个人简介:
何念鹏,男,理学博士,教授,硕士/博士生导师,国家级高层次人才项目入选者。兼任中国生态学会长期生态专业委员会委员和秘书长、《植物生态学报》、《Journal of Plant Ecology》等期刊编委。入选中国科学院稳定支持基础研究领域青年团队计划、科技部重大基础调查专项首席科学家、中国科协“生态系统碳汇提升决策咨询专家团队”首席科学家。
主要研究领域为植物功能生态学、生物地理生态学、生态系统生态学;以第一和通讯作者发表论文120余篇,相关论文发表在国内外著名学术期刊,如Trends in Ecology and Evolution, Trends in Plant Science, Nature Geoscience, Natural Communications, Science Bulletin, Global Change Biology, Ecology Letters, Ecology, Global Ecology & Biogeography, Functional Ecology, Journal of Ecology, Soil Biology and Biochemistry, Geoderma等。
主讲《植物功能生态学》、《生物多样性与保护生物学》、《生态系统控制实验设计原理与方法》等课程。截至目前指导毕业博士8人,硕士12人;已毕业博士生先后获得中国科学院百篇优秀博士论文、中国科学院院长特别奖、中国科学院院长优秀奖等。
学习经历:
2002/09-2005/06,中国科学院植物研究所,生态学,博士
1999/09-2002/06,东北师范大学,草地研究所,生态学,硕士
1995/09-1999/06,东北师范大学,环境科学系,生态学,学士
工作经历:
2023/10-至今,东北林业大学,林学院,教授
2016/12-2023/09,中国科学院地理科学与资源研究所,CERN综合研究中心,研究员
2011/01-2016/11,中国科学院地理科学与资源研究所,CERN综合研究中心,副研究员
2010/03-2010/06,美国Kansas State University,访问学者
2008/09-2010/12,中国科学院植物研究所,中科院内蒙古草原站,执行站长/高级工程师
2005/07-2008/08,中国科学院植物研究所,中科院内蒙古草原生态系统定位研究站,执行站长/工程师
主持项目:
1. 2022-2027,陆地生态系统立体观测技术示范及典型生态过程对环境变化的响应(科技部基础研发项目子课题,2022YFF080210102)
2. 2022-2026年,中国植被碳储量与固碳速率时空动态(中国科学院稳定支持基础研究领域青年团队计划,YSBR-037,课题负责人)
3. 2022-2026年,中国陆地生态系统碳库现存量及其不确定性(自然科学基金委重点专项项目,42141004,主持人)
4. 2020-2022,中国生态系统通量数据整编和性状调查项目(科技部基础调查专项重大项目,2019FY101300,负责人)
5. 2019-2023,青藏高原地表功能元素耦合作用的植物性状响应(科技部第二次青藏科考专项子课题,2019QZKK060602)
6. 2018-2021年,中国东部不同气候带森林土壤有机质分解温度敏感性的垂直变异规律与机制:联网研究(自然科学基金项目, 31770655)
7. 2015-2018年,气候变暖对青藏高寒草地土壤碳组分及其稳定性的影响(自然科学基金项目,31470506)
8. 2013-2016年,模拟氮沉降对内蒙古草地碳固持效应及其稳定性的影响(自然科学基金项目,31270519)
9. 2011-2013年,土地利用变化对内蒙古温带草地碳效应的影响及其稳定性的关键指标评价(自然科学基金项目,31070431)
10. 2009-2011年,不同土地利用方式对羊草草地土壤碳固存效应和稳定性的影响(自然科学基金项目,40803024)
主要论文:
近五年的10篇代表作(*为通讯作者,#为共同第一作者)
1. He NP*#, Yan P#, Liu CC, Xu L, Li MX, Van Meerbeek K, Zhou GS, Zhou GY, Liu SR, Zhou XH, Li SG, Niu SL, Han XG, Buckley TN, Sack L*, Yu GR*. 2023. Predicting ecosystem productivity based on plant community traits.Trends in Plant Science, 28: 43-52. (IF = 22.012)
2. Liu CC, Sack L, Li Y, Zhang JY, Yu KL, Zhang QY,He NP*, Yu GR. 2023. Relationships of stomatal morphology to the environment across plant communities.Nature Communications,14: 6629.(IF=16.60)
3. Cai WX,He NP*, Li MX, Xu L, Wang LZ, Zhu JX, Zeng N, Yan P, Si GX, Zhang XQ, Cen XY, Yu GR, Sun JX. 2022. Carbon sequestration of Chinese forests from 2010–2060: spatiotemporal dynamics and its regulatory strategies.Science Bulletin,67: 836-843. (IF = 20.577)
4. Li Y, Liu CC, Sack L, Xu L, Li MX, Zhang JH,He NP*. 2022. Leaf trait network architecture shifts with species-richness and climate across forests at continental scale.Ecology Letters, 25: 1442-1457. (IF = 11.274)
