博士生导师
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    杨兴
    2023年12月13日 12:05

,男,副教授,博士生导师,新型污染物环境归趋与健康风险评估团队

xing.yang@hainanu.edu.cn

通讯地址:海南省海口市美兰区人民大道58号海南大学生态与环境学院

邮政编码570228

研究领域:污染土壤修复,湿地土壤中重(类)金属有毒元素的氧化还原过程模拟,生物炭和炭基材料的环境功能研究,生物质废弃物资源化利用

招生专业:生态学(博士);环境科学与工程(学硕);资源利用与植物保护(专硕)

教育背景:

2022/06-2022/08 韩国高丽大学 访问学习 合作导师:Yong Sik Ok教授

2018/11-2022/06 德国伍珀塔尔大学 土壤与地下水管理 工学博士 导师:Jörg Rinklebe教授

2012/09-2015/06 浙江农林大学 土壤学 农学硕士 导师:王海龙 教授

工作经历:

2022/09至今海南大学生态与环境学院,副教授

2015/06-2018/11浙江省土壤污染生物修复重点实验室,科研助理

学术兼职:

1.担任Journal of Hazardous Materials期刊编委

2.担任BiocharCarbon ResearchSustainable Environment3本国际期刊青年编委

3.担任BiocharFrontiers in Environmental Science等期刊客座主编

4.2021年加入德国土壤学会成为终身会员

5.受邀担任Global Change BiologyChemical Engineering JournalJournal of Hazardous MaterialsJournal of Cleaner ProductionGeodermaAgriculture, Ecosystems and EnvironmentGCB-BioenergyBiocharEnvironmental PollutionScience of the Total EnvironmentChemosphereEnvironmental ResearchEcotoxicology and Environmental SafetyCLEAN - Soil, Air, WaterEnvironmental Geochemistry and HealthJournal of Soils and Sediments10余本环境科学、生态学和土壤科学等领域国际期刊审稿人

科研项目:

1.国家自然科学基金青年项目,载铁富磷生物炭对氧化还原动态变化下稻田土壤砷镉的同步固定机制及修复效应,2024-202630万,在研,主持

2.海南省科技人才创新项目,热区富硅农林固废热解炭化及重金属高背景值稻田土壤绿色修复技术研究,2024-202650万,在研,主持

3.海南省自然科学基金高层次人才项目,热区典型农林固废热解炭化及其改性材料同步钝化土壤砷镉的机理研究,2024-202610万,在研,主持

4.海南大学协同创新中心科研项目,铁基生物炭凝胶对不同水分管理条件下稻田土壤中砷和镉的固定效果研究2023-202530万,在研,主持

5.海南大学高层次人才启动基金(2022),2022-202710万,在研,主持

6.国家自然科学基金“生物质炭及其纳米零价铁改性对不同氧化还原条件下土壤中重金属形态转化的影响机理”,2019-2022,在研,参加

7.国家自然科学基金“基于时间序列的土壤大气沉降物源贡献研究”,2014-2016,已结题,参加

获奖情况:

1.2023年获得CULSC第八届全国大学生生命科学竞赛(创新创业类)指导教师二等奖(创业组)

代表性学术论文:

第一作者/通讯作者

1.Gu, S.,Yang, X.*,Chen, H., Jeyakumar, P., Chen, J., Wang H.*, 2023. Crawfish shell- and Chinese banyan branch-derived biochars reduced phytoavailability of As and Pb and altered community composition of bacteria in a contaminated arable soil. Science of the Total Environment 865, 161284. (中科院一区TOP, IF=10.754)

2.Yang,X.,Dai, Z.,Ge, C.,Yu, H.,Bolan, N,Tsang, D.C.W.,Song, H.,Hou, D.,Shaheen, S.M.,Wang, H.,Rinklebe, J., 2023. Multiple-functionalized biochar affects rice yield and quality via regulating arsenic and lead redistribution and bacterial community structure in soils under different hydrological conditions.Journal of Hazardous Materials444, 130308. (中科院一区TOP, IF=14.224)

3.Yang, X.,Wen, E., Ge, C., El-Naggar, A., Yu, H., Wang, S., Kwon, E.E., Song, H., Shaheen, S.M., Wang, H., Rinklebe, J., 2023.Iron-modified phosphorus- and silicon-based biochars exhibited various influences on arsenic, cadmium and lead accumulation in rice and enzyme activities in a paddy soil.Journal of Hazardous Materials443, 130203. (中科院一区TOP, IF=14.224)

