教育(访问)经历:
1992-1996年,西北林学院读本科
1999-2002年,水土保持研究所攻读硕士学位
2002-2005年,南京大学攻读博士学位
2011-2012年,美国康奈尔大学访问学者
工作经历:
1996-1999年,中国林科院沙漠林业实验中心
2005至今,水土保持研究所
植被恢复的过程、机理和调控研究。目前重点研究氮沉降对森林生态系统地下生态过程的影响,流域植被恢复及优化配置。
1.国家自然科学基金面上项目:黄土高原土壤有效N对油松细根生产与周转的影响,2009-2012;
2.国家自然科学基金面上项目:土壤有效N 影响油松细根分解的过程和机制,2014-2017;
3.国家自然科学基金面上项目:土壤有效N影响油松非结构性碳水化合物分配的机制,2017-2020;
4.国家自然科学基金面上项目:土壤有效氮通过影响油松根际沉积物和微生物改变根际有机碳分解的机制,2021-2024;
5.国家自然科学基金专项类项目(课题):黄土高原植被生态水文阈值与生态系统优化途径,2021-2024;
6.“十一五”国家科技支撑项目(专题):不同地区天然植被封育及人工促进恢复技术,2011-2015;
7.“十二五”国家科技支撑项目(课题):陕北水蚀区生态恢复与植被功能优化技术与示范,2015-2018;
8.“十三五”国家重点研发计划项目(专题):水土保持林结构调整与功能提升技术,2017-2020;
9.“十四五”国家重点研发计划项目,黄土高原低效人工林生态系统质量提升技术,2022-2026
[1]Hang Jing,Ying Liu,Guoliang Wang,Guobin Liu. The effects of nitrogen addition on soil organic carbon decomposition and microbial C-degradation functional genes abundance in a Pinus tabulaeformis forest. Forest Ecology and Management,2021, 489:119098
[2]Hang Jing,Jingjing Li,Benshuai Yan,Furong Wei,Guoliang Wang*, Guobin Liu. Effects of nitrogen addition on root respiration of trees and understory herbs at different temperatures in Pinus tabulaeformis forest.,Plant and Soil 2021,463:447–459
[3]Hang Jing,Ying Liu,Guoliang Wang,Guobin Liu. Contrasting effects of nitrogen addition on rhizosphere soil CO2, N2O, and CH4 emissions of fine roots with different diameters from Pinus tabulaeformis forest using laboratory incubation. Science of the Total Environment. 2021,780:146298
[4]Jing Hang,Meng Min,Wang Guoliang,Liu Guobin. Aggregate binding agents improve soil aggregate stability in Robinia pseudoacacia forests along a climatic gradient on the Loess Plateau, China. J Arid Land 2021,13(2): 165–174
[5]Benshuai Yan, Lipeng Sun, Jingjing Li, Caiqun Liang, Furong Wei, Sha Xue, Guoliang Wang. Change in composition and potential functional genes of soil bacterial and fungal communities with secondary succession in Quercus liaotungensis forests of the Loess Plateau, western China. Geoderma,2020, 364:114199
[6]Hang Jing, Guoliang Wang. Temporal dynamics of Pinus tabulaeformis litter decomposition under nitrogen addition on the Loess Plateau of China. Forest ecology and management,2020, 476,118465
[7]Jingjing Li, Guoliang Wang, BenshuaiYan, Guobin Liu. The responses of soil nitrogen transformation to nitrogen addition are mainly related to the changes in functional gene relative abundance in artificial Pinus tabulaeformis forests. Science of The Total Environment. 2020. 723: 137679
[8]Jing Hang, Zhang Peng, Li Jingjing, Yao Xu, Liu Guobin, Wang Guoliang. Effect of nitrogen addition on the decomposition and release of compounds from fine roots with different diameters: the importance of initial substrate chemistry, Plant and Soil, 2019,438:281–296
[9]Zhang J, Ai Z, Liang C, et al. How microbes cope with short-term N addition in a Pinus tabuliformis forest-ecological stoichiometry. Geoderma, 2019, 337:630-640.
[10]Sun L, Jing H, Wang G, et al. Nitrogen addition increases the contents of glomalin-related soil protein and soil organic carbon but retains aggregate stability in a Pinus tabulaeformis forest. Peerj, 2018, 6.
