张会慧

发布时间:2021-12-10文章来源: 浏览次数:

张会慧,副教授/硕士生导师

联系方式

E-mail:zhang_hh@nefu.edu.cn;xtwfwf@neau.edu.cn

电话:13703622750

地址:黑龙江省哈尔滨市香坊区和兴路26号

东北林业大学生命科学学院(新逸夫教学楼)337房间

教育经历

2005.09-2009.06 本科,东北林业大学生命科学学院,生物科学专业

2009.09-2011.06 硕士,东北林业大学生命科学学院,植物营养学专业

2011.09-2014.06 博士,东北林业大学生命科学学院,遗传学专业

工作经历

2015.09-2019.08 讲师,东北农业大学资源与环境学院

2019.09-2021.09 副教授,东北农业大学资源与环境学院

2021.10-.至今 副教授,东北林业大学生命科学学院

2021.11-.至今 博士后,东北林业大学林木遗传育种国家重点实验室

研究方向:

植物逆境生理与分子生物学,植物光合作用和氧化还原调控。

主持的科研项目

[1]东北林业大学“5211”优秀青年学者人才引进启动经费,2021-2024,100万元

[2]国家自然科学基金青年基金“Trx CDSP32调控NaHCO3胁迫下苜蓿叶绿体ROS代谢及光破坏防御机制的功能解析” (31901088),2020-2022,24万元

[3]黑龙江省高校青年创新人才项目“Trx CDSP32诱导围绕PSI的环式电子传递缓解NaHCO3胁迫下苜蓿光合抑制的作用及机制” (UNPYSCT-2020115),2020-2022,10万元

[4]中国烟草总公司牡丹江烟草研究所横向课题“黑龙江省烤烟化学农药残留降低技术措施的研究示范与推广” (2020-88),2020-2022,10万元

[5]东北农业大学青年才俊项目“桑树叶片叶绿体2-Cys Prx调节盐胁迫下的活性氧清除及光破坏防御机制解析” (18QC12),2019-2020,6万元

[6]珍稀濒危动植物环境保护教育部重点实验室开放基金“2-Cys Prx缓解盐胁迫下苜蓿叶片光抑制的作用机制研究” (2019001),2019-2020,5万元

学术奖励

[1]黑龙江省科技进步三等奖“桑树作物复合经营提升盐碱地生产力综合配套技术”第3名,2017

[2]黑龙江省高校科技进步二等奖“桑树作物复合经营提升盐碱地生产力综合配套技术”第3名,2017

[3]黑龙江省科技进步二等奖“石油污染地植被恢复的综合配套技术”第8名,2015

第一作者或通迅作者发表论文

2022

[1] Wang Y,Guo DD, Wang JC, Tian B, Li YY, Sun GY,Zhang HH*. Exogenous melatonin alleviates NO2damage to tobacco leaves through promoting antioxidant defense, modulating redox homeostasis and signal transduction. Journal of Hazardous Materials,2022,424:127265 (IF2020: 10.588,Corresponding author)

[2] Wang Y,Yu YT, Zhang HB, Hu YZ, Liu XQ, Che YH, Wang JC, Sun GY,Zhang HH*. The phytotoxicity of exposure to two polybrominated diphenyl ethers (BDE47 and BDE209) on photosynthesis and the response of the hormone signaling and ROS scavenging system in tobacco leaves. Journal of Hazardous Materials,2022,424:128012 (IF2020: 10.588,Corresponding author)

2021

[3]Zhang HH,Liu XQ, Zhang HB, Wang Y, Che YH, Wang JC, Guo DD, Sun GY, Li X. Thioredoxin-like protein CDSP32 alleviates Cd-induced photosynthetic inhibition of tobacco leaves by regulating cyclic electron flow and excess energy dissipation. Plant Physiology and Biochemistry, 2021, 167: 831-839(IF2020:4.270)

[4]Zhang HH,Huo YZ, Guo KW, Xu ZS, Liu SQ, Wang Q, Wang XC, Xu N, Wu YN, Sun GY.Na+accumulationalleviates drought stress induced photosynthesis inhibition of PSII and PSIin leaves ofMedicago sativa. Journal of Plant Interaction, 2021, 16(1): 119-128 (IF2020:4.208)