4.Yang, X.,Shaheen, S.M., Wang, J., Hou, D., Ok, Y.S., Wang, S.L., Wang, H., Rinklebe, J., 2022. Elucidating the redox-driven dynamic interactions between arsenic and iron-impregnated biochar in a paddy soil using geochemical and spectroscopic techniques.Journal of Hazardous Materials422, 126808.(中科院一区TOP, IF=14.224)

5.Yang, X.,Hinzmann, M., Pan, H., Wang, J., Bolan, N., Tsang, D.C.W., Ok, Y.S., Wang, S.-L., Shaheen, S.M., Wang, H., Rinklebe, J., 2022.Pig carcass-derived biochar caused contradictory effects on arsenic mobilization in a contaminated paddy soil under fluctuating controlled redox conditions.Journal of Hazardous Materials421, 126647.(中科院一区TOP, IF=14.224)

6.Yang, X.,Pan, H., Shaheen, S.M., Wang, H., Rinklebe, J., 2021. Immobilization of cadmium and lead using phosphorus-rich animal-derived and iron-modified plant-derived biochars under dynamic redox conditions in a paddy soil.Environment International156, 106628.(中科院一区TOP, IF=13.352)

7.Nie, T#.,Yang, X.#(共同一作),Chen, H., Müller, K., Shaheen, S.M., Rinklebe, J., Song, H., Xu, S., Wu, F., Wang, H., 2021.Effect of biochar aging and co-existence of diethyl phthalate on the mono-sorption of cadmium and zinc to biochar-treated soils.Journal of Hazardous Materials408, 124850.(中科院一区TOP, IF=14.224)

8.Wen, E#.,Yang, X.#(共同一作),Chen, H., Shaheen, S.M., Sarkar, B., Xu, S., Song, H., Liang, Y., Rinklebe, J., Hou, D., Li, Y., Wu, F., Pohorely, M., Wong, J.W.C., Wang, H., 2021.Iron-modified biochar and water management regime-induced changes in plant growth, enzyme activities, and phytoavailability of arsenic, cadmium and lead in a paddy soil.Journal of Hazardous Materials407, 124344.(中科院一区TOP, IF=14.224, ESI高被引论文)

9.Pan, H.#,Yang, X.#(共同一作),Chen, H., Sarkar, B., Bolan, N., Shaheen, S.M., Wu, F., Che, L., Ma, Y., Rinklebe, J., Wang, H., 2021.Pristine and iron-engineered animal- and plant-derived biochars enhanced bacterial abundance and immobilized arsenic and lead in a contaminated soil.Science of the Total Environment763, 144218.(中科院二区TOP, IF=10.754, ESI高被引论文)

10.Nie, C.#,Yang, X.#(共同一作),Niazi, N.K., Xu, X., Wen, Y., Rinklebe, J., Ok, Y.S., Xu, S., Wang, H., 2018.Impact of sugarcane bagasse-derived biochar on heavy metal availability and microbial activity: A field study.Chemosphere200, 274-282.(中科院二区TOP, IF=8.943, ESI高被引论文)

11.Yang, X.,Lu, K., Mcgrouther, K., Lei, C., Hu, G., Wang, Q., Liu, X., Shen, L., Huang, H., Ye, Z., 2017.Bioavailability of Cd and Zn in soils treated with biochars derived from tobacco stalk and dead pigs.Journal of Soils and Sediments17, 751-762.(中科院二区, IF=3.536, ESI高被引论文)

12.Yang, X.,Wang, H., Strong, P., Xu, S., Liu, S., Lu, K., Sheng, K., Guo, J., Che, L., He, L., 2017.Thermal properties of biochars derived from waste biomass generated by agricultural and forestry sectors.Energies 10(4), 469.(中科院三区, IF=3.252)

13.Yang, X.,Liu, J., McGrouther, K., Huang, H., Lu, K., Guo, X., He, L., Lin, X., Che, L., Ye, Z., Wang, H., 2016. Effect of biochar on the extractability of heavy metals (Cd, Cu, Pb, and Zn) and enzyme activity in soil.Environmental Science and Pollution Research 23, 974-984.(中科院三区, IF=5.190, ESI高被引论文)

14.杨兴,黄化刚,王玲,申燕,陆扣萍,韩学博,王海龙.烟秆生物质炭热解温度优化及理化性质分析.浙江大学学报(农业与生命科学版),201642(2)245-255(中文核心期刊论文)


其他论文

15.Xing, Y., Wang, J., Kinder, C.E.S.,Yang, X.,Slaný, M., Wang, B., Song, H., Shaheen, S.M., Leinweber, P., Rinklebe, J., 2022.Rice hull biochar enhances the mobilization and methylation of mercury in a soil under changing redox conditions: Implication for Hg risks management in paddy fields.Environment International168, 107484.

