扬州大学教师个人主页服务平台张克亮--中文主页--首页

张克亮

同专业硕导

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个人信息

教师拼音名称：ZKL
电子邮箱：
所在单位：园艺园林学院
学历：博士研究生毕业
性别：男
学位：理学博士学位
职称：副高级
在职信息：在岗
毕业院校：中国科学院植物研究所
硕士生导师
所属院系：园艺园林学院
学科：园艺学其他专业

个人简介

张克亮，男，1988年11月生，山东济南人，理学博士，副教授，研究生导师。

教育背景：2017年毕业于中国科学院植物研究所生态学专业，获博士学位（硕博连读）。

教学与教研：承担本科生课程《园林花卉学》《草坪学》及研究生课程《科研选题与论文写作》等的教学任务。指导大学生创新创业训练计划项目2项、研究生科研与实践创新项目1项，指导研究生4人次获国家奖学金。

科研项目：主持国家自然科学基金项目2项。

科研成果：在 Global Ecology and Biogeography、Functional Ecology、Oikos、Biological Reviews等SCI期刊发表学术论文30余篇；授权国家发明专利7项、实用新型专利2项，获植物新品种权1项，参编著作1部。

荣誉获奖：入选江苏省科技副总；获“梁希”林业科技奖、中国商业联合会科技进步奖等奖励。

学术服务：任SCI期刊 BMC Plant Biology 编委、Journal of Plant Ecology青年编委，中国生态学会种子生态专业委员会委员，扬州林学会理事。

招生信息：欢迎对植物学、进化生态学等方向感兴趣，具备数据分析基础的学生报考研究生。

E-mail：zhangkeliang@yzu.edu.cn

研究方向

系统发育生态学：整合系统发育学、进化生态学与群落生态学的理论方法，聚焦于植物间系统发育亲缘关系如何塑造群落结构、物种共存机制及生态系统功能的动态。研究问题包括：植物是否具有识别不同亲缘关系邻居的能力？这种能力是否受其自身系统发育背景（进化历史）的影响？亲缘环境是否会通过影响生物互作（共生、竞争、捕食）强度，进而影响植物的生长表现和防御对策？在气候变化压力下，“好邻居”能否能补偿“坏气候”？当代群落的系统发育结构是否承载了历史环境变迁的印记并影响其未来适应性？
生活史对策：利用实验生态学手段，结合植物生理学、形态学、分子生态学和植物地理学的手段，探究变化生境下的植物生活史对策。研究问题包括：植物如何通过调节萌发时间与资源分配（如生长与防御之间的权衡）应对资源波动与气候变化？预防性表型响应是否会在环境波动中因“错误警报”导致降低物种适合度？不同地理种群是否表现出一致的生长与繁殖对策？物种间生活史对策的分化是否可以促进群落长期共存？
种子生态学：以种子在自然生境中的休眠、萌发与扩散机制为核心，通过田间实验、野外调查及控制条件下的萌发实验，探究植物在种子阶段的适应策略及其对种群动态与生态系统结构的潜在影响。研究内容主要包括：母体环境对种子特性及子代适合度的影响机制；种子休眠状态的动态调整及其与环境因子的关系；土壤种子库的长期维持与动态演变规律；异型种子对种群的风险分摊机制；以及种子生态过程对群落结构和生态系统功能的影响等。