5. Zhang JH, Hedin L, Li MX, Xu L, Yan P, Dai GH,He NP*. 2022. Leaf N:P ratio does not predict productivity trends across natural terrestrial ecosystems.Ecology, doi: 10.1002/ecy.3789. (IF = 6.431)
6. He NP*#, Li Y#, Liu CC, Xu L, Li MX, Zhang JH, He JS, Tang ZY, Han XG, Ye Q, Xiao CW, Yu Q, Liu SR, Sun W, Niu SL, Li SG, Sack L*, Yu GR* (2020) Plant trait networks: Improved resolution of the dimensionality of adaptation.Trends in Ecology and Evolution, 35: 908-918. (IF = 20.589)
7. Yan P#, Xiao CW#, Xu L, Li A, Yu GR, Piao SL,He NP*. (2020). Biomass energy in China's terrestrial ecosystems: Insights into the nation’s sustainable energy supply.Renewable & Sustainable Energy Reviews, 127, 109857. (IF=16.799)
8. Zhang JH,He NP*, Liu CC, Xu L, Chen Z, Li Y, Wang RM, Yu GR, Sun W, Xiao CW, Chen HYH, Reich PB (2020) Variation and evolution of C:N ratio among different organs enable plants to adapt to N-limited environments.Global Change Biology, 26, 2534-2543. (IF = 13.211)
9. He NP*, Liu CC, Piao SL, Sack L, Xu L, Luo YQ, He JS, Han XG, Zhou GS, Zhou XH, Lin Y, Yu Q, Liu SR, Sun W, Niu SL, Li SG, Zhang JH, Yu GR* (2019) Ecosystem traits linking functional traits to macroecology.Trends in Ecology & Evolution, 34, 200-210. (IF=20.589)
10. Yu GR#*, Jia YL#,He NP#, Zhu JX, Chen Z, Wang QF, Piao SL, Liu XJ, He HL, Guo XB, Wen Z, Li P, Ding GA, Goulding K. (2019) Stabilization of atmospheric nitrogen deposition in China over the past decade.Nature Geoscience, 12,12, 424-429. (IF=20.531)
其它论文(按年代排序, *通讯作者)
11. Cheng CJ,He NP*, Li MX, Xu L, Osbert Sun JX*. 2023. Spatial assembly of grassland communities and interrelationships with productivity. Functional Ecology, doi: 10.1111/1365-2435.14306.
12. Cheng CJ, Osbert Sun JX, Li MX, Xu L, Cai WX, Li X, Zhao WZ, Li C, Wang JM,He NP*. 2023. Plant species richness on the Tibetan Plateau: Patterns and determinants. Ecography, 2023: e06265.
13. Li MX,He NP*, Xu L, Peng CH, Chen H, Yu GR. 2023. Eco-CCUS: A cost-effective pathway towards carbon neutrality in China. Renewable and Sustainable Energy Reviews, 183:113512.
14. Liu ZG#, Zhao M#, Zhang HX, Ren TT, Liu CC,He NP*. 2023. Divergent response and adaptation of specific leaf area to environmental change at different spatio-temporal scales jointly improve plant survival. Global Change Biology, 29:1144-1159.
15. Yan P, Zhang JH*,He NP*, Zhang WK, Liu CC, Fernandez-Martinez M. 2023. Functional diversity and soil nutrients regulate the interannual variability in gross primary productivity. Journal of Ecology,111: 1094-1106.