[11]Zhang C,Liu G, Xue S, Wang G,Wang J, Song Z. Effects of rhizosphere interactions of grass interspecies on the soil microbial properties during the natural succession in the loess plateau. European Journal of Soil Biology 2018. 85, 79-88.
[12]Hongfei L , Sha X , Guoliang W , et al. Effects of nitrogen addition on soil oxidisable organic carbon fractions in the rhizospheric and bulk soils of Chinese pines in north-western China. Soil Research, 2018, 56(2):192-200
[13]Liu Ying, Wang Guoliang, Yu Kunxia, Li Peng, Xiao Lie, Liu Guobin. A new method to optimize root order classification based on the diameter interval of fine root. Scientific reports.2018, 8:2960
[14]Wang Guoliang, Liu Fang, Xue Sha. Nitrogen addition enhanced water uptake by affecting fine root morphology and coarse root anatomy of Chinese pine seedlings. Plant and Soil. 2017, 418:177 – 189.
[15]Wang Guoliang, Xue Sha, Liu Fang, Liu Guobin. Nitrogen addition increases the production and turnover of the lower-order roots but not of the higher-order roots of Bothriochloa ischaemum. Plant and Soil. 2017, 415: 423–434
[16]Jing Hang , Zhou HaoXiang, Wang Guoliang , Xue Sha , Liu GuoBin , Duan MengCheng. Nitrogen addition changes the stoichiometry and growth rate of different organs in Pinus tabuliformis seedlings. Frontiers in Plant Science. 2017,8:1922.
[17]Lv Fenglian, Xue Sha, Wang Guoliang, Zhang Chao. Nitrogen addition shifts the microbial community in the rhizosphere of Pinus tabuliformis in Northwestern China. PLoS ONE. 2017, 12(2): e0172382.
[18]Liu Ying, Li Peng, Wang Guoliang, Liu Guobin, Li Zhanbin. Above- and below-ground biomass distribution and morphological characteristics respond to nitrogen addition in Pinus tabuliformis. New Zealand Journal of Forestry Science. 2016, 46:25
[19]Wang Guoliang, Liu Fang. Carbon allocation of Chinese pine seedlings along a nitrogen addition gradient. Forest Ecology and Management. 2014, 334: 114-121
[20]Wang Guoliang, Timothy J. Fahey, Xue Sha, Liu Fang. Root morphology and architecture respond to N addition in Pinus tabuliformis, west China. Oecologia. 2013, 171: 583–590
[21]Wang Guoliang, Liu Fang. The influence of gap creation on the regeneration of Pinus tabuliformis planted forest and its role in the near-natural cultivation strategy for planted forest management. Forest Ecology and Management.2011, 262:413-423
[22]陈佳瑞,王国梁,孟敏,王润超.干旱胁迫对3种灌木不同器官化学计量特征的影响.应用生态学报,2021,32(01):73-81
[23]段梦成, 王国梁, 史君怡, 周昊翔. 间伐对油松人工林优势种群结构与分布格局的影响. 生态学杂志.2019,38(1):1-10
[24]段梦成, 王国梁, 史君怡, 周昊翔. 间伐对油松人工林碳储量的长期影响. 水土保持学报. 2018, (5):190-196
[25]由政,张鹏,薛萐,王国梁,姚旭. 退耕地植被演替过程对土壤化学计量特征的影响. 草地学报. 2017,25(3):657-661
[26]谷利茶,王国梁,景航,姚旭. 氮添加对油松不同径级细根分解及其养分释放的影响.应用生态学报. 2017,28(9):2771-2777
[27]谷利茶,王国梁. 氮添加对油松幼苗不同径级细根碳水化合物含量的影响. 生态学杂志. 2017,36( 8) : 2184-2190
[28]景航,史君怡,王国梁,薛萐,梁楚涛,周昊翔. 皆伐油松林不同恢复措施下团聚体与球囊霉素分布特征. 中国环境科学. 2017,37(8):3056-3063
[29]姚旭,景航,梁楚涛,谷利茶,王国梁,薛萐.人工油松林表层土壤团聚体活性有机碳含量对短期氮添加的响应. 生态学报,2017,37 ( 20) :6724-6731.
