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1) Singh AK*, Zhu XA, Chen CF, Wu JE, Yang B, Zakari S, Jiang XJ, Singh N, Liu WJ*. The role of glomalin in mitigation of multiple soil degradation problems. Critical Reviews in Environmental Science & Technology, 2022, 52:1604-1638. (Q1, Top-10, IF= 11.750)
2) Zakari S#, Jiang XJ#, Zhu XA, Liu WJ*, Allakonon MGB, Singh AK, Chen CF, Zou X, Akponikpè PBI, Dossa GGO, Yang B. Influence of sulfur amendments on heavy metals phytoextraction from agricultural contaminated soils: a meta-analysis. Environmental Pollution, 2021, 288:117820.  (Q1, Top-10, IF= 9.988)
3) Zhu XA, Liu WJ, Yuan X, Chen CF, Zhu K, Zhang WJ, Yang B*. Aggregate stability and size distribution regulate rainsplash erosion: Evidence from a humid tropical soil under different land-use regimes. Geoderma, 2022, 420: 115880.  (Q1, Top-10, IF= 7.422)
4) Chen CF, Singh AK, Yang Bin, Wang HF, Liu WJ*. Effect of termite mounds on soil microbial communities and microbial processes: implications for soil carbon and nitrogen cycling. Geoderma, 2022, (Accepted)  (Q1, Top-10, IF= 7.422)
5) Wu JE*#, Zeng HH#, Zhao F, Chen CF*, Singh AK, Jiang XJ, Yang B, Liu WJ*. Plant hydrological niches become narrow but stable as the complexity of interspecific competition increases. Agricultural and Forest Meteorology, 2022, 320: 108953.  (Q1, Top-5, IF= 6.424)
6) Zhu XA, Yuan X, Lu EF, Yang B, Wang HF, Du YY, Singh AK, Liu WJ*. Soil splash erosion: an overlooked issue for sustainable rubber plantation in the tropical region of China. International Soil and Water Conservation Research, 2022. https://doi.org/10.1016/j.iswcr.2022.05.005.  (Q1, Top-10, IF= 7.481)
7) Zeng HH, Wu JE*, Singh AK, Zhu XA, Zhang WJ, Hahn P, H?lscher D, Liu WJ*. Effect of intercrops complexity on water uptake patterns in rubber plantations: Evidence from stable isotopes (C-H-O) analysis. Agriculture, Ecosystems & Environment, 2022, 338:108086.  (Q1, Top-10, IF= 6.576)
8) Singh AK*, Liu WJ*, Zakari S, Wu JE, Yang B, Jiang XJ, Zhu XA*, Zou X, Zhang WJ, Chen CF, Singh R, Nath AJ. A global review of rubber plantations: Impacts on ecosystem functions, mitigations, future directions, and policies for sustainable cultivation. Science of the Total Environment, 2021, 796:148948.  (Q1, Top-10, IF= 10.753)
9) Zhu XA, Zou X, Lu EF, Deng Y, Luo Y, Chen Hui *, Liu WJ*. Litterfall biomass and nutrient cycling in karst and nearby non-karst rainforests in tropical China: a 10-year comparison. Science of the Total Environment, 2021, 758:143619. (Q1, Top-10, IF= 10.753)
10) Jiang XJ, Zhu XA, Yuan QZ, Li XG, Liu WJ*, Zakari S*. Lateral flow between bald and vegetation patches induce the degradation of alpine meadow in Qinghai-Tibetan Plateau. Science of the Total Environment, 2021, 751:142338. (Q1, Top-10, IF= 10.753)
11) Wu JE, Zeng HH, Zhao F, Chen CF, Liu WJ*, Yang B, Zhang WJ. 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, 2020, 723:138042.  (Q1, Top-10, IF= 10.753)
12) Chen CF*, Zou X, Singh AK, Zhu XA, Zhang WJ, Yang B, Jiang XJ*, Liu WJ*. Effects of hillslope position on soil water infiltration and preferential flow in tropical forest in southwest China. Journal of Environmental Management, 2021, 299:113672.  (Q1, Top-10, IF= 8.910)
13) Zou X, Zhu XA, Zhu P, Singh AK, Zakari S, Chen CF*, Liu WJ*. Soil quality assessment of different Hevea brasiliensis plantations in tropical China. Journal of Environmental Management, 2021, 285:112147.  (Q1, Top-10, IF= 8.910)