[5] Wang Y,Wang JC, Guo DD, Zhang HB, Che YH, Li YY, Tian B, Wang ZH, Sun GY,Zhang HH*. Physiological and comparative transcriptome analysis of leaf response and physiological adaption to saline alkali stress across pH values in alfalfa (Medicago sativa). Plant Physiology and Biochemistry, 2021, 167: 140-152(IF2020:4.270,Corresponding author)

[6] Sun HW, Zhang HB, Wang Y, Liu XQ, Li YY, Tian B, Sun GY,Zhang HH*.TMT-based quantitative proteomic analysisof the effects ofPseudomonas syringaepv.tabaci(Pst) infection on photosynthetic function and the response of the MAPK signaling pathway in tobacco leave. Plant Physiology and Biochemistry, 2021, 166: 657-667(IF2020:4.270,Corresponding author)

[7] Yang FW, Zhang HB, Wang Y, He GQ, Wang JC, Guo DD, Li T,Sun GY,Zhang HH*. The role of antioxidant mechanism in photosynthesis under heavy metals Cd or Zn exposure in tobacco leaves. Journal of Plant Interaction.2021,16(1):344-354 (IF2020:4.208,Corresponding author)

[8] He GQ, Zhang HB, Liu SQ, Li HQ, Huo YZ, Guo KW, Xu ZS,Zhang HH*. Exogenous γ-glutamic acid (GABA) induces proline and glutathione synthesis in alleviating Cd-induced photosynthetic inhibition and oxidative damage in tobacco leaves. Journal of Plant Interaction,2021, 16(1):296-306 (IF2020:4.208,Corresponding author)

2020

[9]Zhang HH,Xu ZS, Huo YZ, Guo KW, He GQ, Sun HW, Li MB, Li X, Xu N, Gun GY.Overexpression ofTrx CDSP32gene promotes chlorophyll synthesis and photosynthetic electron transfer and alleviates cadmium-induced photoinhibition of PSII and PSI in tobacco leaves.Journal of Hazardous Materials,2020, 397:12289(IF2020: 10.588)

[10]Zhang HH,Li X, Xu ZS, Wang Y, Teng ZY, Zhu WX, Xu N, Sun GY. Toxic effects of heavy metal Pb and Cd on mulberry (Morus albaL.) leaves: Photosynthetic function and reactive oxygen species (ROS) metabolism responses. Ecotoxicology and Environmental Safety,2020, 195: 10469 (IF2020: 6.291, ESI Highly Cited Paper)

[11]Zhang HH,Li X, Guan YP, Li MB, Wang Y, Liu GJ, Xu N, Sun GY. Physiological and proteomic responses ofreactive oxygen species and antioxidant machinery in leaves of mulberry (Morus albaL.) to NaCl and NaHCO3stress. Ecotoxicology and Environmental Safety,2020, 193: 110259(IF2020: 6.291)

[12]Zhang HH,Wang Y, Li X, Che YH, An MJ, Zhang YH, Xu N, Sun GY. Chlorophyll synthesis and the photoprotective mechanism in leaves of mulberry (Morus albaL.) seedlings under NaCl and NaHCO3stress revealed by TMT-based proteomics analyses.Ecotoxicology and Environmental Safety, 2020, 190: 11016(IF2020: 6.291)

[13]Zhang HH,Xu ZS, Guo KW, Huo YZ, He GQ, Xu N, Yang W, Gun GY. Toxic effects of heavy metal Cd and Zn on chlorophyll, carotenoid metabolism and photosynthetic function in tobacco leaves revealed by physiological and proteomics analysis.Ecotoxicology and Environmental Safety, 2020, 202: 110856. (IF2020: 6.291)

[14]Zhang HH,Xu N, Li X, Han Y, Ren JW, Li MB, Zhai S, Yang RY, Teng ZY, Sun GY. Effects of exogenous abscisic acid on the photosynthetic function and active oxygen species metabolism of tobacco leaves under drought stress. Photosynthetica, 2020, 58(6): 400-409(IF2020: 3.189)

[15]Zhang HH.Li X, Che YH, Wang Y, Teng ZY, Xu N, Sun GY.A study on the effects of salinity and pH on PSII function in mulberry seedling leaves under saline-alkali mixed stress.Trees-Structure and Function,2020,34(3): 693-706 (IF2020: 2.529)