16. Yan P, Fernández-Martínez M, Van Meerbeek K, Yu GR, Migliavacca M,He NP*. 2023. The essential role of biodiversity in the key axes of ecosystem function. Global Change Biology, 29: doi 10.1111/gcb.16666.
17. Zhang QY, Zhu JX, Mulder J, Wang QF, Liu CQ,He NP*. 2023. High environmental costs behand rapid economic development: Evidence from economic loss caused by atmospheric acid deposition. Journal of Environmental Management,334: 117511.
18. Zhang QY; Zhu JX; Wang QF; Mulder J; Liu CQ,He NP*. 2023. Transformation from NHx to NOy deposition aggravated China’s forest soil acidification. Global Biogeochemical Cycles, doi.org/10.1029/2023GB007736.
19. Zhao WZ,Xiao CW*, Li MX, Xu L, Li X, Zhu XY, Cheng CJ,He NP*. 2023. Biogeographic patterns of sulfur in the vegetation of the Tibetan Plateau. Journal of Geophysical Research: Biogeosciences, 128: e2022JG007051.
20. Zhu XY,Hou JH*, Li MX, Xu L, Li X, Li Y, Cheng CJ, Zhao WZ,He NP*. 2023. High-resolution spatial distribution of vegetation biomass and its environmental response on Qinghai-Tibet Plateau: Intensive grid-field survey. Ecological Indicators, 149: 110167.
21. Cen XY, Li MX*, Xu L, Zhu JX,He NP*. 2022. Atmospheric N deposition significantly enhanced soil N2O emission from eastern China forests. Global Biogeochemical Cycles, 36: e2021GB007289.
22. Li MX, He NP*. 2022. Carbon intensity of global existing and future hydropower reservoirs.Renewable and Sustainable Energy Reviews, 162: 112433. (IF=16.799)
23. Li C, Xiao CW*, Guenet B, Li MX, Xu L,He NP*. 2022. Short-term effects of labile organic C addition on soil microbial response to temperature in a temperature steppe. Soil Biology & Biochemistry, 167: 108589.
24. Li CN, Liao HJ, Xu L, Wang CT,He NP*, Wang JM, Li XZ*. 2022. The adjustment of life history strategies drives the ecological adaptations of soil microbiota to aridity. Molecular Ecology, doi: 10.1111/mec.16445
25. Li X, Li MX, Xu L, Liu CC, Zhao WZ, Cheng CJ,He NP*. 2022. Allometry and distribution of nitrogen in natural plant communities of the Tibetan Plateau. Frontiers in Plant Science, 13: 845813.
26. Li Y, Hou JH*, Xu L, Li MX, Chen Z, Zhang ZH,He NP*. 2022. Variation in functional trait diversity from tropical to cold-temperature forests and linkage to productivity. Ecological Indicators, 138: 108864.
27. Liu CC, Li Y,He NP*. 2022. Differential adaptation of lianas and trees in wet and dry forests revealed by trait correlation networks. Ecological Indicators, 135: 108564.
28. Liu CC, Sack L, Li Y,He NP*. 2022. Contrasting adaptation and optimization of stomatal traits across communities at continental-scale. Journal of Experimental Botany, doi: erac266.
29. Wang RM, Li MX, Xu L, Li SG*,He NP*. 2022. Scaling-up methods influence on the spatial variation in plant community traits: Evidence based on leaf nitrogen content. Journal of Geophysical Research: Biogeoscience: 127, e2021/2021/
30. Yan P, Li MX, Yu GR, Qi Y,He NP*. 2022. Plant community traits associated with nitrogen can predict spatial variability in productivity. Ecological Indicators, 140: 109001.
31. Zhang QY, Zhu JX*, Wang QF, Xu L, Li MX, Dai GH, Mulder J, Xi Y,He NP*. 2022. Soil acidification in China’s forests due to atmospheric acid deposition from 1989 to 2050. Science Bulletin, 67: 914-917.