14) Zeng HH, Wu JE*, Zhu XA, Singh AK, Chen CF, Liu WJ*. Jungle rubber facilitates the restoration of degraded soil of an existing rubber plantation. Journal of Environmental Management, 2021, 281:111959.  (Q1, Top-10, IF= 8.910)
15) Singh AK*, Rai A, Kushwaha M, Chauhan PS, Pandey V, Singh N*. Tree growth    rate regulate the influence of elevated CO2 on soil biochemical responses under a tropical condition. Journal of Environmental Management, 2019, 231: 1211-1221.  (Q1, Top-10, IF= 8.910)
16) Song L#, Yang B*#, Liu LL, Mo YX, Liu WJ, Meng XJ, Lu HZ, Li Y, Zakari S, Tan ZH, Fan ZX, Zhang YJ. Spatial-temporal differentiations in water use of coexisting trees from a subtropical evergreen broadleaved forest in Southwest China. Agricultural and Forest Meteorology, 2022, 316:108862.  (Q1, Top-5 (2/69), IF= 6.424)
17) Chen CF, Zou X, Singh AK, Zhu XA, Jiang XJ, Wu JE*, Liu WJ*. Effects of grazing exclusion on soil hydrological functions in savannah livestock grazing systems. Land Degradation & Development, 2022, 33:3010-3022.  (Q2, IF= 4.377)
18) Zhu XA*, Jiang XJ, Singh AK, Zeng HH, Chen CF*, Lu EF, Liu WJ. Reduced litterfall and decomposition alters nutrient cycling following conversion of tropical natural forests to rubber plantations. Ecological Indicators, 2022, 138:108819.  (Q1, IF= 6.263)
19) Zhang WJ, Zhu XA, Ji SY, Chen CF, Zeng HH, Zou X, Yang B, Jiang XJ*, Liu WJ*. Soil water movement differences responding banana (Musa nana Lour.) plantation regime. Land Degradation & Development, 2022, 33:1821-1835.  (Q2, IF= 4.377)
20) Zhang WJ, Zhu XA, Xiong X, Wu T, Zhou S, Lie ZY, Jiang XJ,  Liu JX*. Changes in Soil Infiltration and Water Flow Paths: Insights from Subtropical Forest Succession Sequence. Catena, 2023, 221:106748. (Q1, Top-10, IF= 6.367)
21) Zhu XA, Zhang WJ, Jiang XJ, Zakari S, Lu EF, Singh AK, Yang B*, Liu WJ*. Conversion of primary tropical rainforest into rubber plantation degrades the hydrological functions of forest litter: insights from experimental study. Catena, 2021, 200:105172.  (Q1, Top-10, IF= 6.367)
22) Chen CF, Zou X, Wu JE, Zhu XA, Jiang XJ, Zhang WJ, Zeng HH, Liu WJ*. Accumulation and spatial homogeneity of nutrients within termite (Odontotermes yunnanensis) mounds in the Xishuangbanna region, SW China. Catena, 2021, 198: 105057.  (Q1, Top-10, IF= 6.367)
23) Singh AK*, Jiang XJ, Yang B, Li HM, Liu WJ*, Singh N*. Effect of root-glomalin on soil carbon storage in trees‘ proximities (rhizosphere and interspace) of a tropical dry forest. Land Degradation & Development, 2021, 32:5281-5291.  (Q2, IF= 4.377)
24) Zhang WJ, Zhu XA, Chen CF, Zeng HH, Jiang XJ, Wu JE, Zou X, Yang B, Liu WJ*. Large broad-leaved canopy of banana (Musa nana Lour.) induces dramatically high spatial-temporal variability of throughfall. Hydrology Research, 2021. 52 (6): 1223-1238.  (Q3, IF= 2.757)
25) Yang B, Meng XJ, Zhu XA, Zakari S, Singh AK, Bibi F, Mei N, Song L*, Liu WJ*. Coffee performs better than amomum as a candidate in the rubber agroforestry system: insights from water relations. Agricultural Water Management, 2021, 244:106593.  (Q1, Top-5,IF= 6.611)
26) Zhang WJ, Liu WJ*, Li WX, Zhu XA, Chen CF, Zeng HH, Jiang XJ, Singh AK, Yang B. Characteristics of throughfall kinetic energy under the banana (Musa nana Lour.) canopy: the role of leaf shapes. Catena, 2021, 197:104985.  (Q1, Top-10, IF= 6.367)