16.Al-Solaimani, S.G.,Abohassan, R.A.,Alamri, D.A.,Yang, X.,Rinklebe, J.,Shaheen, S.M., 2022.Assessing the risk of toxic metals contamination and phytoremediation potential of mangrove in three coastal sites along the Red Sea.Marine Pollution Bulletin176, 113412.

17.Lashen, Z.,M.,Shams, M.S.,El-Sheshtawy, H.S.,Slaný, M.,Antoniadis, V.,Yang, X.,Rinklebe, J.,Shaheen, S.M.,Elmahdy, S.M., 2022.Remediation of Cd and Cu contaminated water and soil using novel nanomaterials derived from sugar beet processing- and clay brick factory-solid wastes.Journal of Hazardous Materials428, 128205.

18.Chen, H., Feng, Y.,Yang, X.,Yang, Sarkar, B., Bolan, Meng, J., Wu, F., Wong, J.W.C., Chen, W., Wang, H., 2022.Assessing simultaneous immobilization of lead and improvement of phosphorus availability through application of phosphorus-rich biochar in a contaminated soil: A pot experiment.Chemosphere296, 133891.

19.Zhang, S.,Yang, X.,Hsu, L.C., Liu, Y.T., Wang, S.L., White, J.R., Shaheen, S.M., Chen, Q., Rinklebe, J., 2021.Soil acidification enhances the mobilization of phosphorus under anoxic conditions in an agricultural soil: Investigating the potential for loss of phosphorus to water and the associated environmental risk.Science of the Total Environment793, 148531.

20.Chen, H., Qin, P.,Yang, X.,Bhatnagar, A., Shaheen, S.M., Rinklebe, J., Wu, F., Xu, S., Che, L., Wang, H., 2021.Sorption of diethyl phthalate and cadmium by pig carcass and green waste-derived biochars under single and binary systems.Environmental Research193, 110594.

21.Chen, H.,Yang, X.,Wang, H., Sarkar, B., Shaheen, S.M, Gielen, G., Bolan, N., Guo, J., Che, L., Sun, H., Rinklebe, J. Animal carcass- and wood-derived biochars improved nutrient bioavailability, enzyme activity, and plant growth in metal-phthalic acid ester co-contaminated soils: A trial for reclamation and improvement of degraded soils.Journal of Environmental Management261, 110246.(ESI高被引论文)

22.Feng, Y.,Yang, X.,Singh, B.P., Mandal, S., Guo, J., Che, L., Wang, H., 2020. Effects of contrasting biochars on the leaching of inorganic nitrogen from soil.Journal of Soil and Sediments20, 3017-3026.

23.Chen H.,Yang, X.,Gielen, G., Mandal, S., Xu, S., Guo, J., Shaheen, S.M., Rinklebe, J., Che, L., Wang H., 2019.Effect of biochars on the bioavailability of cadmium and di-(2-ethylhexyl) phthalate to Brassica chinensis L. in contaminated soils.Science of the Total Environment, 678: 43-52.

24.Qin, P., Wang, H.,Yang, X.,He, L., Müller, K., Shaheen, S.M., Xu, S., Rinklebe, J., Tsang, D.C.W., Ok, Y.S., Bolan, N., Song, Z., Che, L., Xu, X., 2018.Bamboo- and pig-derived biochars reduce leaching losses of dibutyl phthalate, cadmium, and lead from co-contaminated soils.Chemosphere198: 450-459.

25.Lu, K.,Yang, X.,Gielen, G., Bolan, N., Ok, Y.S., Niazi, N.K., Xu, S., Yuan, G., Chen, X., Zhang, X., Liu, D., Song, Z., Liu, X., Wang, H., 2017.Effect of bamboo and rice straw biochars on the mobility and redistribution of heavy metals (Cd, Cu, Pb and Zn) in contaminated soil.Journal of Environmental Management186, 285-292. (ESI高被引论文)

26.Lu, K.,Yang, X.,Shen, J., Robinson, B., Huang, H., Liu, D., Bolan, N., Pei, J., Wang, H., 2014.Effect of bamboo and rice straw biochars on the bioavailability of Cd, Cu, Pb and Zn to Sedum plumbizincicola.Agriculture, Ecosystems & Environment191, 124-132. (ESI高被引论文)