32. Zhao WZ, Xiao CW*, Li MX, Xu L,He NP*. Variation and adaptation in leaf sulfur content across China.
2022. Journal of Plant Ecology, doi: 10.1093/jpe/rtac021.
33. Zhao WZ, Xiao CW*, Li MX, Xu L, Li X,He NP*. 2022. Spatial variation and allocation of sulfur among major plant organs in China. Science of the Total Environment, 844: 157155.
34. Li Y, Liu CC, Xu L, Li MX, Zhang JH,He NP*. 2021. Leaf trait networks based on global data: Representing variation and adaptation in plants.Frontiers in Plant Science, 12: 710530.
35. Li Y, Li Q, Xu L, Li MX, Chen Z, Song ZP, Hou JH*,He NP*. 2021. Plant community traits can explain variation in productivity of selective logging forests after different restoration times.Ecological Indicators, 131: 108181.
36. Liu ZG, Dong N, Zhang HX*, Zhao M, Ren TT, Liu CC, Westerband A,He NP*. 2021. Divergent long- and short-term responses to environmental gradients in specific leaf area of grassland species.Ecological Indicators, 130: 108058.
37. Liu CC, Li Y, Yan P,He NP*. 2021. How to improve the predictions of plant functional traits on ecosystem functioning?Frontiers in Plant Sciences, 12: 622260.
38. Liu CC, Li Y, Xu L, Li MX, Wang JM, Yan P,He NP*. 2021. Stomatal arrangement pattern: A new direction to explore plant adaptation and evolution.Frontiers in Plant Sciences, 12: 655255.
39. Ren TT,He NP*, Liu ZG, Li MX, Zhang JH, Li Y, Wei CZ, Lv XT, Han XG*. 2021. Environmental filtering rather than phylogeny determines plant leaf size in three floristically distinctive plateaus.Ecological Indicators, 130: 108049.
40. Sun JG, Liu CC, Hou JH*,He NP*.2021. Spatial variation of stomatal morphological traits in grassland plants of the Loess Plateau.Ecological Indicators, 128: 107857.
41. Wang RM,He NP*, Li SG, Xu L, Li MX. 2021. Variation and adaptation of leaf water content among species, communities, and biomes.Environmental Research Letters, 16:124038.
42. Wang RL,He NP*, Yu GR*. 2021. Root community traits: scaling-up and incorporating roots into ecosystem functional analyses.Frontiers in Plant Science, 12: 690235.
43. Xu L#,He NP#, Li XZ, Cao HL, Li CN, Wang RL, Wang CH, Yao MJ, Zhou SG, Wang JM. 2021. Local community assembly processes shape β-diversity of soil phoD-harbouring communities in the Northern Hemisphere steppes.Global Ecology and Biogeography, 30(11): 2273-2285
44. Zhang JH, Li MX, Xu L, Zhu JX, Dai GH,He NP*. 2021. C:N:P stoichiometry in terrestrial ecosystems in China.Science of the Total Environment, 795: 148849.
45. Zhang Y,He NP*,Li MX, Yan P, Yu GR. 2021. Community chlorophyll quantity determines the spatial variation of grassland productivity.Science of the Total Environment, 801: 149567
46. Zhang JH, Ren TT, Yang JJ, Xu L, Li MX, Zhang YH, Han XG,He NP*.2021. Leaf multi-element network reveals the change of species dominance under nitrogen deposition. Frontier in Plant Science, 12: 580340.
47. Liu CC, Li Y, Zhang JH, Bird AS, He NP*. 2020. Optimal community assembly related to leaf economic-hydraulic-anatomical traits.Frontiers in Plant Science, 11, 341.
48. Wang S, Xu L, Zhuang QL,He NP* (2020) Investigating the spatio-temporal variability of soil organic carbon stocks in different ecosystems of China.Science of the Total Environment, 758: 143644.
49. Xu L,He NP*, Yu GR (2020) Nitrogen storage in China’s terrestrial ecosystems.Science of the Total Environment, 709, 136201.
50. Xu L,He NP* (2020) Nitrogen storage and allocation in China’s forest ecosystems.Science China-EarthSciences, 63, 1475-1484.
