个人简历
张海波,副教授,硕士生导师,江西省高等学校骨干教师。先后主持了2项国家自然科学基金项目和4项省级项目,以第一作者或通讯作者发表了50余篇学术论文,其中7篇为中科院1区Top论文(5篇IF>10、2篇IF>6.5)。曾获宜春学院优秀教师(4次)、科研工作先进个人(2次)和2024中国知网高被引学者TOP1%等荣誉。
教育/工作经历
2020.12-至今 宜春学院动物科学系副教授
2016.5-2020.11 宜春学院动物科学系讲师
2013.11-2014.11 美国弗吉尼亚理工大学动物科学(博士联合培养)
2012.9-2015.12 四川农业大学动物营养与饲料科学(博士)
2009.9-2012.6 四川农业大学动物营养与饲料科学(研究生)
2005.9-2009.6 西南大学动物科学(本科)
研究领域
新型饲料添加剂的研发和反刍动物营养调控
[1] 国家自然科学基金地区项目,32360855,CTCF靶向激活TNFAIP3在NZnOC调控山羊肠道菌群时空动态定植-BA代谢-肠黏膜免疫中的作用机制,2024/1-2027/12,41万元,主持。
[2] 国家自然科学基金地区项目,32060773,肠道菌群介导BA-TGR5-cAMP抗炎信号通路调控肉牛脂质重分配的分子机制及锌源调控,2021/1-2024/12,40.3万元,主持。
[3] 江西省教育厅科技项目,GJJ190848,白酒糟对肉牛肌内脂肪沉积的影响及预测肌内脂肪沉积模型的构建,2019/12-2022/12,3万元,主持。
[4] 江西省教育厅科技项目,GJJ170919,不同比例白酒糟对肉牛肌内脂肪沉积的机制研究,2017/01-2018/12,2万元,主持。
[5] 江西省教育规划项目,21YB190,探索新农科视域下“三耦合”关联网络调控实践教学体系的模型研究一以动科专业为例的实证分析,2021/1-2023/12,1.6万,主持。
代表性论文
Enhancing carbon fixation and suppressing bacterial chemotaxis through carbon matrix nano-selenium to mitigate emissions of antibiotic resistance genes and virulence factors from chicken manure(第一作者,中科院1区Top,IF:15.1)
Potential of novel zinc-based nanomaterials on the microbial community, antibiotic resistance genes, and DNA replication in animal manure(通讯作者,中科院1区Top,IF:15.1)
Optimising microbial processes with nanocarbonselenite materials An ecofriendly approach for antibiotic resistance mitigation in broiler manure(共一作者,中科院1区Top,IF:15.1)
nZnO-based graphene/graphene oxide compounds inhibit methane metabolic pathways and lower the development of antibiotic resistance genes and virulence factors(通讯作者,中科院1区Top,IF: 11.1)
Zinc/carbon nanomaterials inhibit antibiotic resistance genes by affecting quorum sensing and microbial community in cattle manure production(共一作者,中科院1区Top,IF:11.4)
[1] Zhang, Haibo, et al. (2024). Potential of novel zinc-based nanomaterials on the microbial community, antibiotic resistance genes, and DNA replication in animal manure. Chem Eng J, 481, 148505.(中科院1区Top,IF:13.3)
[2] Guan, W., Li, L., Zhang, C., Zhang, D., Xing, Q., Guo, D., Hongbing, O., Zhang, H*. (2024). Enhancing carbon fixation and suppressing bacterial chemotaxis through carbon matrix nano-selenium to mitigate emissions of antibiotic resistance genes and virulence factors from chicken manure. Chem Eng J, 483, 149076.(中科院1区Top,IF:13.3)
[3] Lizhi Li, Weikun Guan, Baohua Xiao, Qin He, Gangfu Chen, Jianzhong Wu, Zhigang Zhao, Feng You, Jinsheng Yang, Yue Xing, Lijun Zhou, Jinmeng Shi, Linfei Zhan, Junhao Hu, Zi Wei, Qingru Liu, Haibo Zhang*, Cheng Zhang, Wenkai Shi, An Yuan, Qingfeng Xing, Dongsheng Guo, Wei Yu, Qiuying Long. (2024). Optimising microbial processes with nano-carbon/selenite materials: An eco-friendly approach for antibiotic resistance mitigation in broiler manure. Chem Eng J, 496, 153695.(中科院1区Top,IF:13.3)
[4] Zhang, Haibo, et al. (2023). nZnO-based graphene/graphene oxide compounds inhibit methane metabolic pathways and lower the development of antibiotic resistance genes and virulence factors. J Clean Prod, 428, 139413.(中科院1区Top,IF:9.7)
[5] Li, L., Guan, W., Fan, Y., He, Q., Guo, D., Yuan, A., Xing, Q., Wang, Y., Ma, Z., Ni, J., Chen, J., Zhou, Q., Zhong, Y., Li, J., Zhang, H*. (2023). Zinc/carbon nanomaterials inhibit antibiotic resistance genes by affecting quorum sensing and microbial community in cattle manure production. Bioresource Technol, 387, 129648.(中科院1区Top,IF:9.7)
[6] Zhang, Haibo, et al. (2023). Graphene nano zinc oxide reduces the expression and release of antibiotic resistance-related genes and virulence factors in animal manure. Sci Total Environ, 881, 163520.(中科院1区Top,IF:8.2)
[7] Zhang, Haibo, et al. (2023). Nano-Selenium inhibited antibiotic resistance genes and virulence factors by suppressing bacterial selenocompound metabolism and chemotaxis pathways in animal manure. Ecotox Environ Safe, 263, 115277.(中科院1区Top,IF:6.2)
[8] Zhang, Haibo, et al. (2022). Dietary carbon loaded with nano-ZnO alters the gut microbiota community to mediate bile acid metabolism and potentiate intestinal immune function in fattening beef cattle. BMC Vet Res, 18(1), 425.(中科院2区,IF:2.3)
[9] Zhang, H., Guan, W. (2019). The response of gene expression associated with intramuscular fat deposition in the longissimus dorsi muscle of Simmental×Yellow breed cattle to different energy levels of diets. Anim Sci J, 90(4), 493-503.(中科院3区,IF:1.7)
其他
[1] 参编教材《动物营养学》,中国农业大学出版社,2022。
[2] 参编专著《硒健康与硒产品》,科学技术文献出版社,2022。