27.戴志楠,杨兴,陈翰博,陈俊辉,张妍,王海龙*.原始及铁改性生物质炭对污染土壤中AsPb生物有效性和微生物群落结构的影响.环境科学学报,2022

28.杨冰霜,陈翰博,杨兴,吴小莲,陈俊辉,王海龙*.不同小龙虾壳基改良剂施用对砷、铅复合污染土壤养分转化、酶活性及重金属生物有效性的影响.水土保持学报,2021

29.聂天宏,杨兴,李永春,王海龙*.高分子材料在土壤物理性质改良方面的研究进展.土壤通报,202051(5)1-9

30.温尔刚,赵伟宁,杨兴,郭佳,秦华,王海龙*.法国梧桐叶片炭和枝条炭对水中Pb2+的吸附特性影响.水土保持学报,201933(2)309-316

31.赵伟宁,杨兴,何丽芝,郭佳,王海龙*.热解温度对典型南方木本园林废弃物生物质炭理化特性的影响.浙江农林大学学报,201835(6)1007-1016

32.许晓丽,杨兴,陆扣萍,何丽芝,徐颂,王海龙*.不同集约经营年限对雷竹林土壤磷形态的影响.水土保持学报,201832(1)225-231

33.王秋月,杨兴,何丽芝,陆扣萍,车磊,袁国栋,王海龙*.酸化猪炭对土壤中不同形态磷质量分数及相互转化的影响.浙江农林大学学报,201835(3)387-397

34.陈小米,胡国涛,杨兴,叶正钱,吴晓红,王海龙*.速生树种竹柳对复合污染土壤中镉和锌的吸收、积累与生理响应特性.环境科学学报,201737(10)3968-3976

35.汲广云,郭明,杨兴,陆扣萍,王海龙*.巯基硅烷改性多壁碳纳米管的合成及其对Cd2+的吸附性能研究.环境科学学报,201737(6)2171-2180

36.胡国涛,杨兴,陈小米,陆扣萍,何丽芝,叶正钱,吴晓红,王海龙*.速生竹柳树种对重金属胁迫的生理响应.环境科学学报,201636(10)3870-3875

37.胡国涛,于阳,杨兴,陆扣萍,张小凯,何丽芝,王海龙*.速生树种竹柳对镉的吸收、积累与分布特性.环境科学学报,201636(4)1508-1514

38.刘晶晶,杨兴,陆扣萍,张小凯,黄化刚,王海龙*.生物质炭对土壤重金属形态转化及其有效性的影响.环境科学学报,201535(11)3679-3687


专著章节:

1.Yang, X.,Shaheen, S.M., Wang, H., Rinklebe, J., 2022.Functionalized biochars for the (im)mobilization of potentially toxic elements in paddy soils under dynamic redox conditions: a case study, 2022. In: Tsang, D.C.W., Ok, Y.S. (eds.), Biochar in Agriculture for Achieving Sustainable Development Goals. Elsevier Publishers.

2.Wang, H.,Yang, X. (导师一作),He, L., Lu, K., Müller, K., McGrouther, K., Xu, S., Zhang, X., Li, J., Huang, H., Yuan, G., Hu, G., Liu, X., 2018. Using Biochar for Remediation of Contaminated Soils. pp: 763-783. In: Y. Luo, C. Tu (eds.), Twenty Years Research and Development on Soil Pollution and Remediation in China.Science Press & Springer Nature Singapore Pte Ltd.

3.王海龙,何丽芝,陆扣萍,张小凯,杨兴,郭茜,2015.生物质炭与土壤污染防治.吴伟祥,等.生物质炭土壤环境效应.中国,北京,科学出版社.


申请发明专利:

1.王海龙,杨兴(导师第一)梅雪芹,吴小莲,徐小亚.一种利用竹柳修复土壤锌镉污染的方法,申请号:201710830011.6.申请日:2017.9.15

2.王海龙,杨兴(导师第一)徐小亚,徐颂,李富华.一种猪炭基复合肥及其制备方法,申请号:201710829990.3.申请日:2017.9.15

3.王海龙,杨兴(导师第一)徐小亚,陈晓娟,吴小莲,徐颂.一种植物性抗菌增产叶面肥及其制备方法,申请号:201711228850.7.申请日:2017.11.29



海南大学生态学院
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