尊龙凯时 - 人生就是搏!

刘文杰，男， 博士，1969年3月生, 河南省封丘县市人。现任中国科学院西双版纳热带植物园二级研究员，硕士、博士生导师。

主要从事生态水文方面的研究。先后承担完成了国家基金面上项目、云南省基金重点项目、中国科学院人才培养计划项目等20余项；在国内外核心刊物上发表学术论文100余篇，其中SCI刊物上发表80余篇。

在热带森林生态系统生态水文功能研究方面取得了突出成绩，主要包括以下几个方面：

（1）系统研究了橡胶林代替热带雨林后的生态水文功能演变规律、种间配置对橡胶复合栽培模式水土保持功能的影响、橡胶复合栽培模式的种间水分关系及对土壤水分的调控效应、橡胶农林复合系统的水土保持效应。为橡胶产业可持续发展提供了科学依据。

（2）系统研究了西双版纳热带雨林地区雾的形成机制、雾与热带雨林发育和维持的关系等，是国内较早从事该方面研究的工作者之一，该结果拓展和深化了学术界对西双版纳热带雨林生态系统自我维持机制的认识。

联系方式

E-mail:  lwj@xtbg.org.cn

学历

l1987.09－1991.06: 尊龙凯时地球物理系气象专业学习，获理学学士学位

l2002.09－2005.07: 中国科学院大学学习，生态学专业，获理学博士学位

近十年主持或承担的科研项目

l2002.01-2004.12:国家自然科学基金-青年科学基金项目：热带雨林生态系统中雾水的水文和化学效应研究，项目负责人，19万元

l2006.01-2008.12:国家自然科学基金-面上项目，30570308，西双版纳石灰山季雨林部分植物的水分利用策略研究，项目负责人，24万元

l2008.01-2010.12:中国科学院-西部之光”人才培养计划，08XB021K01，西双版纳山地橡胶林生态水文功能评价，项目负责人，35万元

l2008.01-2010.12:国家自然科学基金-面上项目，30770368，西双版纳山地橡胶林水文功能的环境同位素研究，项目负责人，32万元

l2013.01-2016.12:国家自然科学基金-面上项目，41271051，种间配置对胶农(林)复合系统水土保持功能的影响，项目负责人，75万元

l2013.09-2016.08:云南省自然科学基金-重点项目，2013FA022，胶农（林）复合系统组成单元的种间水分关系及优化，项目负责人，40万元

l2016.01-2019.12:国家自然科学基金-面上项目，31570622，“胶农（林）复合生态系统的种间水分关系及对土壤水分的调控，项目负责人，74.8万元，已结题，主持

l2021.04-2024.03:云南省自然科学基金-重点项目，202101AS070010，“藏胶于林”种植模式对土壤侵蚀的阻控效应，项目负责人，50万元

l2024.01-2027.12:国家自然科学基金-面上项目，32371608，“绞杀现象”对绞杀、宿主植物水分来源时空分异的影响机制，项目负责人，55万元

近十年发表主要学术论文

1.    Yang B, Dossa GGO, Hu YH, Liu LL, Meng XJ, Du YY, Li JY, Zhu XA, Zhang YJ, Singh AK, Yuan X, Wu JE, Zakari S, Liu WJ*, Song L*. 2023. Uncorrected soil water isotopes through cryogenic vacuum distillation may lead to a false estimation on plant water sources. Methods in Ecology and Evolution, 14:1443-1456.

2.    Singh AK*, Zhu XA, Chen CF，Yang B, Pandey VC*, Liu WJ*, Singh N. 2023. Investigating the recovery in ecosystem functions and multifunctionality after 10 years of fly ash technosol revegetation. Science of the Total Environment, 875:162598.

3.   Chen CF, Singh AK, Yang Bin, Wang HF, Liu WJ*. 2023. Effect of termite mounds on soil microbial communities and microbial processes: implications for soil carbon and nitrogen cycling. Geoderma, 431:116368.

4.   Liu JQ, Liu WJ*, Zhang WL, Wang PY. 2023. The detected effects of driptips and leaf wettability on the kinetic energy of throughfall in rubber-based agroforestry in Xishuangbanna. Ecohydrology, 16: e2492.

