. 2011. Ecology of hemiepiphytism in fig species is based on evolutionary correlation of hydraulics and carbon economy. Ecology 92(11): 2117-2130.

61.Hao Guang-You, Sack Lawren, Wang Ai-Ying, Cao Kun-Fang(*), Goldstein Guillermo. 2010. Differentiation of leaf water flux and drought tolerance traits in hemiepiphytic and non-hemiepiphytic Ficus tree species. Functional Ecology 24(4): 731-740.

62.Hao Guang-You, Jones Tim J., Luton Corene, Zhang Yong-Jiang, Manzane Eric, Scholz Fabian G., Bucci Sandra J., Cao Kun-Fang, Goldstein Guillermo(*). 2009. Hydraulic redistribution in dwarf Rhizophora mangle trees driven by interstitial soil water salinity gradients: impacts on hydraulic architecture and gas exchange. Tree Physiology 29(5): 697-705.

63.Hao Guang-You, Hoffmann William A., Scholz Fabian G., Bucci Sandra J., Meinzer Frederick C., Franco Augusto C., Cao Kun-Fang, Goldstein Guillermo(*). 2008. Stem and leaf hydraulics of congeneric tree species from adjacent tropical savanna and forest ecosystems. Oecologia 155(3): 405-415.

64.欧阳艺蕾，龚雪伟，段春旸，张驰，马尘扬，韩鹏，张元明，郝广友(*)，新疆伊犁地区野杏树衰退的水碳生理机制，植物生态学报，2024.48 (9):1192-1201.

65.赵宇航，龚雪伟，宁秋蕊，张驰，段春旸，郝广友(*)，沿降水梯度白榆的枝叶性状可塑性与协同变异，应用生态学报，2023. 34 (2): 324-332.

66.孔鑫（#）, 王爱英（#）,宁秋蕊, 王淼, 殷笑寒, 周永姣, 郝广友(*), 水曲柳幼苗水力结构和光合生理对光强梯度变化的耦合响应, 南京林业大学学报（自然科学版），2023. 47(1): 83-91.

67.殷笑寒, 郝广友(*), 长白山阔叶树种木质部环孔和散孔结构特征的分化导致其水力学性状的显著差异, 应用生态学报, 2018. 29 (2): 352-360.

Hao Guangyou, et al. A Portable Device for Rapidly Determining the Degree of Xylem Cavitation in Plants.

Authorization Date: October 1, 2019

Application No.: 201920013662.0