27) Liu LL#, Yang B#, Lu HZ, Wu Y, Meng XJ, Zhang YJ, Song L*. Dry-season fog water utilization by epiphytes in a subtropical montane cloud forest of Southwest China. Water, 2021, 13:1437822.  (Q2, IF= 3.530)
28) Wu JE*, Zeng HH, Zhao F, Chen CF, Jiang XJ, Zhu XA, Wang PY, Wu ZX, Liu WJ*. The nutrient status of plant roots reveals competition intensities in the rubber agroforestry systems. Forests, 2020, 11:1163.  (Q1, IF= 3.282)
29) Zakari S, Liu WJ*, Wu JE, Singh AK, Jiang XJ*, Yang B, Chen CF, Zhu XA. Decay and erosion-related transport of sulfur compounds in soils of rubber based agroforestry. Journal of Environmental Management, 2020, 274:111200. (Q1, Top-10, IF= 8.910)
30) Yang B#, Zhang WJ#, Meng XJ, Singh AK, Zakari S, Song L, Liu WJ*. Effects of a funnel-shaped canopy on rainfall redistribution and plant water acquisition in a banana (Musa spp.) plantation. Soil & Tillage Research, 2020, 203:104686. (Q1, IF= 7.366)
31) Yang B, Meng XJ, Singh AK, Wang PY, Song L, Zakari S, Liu WJ*. Intercrops improve surface water availability in rubber-based agroforestry systems. Agriculture, Ecosystems & Environment, 2020, 298:106937.  (Q1, Top-10, IF= 6.576)
32) Singh AK*, Jiang XJ, Yang B, Wu JE, Rai A, Chen CF, Ahirwal J, Wang PY, Liu WJ*, Singh N*. Biological indicators affected by land use change, soil resource availability and seasonality in dry tropics. Ecological Indicators, 2020, 115:106369.  (Q1, IF= 6.263)
33) Jiang XJ*, Zakari S, Wu JE, Singh AK, Chen CF, Zhu XA, Zhang WJ, Liu WJ*. Can complementary preferential flow and non-preferential flow domains contribute to soil water supply for rubber plantation? Forest Ecology and Management, 2020, 461:117948.  (Q1, Top-10, IF= 4.384)
34) Zhu XA*, Liu WJ*, Chen J, Bruijnzeel LA, Mao Z, Yang XD, Cardinael R, Meng FR, Sidle RC, Seitz S, Nair VD, Nanko K, Zou X, Chen CF, Jiang XJ. Reductions in water, soil and nutrient losses and pesticide pollution in agroforestry practices: a review of evidence and processes. Plant and Soil, 2020, 453:45-86.  (Q1, IF= 4.993)
35) Wu JE, Zeng HH, Chen CF, Liu WJ*. Can intercropping with the Chinese medicinal herbs change the water use of the aged rubber trees? Agricultural Water Management, 2019, 226:105803.  (Q1, Top-5, IF= 6.611)
36) Wu JE, Zeng HH, Chen CF, Liu WJ*, Jiang XJ. Intercropping the sharp-leaf galangal with the rubber tree exhibits weak belowground competition. Forests, 2019, 10: 924.  (Q1, IF= 3.282)
37) Jiang XJ, Chen CF, Zhu XA, Zakari S, Singh AK, Zhang WJ, Zeng HH, Yuan ZQ, He CG, Yu SQ, Liu WJ*. Use of dye infiltration experiments and HYDRUS-3D to interpret preferential flow in soil in a rubber-based agroforestry system in Xishuangbanna, China. Catena, 2019, 178: 120-131.  (Q1, Top-10, IF= 6.367)
38) Zhu XA, Chen CF, Wu JE, Yang JB, Zhang WJ, Zou X, Liu WJ*, Jiang XJ*. Can intercrops improve soil water infiltrability and preferential flow in rubber-based agroforestry system? Soil & Tillage Research, 2019, 191: 327-339.  (Q1, IF= 7.366)
39) Zhu XA, Liu WJ*, Chen H, Deng Y, Chen CF, Zeng HH. Effects of forest transition on litterfall, standing litter and related nutrient returns: Implications for forest management in tropical China. Geoderma, 2019, 333: 123-134. (Q1, Top-10, IF= 7.422)
40) Chen CF, Wu JE, Zhu XA, Jiang XJ, Liu WJ*, Zeng HH, Meng FR. Hydrological characteristics and functions of termite mounds in areas with clear dry and rainy seasons. Agriculture, Ecosystems & Environment, 2019, 277: 25-35.  (Q1, Top-10, IF= 6.576)