51. Zhang QY, Wang QF, Zhu JX, Xu L, Li MX, Rengel Z, Xiao JF, Hobbie EA, Piao SL, Luo WT,He NP* (2020) Higher soil acidification risk in southerastern Tibetan Plateau.Science of Total Environment, 755: 143372.
52. He HL, Wang SQ, Zhang L, Wang JB, Ren XL, Zhou L, Piao SL, Yan H, Ju WM, Gu FX, Yu SY, Yang, YH, Wang MM, Niu ZG, Ge R, Yan HM, Huang M, Zhou GY, Bai YF, Xie ZQ, Tang ZY, Wu BF, Zhang LM,He NP, Wang QF, Yu GR (2019a) Altered trends in carbon uptake in China's terrestrial ecosystems under the enhanced summer monsoon and warming hiatus.National Science Review, 6, 505-514.
53. Liu Y,He NP*, Xu L, Tian J, Gao Y, Zheng S, Wang Q, Wen XF, Xu XL, Yakov K (2019) A new incubation and measurement approach to estimate the temperature response of soil organic matter decomposition.Soil Biology & Biochemistry, 138, 107596.
54. Wu HH, Lu LY, Zhang YL, Xu C, Yang H, Zhou W, Wang WQ, Zhao LR,He NP*, Smith MD, Han XG, Hartley IP, Yu Q* (2019) Sediment addition and legume cultivation result in sustainable, long-term increases in ecosystem functions of sandy grasslands.Land Degradation & Development, 30, 1667-1676.
55. Zhao N, Yu GR*, Wang QF, Wang RL, Zhang JH, Liu, CC,He NP* (2019b) Conservative allocation strategy of multiple nutrients among major plant organs: From species to community.Journal of Ecology, 10.1111/1365-2745.13256.
56. Guan S, An N, Zong N, He YT, Shi P, Zhang JJ*,He NP* (2018b) Climate warming impacts on soil organic carbon fractions and aggregate stability in a Tibetan alpine meadow.Soil Biology & Biochemistry, 116, 224-236.
57. He NP#*, Liu CC#, Tian M#, Li ML, Yang H, Yu GR, Guo DL, Smith MD, Yu Q, Hou JH* (2018) Variation in leaf anatomical traits from tropical to cold-temperate forests and linkage to ecosystem functions.Functional Ecology, 32, 10-19.
58. Liu CC,He NP*, Zhang JH, Li Y, Wang QF, Sack L, Yu GR (2018a) Variation of stomatal traits from cold temperate to tropical forests and association with water use efficiency.Functional Ecology, 32, 20-28.
59. Liu Y,He NP*, Wen XF, Xu L, Sun XM, Yu GR, Liang LY, Schipper LA (2018b) The optimum temperature of soil microbial respiration: Patterns and controls.Soil Biology & Biochemistry, 121, 35-42.
60. Liu Y, Wen XF, Zhang YH, Tian J, Gao Y, Ostle AJ, Niu SL, Chen SP, Sun XM,He NP* (2018c) Widespread asymmetric response of soil heterotrophic respiration to warming and cooling.Science of the Total Environment, 635, 423-431.
61. Lu F, Hu HF, Sun WJ, Zhu JJ, Liu GB, Zhou WM, Zhang QF, Shi PL, Liu XP, Wu X, Zhang L, Wei XH, Dai LM, Zhang KR, Sun YR, Xue S, Zhang WJ, Xiong DP, Deng L, Liu BJ, Zhou L, Zhang C, Zheng X, Cao JS, Huang Y,He NP, Zhou GY, Bai YF, Xie ZQ, Tang ZY, Wu BF, Fang JY, Liu GH, Yu GR (2018) Effects of national ecological restoration projects on carbon sequestration in China from 2001 to 2010.PNAS,115, 4039-4044.
62. Tang XL, Zhao X, Bai YF, Tang ZY, Wang WT, Zhao YC, Wan HW, Xie ZQ, Shi XZ, Wu BF, Wang GX, Yan JH, Ma KP, Du S, Li SG, Han SJ, Ma YX, Hu HF,He NP, Yang YH, Han WX, He HL, Yu GR, Fang JY, Zhou GY (2018a) Carbon pools in China's terrestrial ecosystems: New estimates based on an intensive field survey.PNAS,115, 4021-4026.