论文发表

Yang, J., Luo, Y., Baskin, J. M., Baskin, C. C., Prinzing, A., Liu, L., Xu, C., & Zhang, K*. (2025). Seed dormancy cycling: A driver of germination timing in a facultative winter annual. Plant Diversity, PLD575. https://doi.org/10.1016/j.pld.2025.05.007
Prinzing, A., Bartish, I. V., Zhang, K., & Yguel, B. (2025). Why some habitat types are locally much more species‐rich than others: Ongoing assembly of species produced by long and rapid macroevolutionary diversification. Global Ecology and Biogeography, 34(4), e70037. https://doi.org/10.1111/geb.70037
Santonja, M., Pan, X., Courty, P.-E., Butenschoen, O., Berg, M. P., Murray, P., Yguel, B., Brule, D., Zhang, K., & Prinzing, A. (2025). Why oaks should stay with their close relatives: Growing in a distantly related neighbourhood delays and reorganizes nutrient recycling during litter decomposition. Oikos, 2025(4), e10567. https://doi.org/10.1111/oik.10567
Yang, J., Luo, Y., Liu, L., Tao, J., Tang, S., Chen, H., & Zhang, K*. (2025). Seasonally synchronised dormancy cycling enables dual germination windows in a facultative winter annual weed. European Journal of Agronomy, 172, 127826. https://doi.org/10.1016/j.eja.2025.127826
Zhang, K., Deniau, M., Jung, V., Bechade, B., Gousbet, V., Brunelliere, M., Yguel, B., & Prinzing, A. (2024). Offspring may succeed well next to their relatives, but it needs particular traits. Annals of Botany, 135(3), 495–514. https://doi.org/10.1093/aob/mcae177
Zhang, K., Ji, Y., Yao, L., Liu, H., Zhang, Y., Baskin, J. M., Baskin, C. C., Zhang, L., Xu, C., Tao, J., & Prinzing, A. (2024). Paternal intergenerational plasticity in the plant species Paeonia ostii: Implications for parental fitness and offspring performance. Functional Ecology, 38(4), 832–847. https://doi.org/10.1111/1365-2435.14506
Zhang, L., Xu, C., Liu, H., Tao, J., & Zhang, K*. (2023). Seed dormancy and germination requirements of Torilis scabra (Apiaceae). Agronomy, 13(5), 1250. https://doi.org/10.3390/agronomy13051250
Zhang, L., Xu, C., Liu, H., Wu, Q., Tao, J., & Zhang, K*. (2023). Intermediate complex morphophysiological dormancy in seeds of Aconitum barbatum (Ranunculaceae). BMC Plant Biology, 23(1), 350. https://doi.org/10.1186/s12870-023-04357-x
Zhang, K., Pan, H., Baskin, C. C., Baskin, J. M., Xiong, Z., Cao, W., Yao, L., Tang, B., Zhang, C., & Tao, J. (2022). Epicotyl morphophysiological dormancy in seeds of Paeonia ostii (Paeoniaceae): Seasonal temperature regulation of germination phenology. Environmental and Experimental Botany, 194, 104742. https://doi.org/10.1016/j.envexpbot.2021.104742
Zhang, K., Ji, Y., Fu, G., Yao, L., Liu, H., Tao, J., & Walck, J. L. (2021). Dormancy cycles in Aquilegia oxysepala Trautv. et Mey. (Ranunculaceae), a species with non-deep simple morphophysiological dormancy. Plant and Soil, 464(1), 223–235. https://doi.org/10.1007/s11104-021-04951-8
Zhang, K., Zhang, Y., Sun, J., Meng, J., & Tao, J. (2021). Deterioration of orthodox seeds during ageing: Influencing factors, physiological alterations and the role of reactive oxygen species. Plant Physiology and Biochemistry, 158, 475–485. https://doi.org/10.1016/j.plaphy.2020.11.031
Zhang, K., Ji, Y., Song, X., Yao, L., Liu, H., & Tao, J. (2021). Deep complex morphophysiological dormancy in seeds of Clematis hexapetala Pall. (Ranunculaceae). Scientia Horticulturae, 286, 110247. https://doi.org/10.1016/j.scienta.2021.110247
Zhang, K., Cao, W., Baskin, J. M., Baskin, C. C., Sun, J., Yao, L., & Tao, J. (2021). Seed development in Paeonia ostii (Paeoniaceae), with particular reference to embryogeny. BMC Plant Biology, 21(1), 603. https://doi.org/10.1186/s12870-021-03373-z
Zhang, K., Ji, Y., Song, X., Yao, L., Liu, H., & Tao, J. (2021). Deep complex morphophysiological dormancy in seeds of Clematis hexapetala Pall. (Ranunculaceae). Scientia Horticulturae, 286, 110247. https://doi.org/10.1016/j.scienta.2021.110247
Meng, J., Cheng, M., Zhang, K., El Hadi, M. A. M., Zhao, D., & Tao, J. (2021). Beneficial effects of Paeonia ostii stamen tea in extending the lifespan and inducing stress resistance on Caenorhabditis elegans. Food Science and Technology, 42, e76521. https://doi.org/10.1590/fst.76521
Meng, J., Li, M., Zhang, K., Zhao, D., & Tao, J. (2021). Kinetics of seed reserve compounds during the maturation of herbaceous peony (Paeonia lactiflora Pall.) seeds. Journal of Seed Science, 43, e202143041. https://doi.org/10.1590/2317-1545v43255168
Zhang, K., Ji, Y., Fu, G., Yao, L., Liu, H., & Tao, J. (2021). Dormancy-breaking and germination requirements of Thalictrum squarrosum Stephan ex Willd. seeds with underdeveloped embryos. Journal of Applied Research on Medicinal and Aromatic Plants, 24, 100311. https://doi.org/10.1016/j.jarmap.2021.100311