41) Chen CF, Liu WJ*, Wu JE, Jiang XJ*, Zhu XA. Can intercropping with the cash crop help improve the soil physico-chemical properties of rubber plantations? Geoderma, 2019, 335: 149-160.  (Q1, Top-10, IF= 7.422)
42) Zakari S, Zhou HZ, Liu H*. Transport velocities of aniline and nitrobenzene in sandy sediment. Journal of Soils and Sediments, 2019, 19:2570-2579.  (Q2, IF= 3.536)
43) Liu JQ, Liu WJ*, Li WX, Zeng HH. How does a rubber plantation affect the spatial variability and temporal stability of throughfall? Hydrology Research, 2019, 50: 60-74.  (Q3, IF= 2.757)
44) Wang PY, Liu WJ*, Zhang JL, Yang B, Singh AK, Wu JE, Jiang XJ. Seasonal and spatial variations of water use among riparian vegetation in tropical monsoon region of SW China. Ecohydrology, 2019, 12: e2085.  (Q2, IF= 3.166)
45) Wang PY*, Li DZ. Dendrocalamus menghanensis (Poaceae: Bambusoideae), a new woody bamboo from Yunnan, China. Phytokeys, 2019, 130:143-150.  (Q3, IF= 1.317)
46) Chen CF, Liu WJ*, Wu JE, Jiang XJ*. Spatio-temporal variations of carbon and nitrogen in biogenic structures of two fungus-growing termites (M. annandalei and O. yunnanensis) in the Xishuangbanna region. Soil Biology & Biochemistry, 2018, 117: 125-134.  (Q1, Top-5, IF= 8.546)
47) Yang B*, Wang PY, You DB, Liu WJ*. Coupling evapotranspiration partitioning with root water uptake to identify the water consumption characteristics of winter wheat: A case study in the North China Plain. Agricultural and Forest Meteorology, 2018, 259: 296-304.  (Q1, Top-5, IF= 6.424)
48) Jiang XJ*, Liu WJ*, Chen CF, Liu JQ, Yuan ZQ, Jin BC, Yu XY. Effects of three morphometric features of roots on soil water flow behavior in three sites in China. Geoderma, 2018, 320:161-171.  (Q1, Top-10, IF= 7.422)
49) Liu JQ, Liu WJ*, Zhu K. Throughfall kinetic energy and its spatial characteristics under rubber-based agroforestry systems. Catena, 2018, 161: 113-121. (Q1, Top-10, IF= 6.367)
50) Singh AK*, Rai A, Banyal R, Chauhan PS, Singh N*. Plant community regulates soil multifunctionality in a tropical dry forest. Ecological Indicators, 2018, 95: 953-963.  (Q1, IF= 6.263)
51) Liu JQ, Liu WJ*, Li WX, Jiang XJ, Wu JE. Effects of rainfall on the spatial distribution of the throughfall kinetic energy on a small scale in a rubber plantation. Hydrological Sciences Journal, 2018, 63: 1078-1090.  (Q2, IF= 3.942)
52) Ji SY, Omar SI, Zhang S, Wang T, Chen CF*, Zhang WJ*. Comprehensive evaluation of throughfall erosion in the banana plantation. Earth Surface Processes and Landforms, 2022, 47:2941-2949.  (Q2, IF= 3.956)
53) Wang HF, Zhu XA, Zakari S, Chen CF, Liu WJ*, Jiang XJ*. Assessing the effects of plant roots on soil water infiltration using dyes and Hyudrus-1D. Forests, 2022, 13:1095.  (Q1, IF= 3.282)
54) Zhu XA, Liu WJ*, Jiang XJ*, Wang PY, Li WX. Effects of land-use changes on runoff and sediment yield: Implications for soil conservation and forest management in Xishuangbanna, SW China. Land Degradation & Development, 2018, 29: 2962-2974.  (Q2, IF= 4.377)
55) Liu JQ, Liu WJ*, Zhang WL, Wang PY. The detected effects of driptips and leaf wettability on the kinetic energy of throughfall in rubber-based agroforestry in Xishuangbanna. Ecohydrology, 2022, e2492.  (Q2, IF= 3.166)