63. Tang ZY, Xu WT, Zhou GY, Bai YF, Li JX, Tang XL, Chen DM, Liu Q, Ma WH, Xiong GM, He HL,He NP, Guo YP, Guo Q, Zhu JL, Han WX, Hu HF, Fang JY, Xie ZQ (2018c) Patterns of plant carbon, nitrogen, and phosphorus concentration in relation to productivity in China's terrestrial ecosystems.PNAS,115, 6095-6096.
64. Tian J,He NP#, Hale L, Niu SL, Yu GR, Liu Y, Blagodatskaya E, Kuzyakov Y, Gao Q, Zhou JZ (2018a) Soil organic matter availability and climate drive latitudinal patterns in bacterial diversity from tropical to cold temperate forests.Functional Ecology,32, 61-70.
65. Wang CH, Wang NN, Zhu JX, Liu Y, Xu XF, Niu SL, Yu GR, Han XG,He NP* (2018a) Soil gross N ammonification and nitrification from tropical to temperate forests in eastern China.Functional Ecology, 32, 83-94.
66. Wang Q,He NP*, Xu L, Zhou XH (2018b) Microbial properties regulate spatial variation in the differences in heterotrophic respiration and its temperature sensitivity between primary and secondary forests from tropical to cold-temperate zones.Agricultural and Forest Meteorology, 262, 81-88.
67. Wang Q,He NP*, Liu Y, Li ML, Xu L, Zhou XH (2018c) Important interaction of chemicals, microbial biomass and dissolved substrates in the diel hysteresis loop of soil heterotrophic respiration.Plant and Soil, 428, 279-290.
68. Wang RL, Wang QF, Zhao N, Xu ZW, Zhu XJ, Jiao CC, Yu GR*,He NP* (2018e) Different phylogenetic and environmental controls of first-order root morphological and nutrient traits: Evidence ofmultidimensional root traits.Functional Ecology, 32, 29-39.
69. Zhang JH, Zhao N, Liu CC, Yang H, Li ML, Yu GR, Wilcox K, Yu Q*,He NP* (2018a) C:N:P stoichiometry in China's forests: From organs to ecosystems.Functional Ecology, 32, 50-60.
70. Zhang JH,He NP*, Liu CC, Xu L, Yu Q, Yu GR (2018b) Allocation strategies for nitrogen and phosphorus in forest plants.Oikos, 127, 1506-1514.
71. Zhang YH*,He NP*, Loreau M, Pan QM, Han XG* (2018e) Scale dependence of the diversity-stability relationship in a temperate grassland.Journal of Ecology, 106, 1277-1285.
72. Zhao N, Liu HM, Wang QF, Wang RL, Xu ZW, Jiao CC, Zhu JX, Yu GR*,He NP* (2018b) Root elemental composition in Chinese forests: Implications for biogeochemical niche differentiation.Functional Ecology, 32, 40-49.
73. Zheng S, Bian HF*, Quan Q, Xu L, Chen Z,He NP* (2018) Effect of nitrogen and acid deposition on soil respiration in a temperate forest in China.Geoderma, 329, 82-90.
74. He NP*#, Wen D#, Zhu JX, Tang XL, Xu L, Zhang L, Hu HF, Huang M, Yu GR* (2017) Vegetation carbon sequestration in Chinese forests from 2010 to 2050.Global Change Biology, 23, 1575-1584.
75. Li CL, Cao ZY, Chang JJ, Zhang Y, Zhu GL, Zong N, He YT, Zhang JJ*,He NP* (2017a) Elevational gradient affect functional fractions of soil organic carbon and aggregates stability in a Tibetan alpine meadow.Catena, 156, 139-148. (IF=4.33)
76. Li J,He NP*, Xu L*, Chai H, Liu Y, Wang DL, Wang L, Wei XH, Xue JY, Wen XF, Sun XM (2017c) Asymmetric responses of soil heterotrophic respiration to rising and decreasing temperatures.Soil Biology & Biochemistry, 106, 18-27.