5.   Zhu XA, Yuan X, Lu EF, Yang B, Wang HF, Du YY, Singh AK, Liu WJ*. 2023. Soil splash erosion: an overlooked issue for sustainable rubber plantation in the tropical region of China. International Soil and Water Conservation Research, 11:30-42.

6.     Zeng HH, Wu JE*, Singh AK, Zhu XA, Zhang WJ, Hahn P, Hölscher D, Liu WJ*. 2022. Effect of intercrops complexity on water uptake patterns in rubber plantations: Evidence from stable isotopes (C-H-O) analysis. Agriculture, Ecosystems & Environment, 338:108086.

7.    Wang HF, Zhu XA, Zakari S, Chen CF, Liu WJ*, Jiang XJ*. 2022. Assessing the effects of three different root architectures on the dynamic of soil water infiltration using dye infiltration experiments and Hydrus-1D. Forests, 13:1095.

8.     Chen CF, Zou X, Singh AK, Zhu XA, Jiang XJ, Wu JE*, Liu WJ*. 2022. Effects of grazing exclusion on soil hydrological functions in savannah livestock grazing systems. Land Degradation & Development, 33:3010-3022.

9.    Wu JE*, Zeng HH, Zhao F, Chen CF*, Singh AK, Jiang XJ, Yang B, Liu WJ*. 2022. Plant hydrological niches become narrow but stable as the complexity of interspecific competition increases. Agricultural and Forest Meteorology, 320: 108953.

10.  Zhang WJ, Zhu XA, Ji SY, Chen CF, Zeng HH, Zou X, Yang B, Jiang XJ*, Liu WJ*. 2022. Soil water movement differences responding to banana (Musa nana Lour.) plantation regime. Land Degradation & Development, 33:1821-1835.

11.  Singh AK*, Zhu XA, Chen CF, Wu JE, Yang B, Zakari S, Jiang XJ, Singh N, Liu WJ*. 2022. The role of glomalin in mitigation of multiple soil degradation problems. Critical Reviews in Environmental Science & Technology, 52:1604-1638.

12.  Singh AK*, Jiang XJ, Yang B, Li HM, Liu WJ*, Singh N*. 2021. Effect of root-glomalin on soil carbon storage in trees‘ proximities (rhizosphere and interspace) of a tropical dry forest. Land Degradation & Development, 32:5281-5291.

13.  Zhang WJ, Zhu XA, Chen CF, Zeng HH, Jiang XJ, Wu JE, Zou X, Yang B, Liu WJ*. 2021. Large broad-leaved canopy of banana (Musa nana Lour.) induces dramatically high spatial-temporal variability of throughfall. Hydrology Research, 52 (6): 1223-1238.

14.  Chen CF*, Zou X, Singh AK, Zhu XA, Zhang WJ, Yang B, Jiang XJ*, Liu WJ*. 2021. Effects of hillslope position on soil water infiltration and preferential flow in tropical forest in southwest China. Journal of Environmental Management, 299:113672.

15.  Zakari S#, Jiang XJ#, Zhu XA, Liu WJ*, Allakonon MGB, Singh AK, Chen CF, Zou X, Akponikpè PBI, Dossa GGO, Yang B. 2021. Influence of sulfur amendments on heavy metals phytoextraction from agricultural contaminated soils: a meta-analysis. Environmental Pollution, 288:117820.

16.  Singh AK*, Liu WJ*, Zakari S, Wu JE, Yang B, Jiang XJ, Zhu XA*, Zou X, Zhang WJ, Chen CF, Singh R, Nath AJ. 2021. A global review of rubber plantations: Impacts on ecosystem functions, mitigations, future directions, and policies for sustainable cultivation. Science of the Total Environment, 796:148948.

17.  Zou X, Zhu XA, Zhu P, Singh AK, Zakari S, Chen CF*, Liu WJ*. 2021. Soil quality assessment of different Hevea brasiliensis plantations in tropical China. Journal of Environmental Management, 285:112147. (Q1, Top-10.

18.  Zeng HH, Wu JE*, Zhu XA, Singh AK, Chen CF, Liu WJ*. 2021. Jungle rubber facilitates the restoration of degraded soil of an existing rubber plantation. Journal of Environmental Management, 281:111959.