56) Mei N, Yang B, Tian P, Jiang Y, Sui PX, Sun DQ, Zhang ZP, Qi H*. Using a modified soil quality index to evaluate densely tilled soils with different yield in Northeast China. Environmental Science and Pollution Research, 2019, 26: 13867-13877. (Q2, IF= 5.190)
57) Allakonon MGB, Zakari S, Tovihoudji PG, Fatondji AS, Akponikp`e PBI. Grain yield, actual evapotranspiration and water productivity responses of maize crop to deficit irrigation: A global meta-analysis. Agricultural Water Management, 2022, 270:107746.  (Q1, Top-5, IF= 6.611)
58) Kumar S*, Singh AK, Ghosh P. Distribution of soil organic carbon and glomalin related soil protein in reclaimed coal mine-land chronosequence under tropical condition. Science of the Total Environment, 2018, 625: 1341-1350. (Q1, Top-10, IF= 10.753)
59) Shi XM, Liu S, Song L*, Wu CS, Yang B, Lu HZ, Wang X, Zakari S. Contamination and source-specific risk analysis of soil heavy metals in a typical coal industrial city, central China. Science of the Total Environment, 2022, 836:155694. (Q1, Top-10, IF= 10.753)
60) Yuan ZQ*, Jiang XJ. Vegetation and soil covariation, not grazing exclusion, control soil organic carbon and nitrogen in density fractions of alpine meadows in a Tibetan permafrost region. Catena, 2021, 196:104832.  (Q1, Top-10, IF= 6.367)
61) Yuan ZQ*, Jiang XJ, Liu GJ, Jin HJ, Chen J, Wu QB. Responses of soil organic carbon and nutrient stocks to human-induced grassland degradation in a Tibetan alpine meadow. Catena, 2019, 178: 40-48.  (Q1, Top-10, IF= 6.367)
62) Rai A*, Singh AK, Singh N, Ghoshal N. Effect of elevated CO2 on litter functional traits, mass loss and nutrient release of two subtropical species in free air carbon enrichment facility. Environmental and Experimental Botany, 2020, 172: 103994. (Q1, Top-10, IF= 6.028)
63) Zaw Z, Fan ZX*, Br?uning A, Xu CX, Liu WJ, Gaire NP, Panthi S, Than KZ. Drought reconstruction over the past two centuries in southern Myanmar using teak tree-rings: linkages to the Pacific and Indian Oceans. Geophysical Research Letters, 2020, 47: e2020GL087627.  (Q1, IF= 5.576)
64) Ahirwal J*, Kumari S, Singh AK, Kumar A, Maiti SK. Changes in soil properties and carbon fluxes following afforestation and agriculture in tropical forest. Ecological Indicators, 2021, 123:107354.  (Q1, IF= 6.263)
65) Zaw Z, Fan ZX*, Br?uning A, Liu WJ, Gaire NP, Panthi S, Than KZ. Monsoon precipitation variations in Myanmar since AD 1770: linkage to tropical ocean-atmospheric circulations. Climate Dynamics, 2021, 56:3337-3352.  (Q2, IF= 4.901)
66) Hu H, Mo Y, Shen T, Wu Y, Shi X, Ai YY, Lu HZ, Zakari S, Li S*, Song L*. Simulated high-intensity phorophyte removal mitigates the robustness of epiphyte community and destroys commensal network structure. Forest Ecology and Management, 2022, 526:120586.  (Q1, Top-10, IF= 4.384)
67) Rai A*, Pandey VC, Singh AK, Ghoshal N, Singh N*. Butea monosperma: a leguminous species for sustainable forestry programmes. Environment, Development and Sustainability, 2021, 23:8492-8505.  (Q2, IF= 4.080)
68) Yuan ZQ, Wu QB, Song X, Jiang XJ, Gao SR, Wang QF, Li GY. Pasture degradation impact on soil carbon and nitrogen fractions of alpine meadow in a Tibetan permafrost region. Journal of Soils and Sediments, 2020, 20: 2330-2342.  (Q2, IF= 3.536)
69) Liu J, Shen YX*, Zhu XA, Zhao GJ, Zhao ZM, Li ZJ. Spatial distribution patterns of rock fragments and their underlying mechanism of migration on steep hillslopes in a karst region of Yunnan Province, China. Environmental Science and Pollution Research, 2019, 26: 24840-24849.  (Q2, IF= 5.190)