77. Liu Y,He NP*, Zh, JX, X, L, Y, GR, Ni, SL, Su, XM, We, XF* (2017a) Regional variation in the temperature sensitivity of soil organic matter decomposition in China's forests and grasslands.Global Change Biology, 23, 3393-3402.
78. Liu Y#, Wang CH#,He NP*, Wen XF, Gao Y, Li SG, Niu SL, Butterbach-Bahl K, Luo YQ, Yu GR* (2017b) A global synthesis of the rate and temperature sensitivity of soil nitrogen mineralization: latitudinal patterns and mechanisms.Global Change Biology, 23, 455-464.
79. Yu HL,He NP#, Wang QF*, Zhu JX, Gao Y, Zhang YH, Jia YL, Yu GR (2017) Development of atmospheric acid deposition in China from the 1990s to the 2010s.Environmental Pollution, 231, 182-190.
80. Zhang YH*, Loreau M,He NP*, Zhang GM, Han XG* (2017) Mowing exacerbates the loss of ecosystem stability under nitrogen enrichment in a temperate grassland.Functional Ecology, 31, 1637-1646.
81. Zhu JX,He NP*, Zhang JH, Wang QF, Zhao N, Jia YL, Ge JP, Yu GR* (2017) Estimation of carbon sequestration in China's forests induced by atmospheric wet nitrogen deposition using the principles of ecological stoichiometry.Environmental Research Letters, 12, 10.1088/1748-9326/aa1094a1084.
82. Li N,He NP*, Yu GR*, Wang QF, Sun J (2016) Leaf non-structural carbohydrates regulated by plant functional groups and climate: Evidences from a tropical to cold-temperate forest transect.Ecological Indicators, 62, 22-31.
83. Liu Y,He NP*, Wen XF, Yu GR, Gao Y, Jia YL (2016) Patterns and regulating mechanisms of soil nitrogen mineralization and temperature sensitivity in Chinese terrestrial ecosystems.Agriculture Ecosystems & Environment, 215, 40-46.
84. Wang Q,He NP*, Liu Y, Li ML, Xu L (2016a) Strong pulse effects of precipitation events on soil microbial respiration in temperate forests.Geoderma, 275, 67-73.
85. Wang Q,He NP*, Yu GR, Gao Y, Wen XF, Wang RF, Koerner SE, Yu Q* (2016b) Soil microbial respiration rate and temperature sensitivity along a north-south forest transect in eastern China: Patterns and influencing factors.Journal of Geophysical Research-Biogeosciences,121, 399-410.
86. Wen D,He NP* (2016) Forest carbon storage along the north-south transect of eastern China: Spatial patterns, allocation, and influencing factors.Ecological Indicators, 61, 960-967.
87. Yu HL,He NP*, Wang QF*, Zhu JX, Xu L, Zhu ZL, Yu GR (2016b) Wet acid deposition in Chinese natural and agricultural ecosystems: Evidence from national-scale monitoring.Journal of Geophysical Research-Atmospheres, 121, 10995-11005.
88. Zhao N, Yu GR*,He NP*, Wang QF, Guo DL, Zhang XY, Wang RL, Xu ZW, Jiao CC, Li NN, Jia YL (2016) Coordinated pattern of multi-element variability in leaves and roots across Chinese forest biomes.Global Ecology and Biogeography, 25, 359-367.
89. Zhu JX, Wang QF*, Yu HL, Li ML,He NP* (2016a) Heavy metal deposition through rainfall in Chinese natural terrestrial ecosystems: Evidences from national-scale network monitoring.Chemosphere, 164, 128-133.
90. Zhu JX, Wang QF,He NP*, Smith MD, Elser JJ, Du JQ, Yuan GF, Yu GR, Yu Q* (2016b) Imbalanced atmospheric nitrogen and phosphorus depositions in China: Implications for nutrient limitation.Journal of Geophysical Research-Biogeosciences, 121, 1605-1616.