19.  Zhu XA, Zhang WJ, Jiang XJ, Zakari S, Lu EF, Singh AK, Yang B*, Liu WJ*. 2021. Conversion of primary tropical rainforest into rubber plantation degrades the hydrological functions of forest litter: insights from experimental study. Catena, 200:105172.

20.  Chen CF, Zou X, Wu JE, Zhu XA, Jiang XJ, Zhang WJ, Zeng HH, Liu WJ*. 2021. Accumulation and spatial homogeneity of nutrients within termite (Odontotermes yunnanensis) mounds in the Xishuangbanna region, SW China. Catena, 198: 105057.

21.  Zhu XA, Zou X, Lu EF, Deng Y, Luo Y, Chen Hui *, Liu WJ*. 2021. Litterfall biomass and nutrient cycling in karst and nearby non-karst rainforests in tropical China: a 10-year comparison. Science of the Total Environment, 758:143619.

22.  Yang B, Meng XJ, Zhu XA, Zakari S, Singh AK, Bibi F, Mei N, Song L*, Liu WJ*. 2021. Coffee performs better than amomum as a candidate in the rubber agroforestry system: insights from water relations. Agricultural Water Management, 244:106593.

23.  Zhang WJ, Liu WJ*, Li WX, Zhu XA, Chen CF, Zeng HH, Jiang XJ, Singh AK, Yang B. 2021. Characteristics of throughfall kinetic energy under the banana (Musa nana Lour.) canopy: the role of leaf shapes. Catena, 197:104985.

24.  Jiang XJ, Zhu XA, Yuan QZ, Li XG, Liu WJ*, Zakari S*. 2021. Lateral flow between bald and vegetation patches induce the degradation of alpine meadow in Qinghai-Tibetan Plateau. Science of the Total Environment, 751:142338.

25.  Wu JE*, Zeng HH, Zhao F, Chen CF, Jiang XJ, Zhu XA, Wang PY, Wu ZX, Liu WJ*. 2020. The nutrient status of plant roots reveals competition intensities in the rubber agroforestry systems. Forests, 11:1163.

26.  Wu JE, Zeng HH, Zhao F, Chen CF, Liu WJ*, Yang B, Zhang WJ. 2020. Recognizing the role of plant species compositions in the modification of soil nutrient and water in the rubber agroforestry systems. Science of the Total Environment, 723:138042.

27.  Zakari S, Liu WJ*, Wu JE, Singh AK, Jiang XJ*, Yang B, Chen CF, Zhu XA. 2020. Decay and erosion-related transport of sulfur compounds in soils of rubber based agroforestry. Journal of Environmental Management, 274:111200.

28.  Yang B, Zhang WJ, Meng XJ, Singh AK, Zakari S, Song L, Liu WJ*. 2020. Effects of a funnel-shaped canopy on rainfall redistribution and plant water acquisition in a banana (Musa spp.) plantation. Soil & Tillage Research, 203:104686.

29.  Yang B, Meng XJ, Singh AK, Wang PY, Song L, Zakari S, Liu WJ*. 2020. Intercrops improve surface water availability in rubber-based agroforestry systems. Agriculture, Ecosystems & Environment, 298:106937.

30.  Singh AK*, Jiang XJ, Yang B, Wu JE, Rai A, Chen CF, Ahirwal J, Wang PY, Liu WJ*, Singh N*. 2020. Biological indicators affected by land use change, soil resource availability and seasonality in dry tropics. Ecological Indicators, 115:106369.

31.  Jiang XJ*, Zakari S, Wu JE, Singh AK, Chen CF, Zhu XA, Zhang WJ, Liu WJ*. 2020. Can complementary preferential flow and non-preferential flow domains contribute to soil water supply for rubber plantation? Forest Ecology and Management, 461:117948.

32.  Zhu XA*, Liu WJ*, Chen J, Bruijnzeel Leendert Adrian, Mao Z, Yang XD, Cardinael R, Meng FR, Sidle RC, Seitz S, Nair VD, Nanko K, Zou X, Chen CF, Jiang XJ. 2020. Reductions in water, soil and nutrient losses and pesticide pollution in agroforestry practices: a review of evidence and processes. Plant and Soil, 453: 45-86.