[16]Zhang HH, Huo YZ, Xu ZS, Guo KW, Wang Y, Xu N, Sun GY. Physiological and proteomics responses of nitrogen assimilation and glutamine/glutamine family of amino acids metabolism in mulberry (Morus albaL.) leaves to NaCl and NaHCO3stress. Plant Signaling & Behavior,2020,15(10):1798108 (IF2020: 2.247)

[17] Li X,Zhang HH,Sun ML, Xu N, Zhao MC, Sun GY. Land use change from upland to paddy field in Mollisols drives soil aggregation and associated microbial communities. Applied Soil Ecology, 2020,146:103351 (IF2020: 4.046, co-first author)

[18] Guo KW, Xu ZS, Huo YZ, Sun Q, Wang Y, Che YH, Wang JC, Li W,Zhang HH*.Effects of salt concentration, pH, and their interaction on plant growth, nutrient uptake, and photochemistry of alfalfa (Medicago sativa) leavesPlant Signaling & Behavior,2020,15(12):1832373 (IF2020: 2.247,Corresponding author)

2019

[19]Zhang HH,Shi GL, Shao JY, Li X, Li MB, Meng L, Xu N, Sun GY.Photochemistry and proteomics of mulberry(Morus albaL.) seedlings under NaCl and NaHCO3stress. Ecotoxicology and Environmental Safety, 2019, 184: 109624(IF2019: 4.872)

[20]Zhang HH,Xu N, Teng ZY, Wang JR, Ma SL, Wu XY, Li X, Sun GY.2-Cys Prx plays a critical role in scavenging H2O2and protecting photosynthetic function in leaves of tobacco seedlings under drought stress. Journal of Plant Interaction, 2019,14(1):119-128. (IF2019:2.992)

2018

[21]Zhang HH, Li X, Zhang SB, Yin ZP, Zhu WX, Li JB, Meng L, Zhong HX, Wu YN, Xu N, Sun GY.Rootstock alleviates salt stress in grafted mulberry seedlings: physiological and PSII Function responses. Frontiers in Plant Science, 2018, 9: 1806 (IF2018:4.106)

[22]Zhang HH,Xu N, Li X, Long JH, Sui X, Wu YN, Li JB, Qu Y, Sun GY. Arbuscular mycorrhizal fungi (Glomus mosseae) improves growth, photosynthesis and protects photosystem II in leaves ofLolium perenneL. under cadmium contaminated soil. Frontiers in Plant Science, 2018, 9: 1156(IF2018:4.106)

[23]Zhang HH,Xu N, Wu XY, Wang JR, Ma SL, Li X, Sun GY. Effects of four types of sodium salt stress on plant growth and photosynthetic apparatus in sorghum leaves. Journal of Plant Interaction, 2018, 13(1): 506-513(Q2, IF2018:1.839)

[24]Zhang HH,Zhang SY, Meng XXY, Li MS, Mu LQ, Lei JP, Sui X. Conversion from natural wetlands to forestland and farmland alters the composition of soil fungal communities in Sanjiang Plain, Northeast China. Biotechnology and Biotechnological Equipment, 2018, 32(4): 951-960. (IF2018:1.227)

[25]Zhang HH,Feng P, Yang W, Sui X, Li X, Zhang RT, Gu SY, Xu N. Effects of flooding stress on the photosynthetic apparatus of leaves of twoPhysocarpuscultivars. Journal of Forest Research, 2018, 39(4):1049-1059 (IF2018: 0.777)

[26] Xu N,Zhang HH, Zhong HX, Wu YN, Li JB, Li X, Yin ZP, Zhu WX, Qu Y, Sun GY. The response of photosynthetic functions of F1cutting seedlings fromPhysocarpus amurensisMaxim(♀)×Physocarpus opulifolius“Diabolo”(♂)and the parental leaves to salt stress. Frontiers in Plant Science, 2018,9:714 (IF2018:4.106,co-first author)

2016-2017

[27]Zhang HH,Zhong HX, Wang JF, Sui X, Xu N. Adaptive changes in chlorophyll content and photosynthetic features to low light inPhysocarpus amurensis MaximandPhysocarpus opulifolius “Diabolo”. Peer J, 2016, 4(3): 2125 (IF2016:2.177)

[28]Zhang HH,Li X, Xu N, Sun ML, Sun GY, Gu SY. Alkalinity and salinity tolerance during seed germination and early seedling stages of three alfalfa (Medicago sativaL.) cultivars. Legume Research,2017,40(5): 853-858 (IF2017: 0.232)

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