70) Shen JX, Zhang YJ, Maenpuen P, Zhang SB, Zhang L, Yang LT, Tao LB, Yan PY, Zhang ZM, Li SQ, Yuan X, Kongjarat W, Kaewkamol S, Tinprabat P, Chen YJ*. Response of four evergreen savanna shrubs to an incidence of extreme drought: High embolism resistance, branch shedding, and maintenance of nonstructural carbohydrates. Tree Physiology, 2022,42:740-753. (Q1, Top-10, IF= 4.561)71) Wu Y*, Song L, Liu WY*, Liu WJ, Li S, Fu PL, Shen YX, Wu JE, Wang PY, Chen Q, Lu HZ. Fog water is important in maintaining the water budgets of vascular epiphytes in an Asian tropical karst forests during the dry season. Forests, 2018, 9: 260.  (Q1, IF= 3.282)
72) Yang B*, Wang PY, You DB, Liu WJ*. Coupling evapotranspiration partitioning with root water uptake to identify the water consumption characteristics of winter wheat: A case study in the North China Plain. Agricultural and Forest Meteorology, 2018, 259: 296-304. (Q1, Top-10 (2/69), IF= 6.424)
73) Zhu XA, Shen YX*, He BB, Zhao ZM. Humus soil as a critical driver of flora conversion on karst rock outcrops. Scientific Reports, 2017, 7:12611. (Q2, IF= 4.996)
74) Jiang XJ*, Liu WJ*, Wu JE, Wang PY, Liu CA, Yuan ZQ. Land degradation controlled and mitigated by rubber-based agroforestry systems through optimizing soil physical properties and water supply mechanisms: A case study in Xishuangbanna, China. Land Degradation & Development, 2017, 28: 2277-2289. (Q2, IF= 4.377)
75) Chen CF, Liu WJ*, Jiang XJ*, Wu JE. Effects of rubber-based agroforestry systems on soil aggregation and associated soil organic carbon: implications for land use. Geoderma, 2017, 299: 13-24. (Q1, Top-10 (4/39), IF= 7.422)
76) Wu JE, Liu WJ*, Chen CF. Can intercropping with the world’s three major beverage plants help improve the water use of rubber trees? Journal of Applied Ecology, 2016, 53: 1787-1799. (Q1, Top-10 (6/65), IF= 6.865)
77) Liu WJ*, Luo QP, Lu HJ, Wu JE, Duan WP. The effect of litter layer on controlling surface runoff and erosion in rubber plantations on tropical mountain slopes, SW China. Catena, 2017, 149: 167-175. (Q1, Top-10 (17/201), IF=6.367)
78) Wu JE, Liu WJ*, Chen CF. How do plants share water sources in a rubber-tea agroforestry system during the pronounced dry season? Agriculture, Ecosystems and Environment, 2017, 236: 69-77. (Q1, Top-10 (5/59), IF= 6.576)
79) Wu JE, Liu WJ*, Chen CF. Moderate below-ground interspecific competition for water in rubber agroforestry system may enhance water utilization in plants. Scientific Reports, 2016, 5:19502. (Q2, IF= 4.996)
80) Liu WJ*, Zhu CJ, Wu JE, Chen CF. Are rubber-based agroforestry systems effective in controlling rain splash erosion? Catena, 2016, 147: 16-24. (Q1, Top-10 (17/201), IF=6.367)
81) Jiang XJ*, Liu WJ, Wang EH, Zhou TZ, Xin P. Residual plastic mulch fragments effects on soil physical properties and water flow behavior in the Minqin Oasis, northwestern China. Soil & Tillage Research, 2017, 166: 100-107. (Q1 (5/39), IF= 7.366)
82) Jiang XJ, Liu S*, Zhang H. Effects of different management practices on vertical soil water flow patterns in the Loess Plateau. Soil & Tillage Research, 2017, 166: 33-42. (Q1 (5/39), IF= 7.366)
83) Li HM, Ma YX, Liu WJ*. Land use and topography as predictors of nitrogen levels in tropical catchments in Xishuangbanna, SW China. Environmental Earth Sciences, 2016, 75:539. (Q2, IF= 3.119)