91. 蔡伟祥,徐丽,李明旭,孙建新,何念鹏*. 2022. 2010-2060年中国森林生态系统固碳速率省际不平衡性及调控策略.地理学报, 77(7): 1808-182
92. 于贵瑞,朱剑兴,徐丽,何念鹏. 2022.中国生态系统碳汇功能提升的技术途径:基于自然解决方案.中国科学院院刊, 37(4): 490-501.
93. 何念鹏,刘聪聪,徐丽,于贵瑞*. 2020.生态系统性状对宏生态研究的启示与挑战.生态学报, 40(8): 2507-2522.
94. 何念鹏,徐丽,何洪林*. 2020.生态系统质量评估方法的再思考—理想参照系和关键指标.生态学报, 40(6): 1877-1886.
95. 何念鹏*,刘远,徐丽,温学发,于贵瑞,孙晓敏. 2018.土壤有机质分解温度敏感性研究:培养与测定模式.生态学报,38: 4045-4051.
96. 何念鹏*,刘聪聪,徐丽,张佳慧,于贵瑞. 2018.植物性状研究之机遇与挑战:从器官到群落.生态学报, 38:6787-6796.
97. 何念鹏,张佳慧,刘聪聪,徐丽,陈智,刘远,王瑞丽,赵宁,徐志伟,田静,王情,朱剑兴,李颖,侯继华,于贵瑞*. 2018.森林生态系统之性状的空间格局与影响因素:基于中国东部样带整合分析.生态学报, 38: 6359-6382.
98. 徐丽,何念鹏*. 2020.中国森林生态系统氮含量分配特征及其影响因素.中国科学:地球科学, 50(10), 1374-1385.
99. 李娜妮,何念鹏*,于贵瑞,王若梦,王瑞丽,赵宁,徐志伟. 2016.中国东北典型森林生态系统植物叶片的非结构性碳水化合物研究.生态学报, 36: 430-438 .
100. 温丁,何念鹏*. 2016.中国森林和草地凋落物现存量的空间分布格局及其控制因素.生态学报, 36: 2876-2884
101. 柴华,何念鹏*. 2016.中国土壤容重特征及其对区域碳贮量估算的意义.生态学报, 36: 3903-3920.
102. 王瑞丽,于贵瑞,何念鹏*,王秋凤,赵宁,徐志伟.2016.气孔特征与叶片功能性状之间关联性沿海拔梯度的变化规律:以长白山为例.生态学报, 36: 2175-2184.
专著:
1. 于贵瑞,何念鹏,王秋风。2013。《中国生态系统碳收支及其碳汇功能-理论基础与综合评估》,科学出版社
2. 何念鹏,于贵瑞,刘聪聪,李颖,王瑞丽。2023。《植物功能生态学:从器官到生态系统》,科学出版社
奖励:
1. 2022年,“陆地生态系统碳-氮-水循环研究集体”,获2022年度中国科学院杰出科技成就奖(排名4/8)
2. 2022年,“生态有机碳汇的时空分布规律与驱动机制”,获贵州省自然科学一等奖(排名2/7)
3. 2008年,“吉林省西部受损草地祼碱斑改造新技术”,获吉林省科技进步二等奖(排名4/11)
其他(专利与软著):
1. 一种室内土壤微生物呼吸连续测定装置(专利号: 201210007361.X)
2. 森林生态系统固碳模型(Forest carbon sequestration model based on the secondary succession theory [FCS Model], 2016SR110832)
联系方式:
邮箱:henp@nefu.edu.cn
Resume
Dr. Nianpeng He is a professor at Northeast Forestry University, China. His research focuses on plant functional trait ecology, biogeography, and carbon sink of terrestrial ecosystems. In past decades, his group has conducted a series of innovative works on plant functional traits, and their research helps inform the mechanism of community assembly, biodiversity maintenance, and ecosystem function optimization at large scales. In addition, they have systematically evaluated the carbon stocks, carbon sequestration rate, and carbon sequestration potential under different future scenarios for forest ecosystems in China. Dr. He has successfully obtained more than 20 project grants as PI from highly competitive research funding such as the National Science and Technology Basic Resources Survey Program of China and the National Natural Science Foundation of China and published more than 120 peer-reviewed papers as the first or corresponding author.