Xiong, Z., Yang, J., & Zhang, K. (2020). The role of seed morph and water availability in the growth and reproduction of amphicarpic plant Amphicarpaea edgeworthii (Fabaceae). Pakistan Journal of Botany, 53(6), 2003-9. https://doi.org/10.30848/PJB2021-6(6)
Zhang, K., Liu, H., Pan, H., Shi, W., Zhao, Y., Li, S., Liu, J., & Tao, J. (2020). Shifts in potential geographical distribution of Pterocarya stenoptera under climate change scenarios in China. Ecology and Evolution, 10(11), 4828–4837. https://doi.org/10.1002/ece3.6236
Zhang, K., Zhang, Y., Ji, Y., Walck, J. L., & Tao, J. (2020). Seed biology of Lepidium apetalum (Brassicaceae), with particular reference to dormancy and mucilage development. Plants, 9(3), 333. https://doi.org/10.3390/plants9030333
Zhang, Y., Zhang, K*., Ji, Y., & Tao, J. (2020). Physical dormancy and soil seed bank dynamics in seeds of Melilotus albus (Fabaceae). Flora, 266, 151600. https://doi.org/10.1016/j.flora.2020.151600
Zhang, K., Baskin, J. M., Baskin, C. C., Cheplick, G. P., Yang, X., & Huang, Z. (2020). Amphicarpic plants: Definition, ecology, geographic distribution, systematics, life history, evolution and use in agriculture. Biological Reviews, 95(5), 1442–1466. https://doi.org/10.1111/brv.12623
Yao, L., Zhang, Y., Zhang, K., & Tao, J. (2019). Reproductive and pollination biology of Sorbus alnifolia, an ornamental species. Pakistan Journal of Botany, 51(5), 1797–1802. https://doi.org/10.30848/PJB2019-5(21)
Zhang, K., Zhang, Y., Walck, J. L., & Tao, J. (2019). Non-deep simple morphophysiological dormancy in seeds of Angelica keiskei (Apiaceae). Scientia Horticulturae, 255, 202–208. https://doi.org/10.1016/j.scienta.2019.05.039
Zhang, K., Zhang, Y., Zhou, C., Meng, J., Sun, J., Zhou, T., & Tao, J. (2019). Impact of climate factors on future distributions of Paeonia ostii across China estimated by MaxEnt. Ecological Informatics, 50, 62–67. https://doi.org/10.1016/j.ecoinf.2019.01.004
Tang, Y., Zhang, K., Zhang, Y., & Tao, J. (2019). Dormancy-breaking and germination requirements for seeds of Sorbus alnifolia (Siebold & Zucc.) K. Koch (Rosaceae), a mesic forest tree with high ornamental potential. Forests, 10(4), 319. https://doi.org/10.3390/f10040319
Zhang, K., Yao, L., Zhang, Y., & Tao, J. (2019). Achene heteromorphism in Bidens pilosa (Asteraceae): Differences in germination and possible adaptive significance. AoB Plants, 11(3), plz026. https://doi.org/10.1093/aobpla/plz026
Zhang, K., Yao, L., Zhang, Y., Baskin, J. M., Baskin, C. C., Xiong, Z., & Tao, J. (2019). A review of the seed biology of Paeonia species (Paeoniaceae), with particular reference to dormancy and germination. Planta, 249(2), 291–303. https://doi.org/10.1007/s00425-018-3017-4
Zhang, K., Yao, L., Meng, J., & Tao, J. (2018). MaxEnt modeling for predicting the potential geographical distribution of two peony species under climate change. Science of the Total Environment, 634, 1326–1334. https://doi.org/10.1016/j.scitotenv.2018.04.112
Yang, X., Huang, Z., Zhang, K., & Cornelissen, J. H. C. (2017). Taxonomic effect on plant base concentrations and stoichiometry at the tips of the phylogeny prevails over environmental effect along a large-scale gradient. Oikos, 126(9), 1241–1249. https://doi.org/10.1111/oik.04129
Zhang, K., Baskin, J. M., Baskin, C. C., Yang, X., & Huang, Z. (2017). Effect of seed morph and light level on growth and reproduction of the amphicarpic plant Amphicarpaea edgeworthii (Fabaceae). Scientific Reports, 7(1), 39886. https://doi.org/10.1038/srep39886
Yang, X., Huang, Z., Venable, D. L., Wang, L., Zhang, K., Baskin, J. M., Baskin, C. C., & Cornelissen, J. H. C. (2016). Linking performance trait stability with species distribution: The case of Artemisia and its close relatives in northern China. Journal of Vegetation Science, 27(1), 123–132. https://doi.org/10.1111/jvs.12334
Zhang, K., Baskin, J. M., Baskin, C. C., Yang, X., & Huang, Z. (2015). Lack of divergence in seed ecology of two Amphicarpaea (Fabaceae) species disjunct between eastern Asia and eastern North America. American Journal of Botany, 102(6), 860–869. https://doi.org/10.3732/ajb.1500069
Yang, X., Huang, Z., Zhang, K., & Cornelissen, J. H. C. (2015). Geographic pattern and effects of climate and taxonomy on nonstructural carbohydrates of Artemisia species and their close relatives across northern China. Biogeochemistry, 125(3), 337–348. https://doi.org/10.1007/s10533-015-0128-x
Yang, X., Huang, Z., Zhang, K., & Cornelissen, J. H. C. (2015). C:N:P stoichiometry of Artemisia species and close relatives across northern China: Unravelling effects of climate, soil and taxonomy. Journal of Ecology, 103(4), 1020–1031. https://doi.org/10.1111/1365-2745.12409