84) Wang PY*, Zhang YX, Li DZ, Liu WJ. Dendrocalamus jinghongensis (Poaceae, Bambusoideae), another new woody bamboo from Yunnan, China. Phytotaxa, 2016, 272: 209-214. (Q4, IF=1.050)
85) Liu WJ*, Luo QP, Li JT, Wang PY, Lu HJ, Liu WY, Li HM. The effects of conversion of tropical rainforest to rubber plantation on splash erosion in Xishuangbanna. Hydrology Research, 2015, 46:168-174. (Q3, IF= 2.757)
86) Liu WJ*, Wang PY, Li JT, Liu WY, Li HM. Plasticity of source-water acquisition in epiphytic, transitional and terrestrial growth phases of Ficus tinctoria. Ecohydrology, 2014, 7:1524-1533. (Q2, IF= 3.166)
87) Liu WJ*, Li JT, Lu HJ, Wang PY, Luo QP, Liu WY, Li HM. Vertical patterns of soil water acquisition by non-native rubber trees (Hevea brasiliensis) in Xishuangbanna, SW China. Ecohydrology, 2014, 7:1234-1244. (Q2, IF= 3.166)
88) Liu WJ*, Li PJ, Duan WP, Liu WY. Dry-season water utilization by trees growing on thin karst soils in a seasonal tropical rainforest of Xishuangbanna. Ecohydrology, 2014, 7:927-935. (Q2, IF= 3.166)
89) You DB, Tian P, Sui PX, Zhang WK, Yang B*, Qi H*. Short-term effects of tillage and residue on spring maize yield through regulating root-shoot ratio in Northeast China. Scientific Reports, 2017, 7:13314. (Q2, IF= 4.996)
90) Liu WJ*, Liu WY, Li PJ, Duan WP, Li HM. Dry season water uptake by two dominant canopy tree species in a tropical seasonal rainforest of Xishuangbanna, Southwest China. Agricultural and Forest Meteorology, 2010, 150:380-388.  (Q1, Top-10 (2/69),  IF= 6.424 )
91) Liu WJ*, Liu WY, Li PJ, Gao L, Shen YX, Wang PY, Zhang YP, Li HM. Using stable isotopes to determine sources of fog drip in a tropical seasonal rain forest of Xishuangbanna, SW China. Agricultural and Forest Meteorology, 2007, 143:80-91.  (Q1, Top-10 (2/69),  IF= 6.424 )
92) Liu WJ*, Zhang YP, Li HM, Liu YH. Fog drip and its relation to groundwater in the tropical seasonal rain forest of Xishuangbanna, SW China.  Water Research, 2006, 39:787-794.  (Q1, Top-1 (1/100),  IF = 13.400 )
93) Liu WJ*, Li JT, Lu HJ, et al. Vertical patterns of soil water acquisition by non-native rubber trees in Xishuangbanna, SW China. Ecohydrology, 2014, 7:1234-1244.  (Q2, IF= 3.166 )
94) Liu WJ*, Wang PY, Li JT, et al. Plasticity of source-water acquisition in epiphytic, transitional and terrestrial growth phases of Ficus tinctoria. Ecohydrology, 2014, 7:1524-1533.  (Q2, IF= 3.166)
95) Liu WJ*, Li PJ, Duan WP, et al. Dry-season water utilization by trees growing on thin karst soils in a seasonal tropical rainforest of Xishuangbanna. Ecohydrology, 2014, 7:927-935.  (Q2, IF= 3.166)
96) Liu WJ*, Luo QP, Li JT, Wang PY, Lu H, Liu W, Li H. The effects of conversion of tropical rainforest to rubber plantation on splash erosion in Xishuangbanna. Hydrology Research, 2015, 46:168-174. (Q3, IF= 2.757)
97) Liu WJ*, Zhang YP, Li H, Meng F, Liu Y, Wang C. Fog and rainwater chemistry in the tropical seasonal rain forest of Xishuangbanna, SW China. Water, Air & Soil Pollution, 2005, 167:295-309.  (Q3, IF= 2.984)
98) Liu WJ, Liu WY*, Li JT, Wu ZW, Li HM. Isotope variations of throughfall, stemflow and soil water in a tropical rain forest and a rubber plantation in Xishuangbanna, SW China. Hydrology Research, 2008, 39:437-499.  (Q3, IF= 2.757)
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