何念鹏

中国科学院地理科学与资源研究所

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  • 何念鹏
  • 研究员

个人简况

男,博士,研究员,博士生导师

学习经历:

1995~2002年间,在东北师范大学获得理学学士和硕士学位

2002~2005年,在中国科学院植物研究所植被与环境变化国家重点实验室获得理学博士学位

工作经历

2019.01~,中国科学院生态系统观测与模拟实验室 副主任

2005.07~2010.12,任中国科学院内蒙古草原生态系统定位研究站的执行站长(工程师,高级工程师)

2011.1~2016.12,中国科学院地理科学与资源研究所工作(副研究员,硕士研究生导师)

2017.1-至今,研究员(博士研究生导师);兼任中国科学院大学岗位教授

2006.11~2009.12,在中国科学院大气物理研究所在职博士后研究工作

2010.3~2010.6,美国Kansas State University访问学者

主要研究成果:

1)提出“系统性和匹配性”优先原则,通过联网调查途径构建了由41个典型森林和46个典型草地生态系统5760多种植物叶片-枝-干-根112种性状组成的中国生态系统性状数据库(Functional Trait database of China’s ecosystems, China_Trait)。China_Traits的优点是系统性和配套性,可弥补与国际著名的TRY数据库的不足,用于阐释从器官-物种-功能群-群落-生态系统维度的生态学问题;

2)从物种-功能群-群落多个层次阐明了植物叶片(多种)植物性状的空间变异规律和影响因素,其中气孔性状、叶片解剖结构性状、叶绿素性状的区域格局属全球首次报道,发现气孔形态性状“跷跷板式”调控机制、叶-枝-干-根间N和P优化分配机制;

3)突破了功能性状研究“器官-物种-功能群-群落”尺度拓展的技术难题,率先在复杂的天然森林群落中建立了“性状-功能”定量关系,解决了长期困绕“功能性状-功能”研究的世界性难题,拓展了群落性状的新领域;

4)原创性提出了生态系统性状概念体系(Ecosystem trait),倡导将器官水平测定传统性状在单位土地面积上标准化,既可满足生态系统生态学自身发展的需求,又可构建传统性状与宏观生态研究的桥梁,促进区域生态环境问题的解决;

5)自主发展了Q10研究新的“自动变温培养+连续自动测试”培养和测定模式(VDM模式,已成为被广泛接受的三种Q10培养与测定模式之一。在新模式支持下,通过联网测定模式较深入地阐释了区域-全球尺度土壤碳氮周转速率及其对温度变化响应(Topt、Q10、Q10-升温vs.Q10-降温)的空间格局及其影响机制研究;

6)利用多源历史数据和数据融合方法,在改进缺失容重插补方法、点-区域空间拓展方法的基础上,系统地评估了中国陆地生态系统碳贮量现状、1980s-2010s的固碳速率。基于中国区域大量森林实测数据和经典Logistic生长曲线,自主发展了中国森林生态系统固碳模型(FCS model),并对中国森林2010-2050年固碳潜力进行了评估;

7)以CERN为主构建了50多个野外站组成的中国生态系统雨水沉降联网观测网络(China_WD),开展了氮、磷、酸、重金属等近40种雨水理化性质的月动态监测,填补了相关空白。基于联网观测数据与数据整合,较系统揭示了中国(含全球)大气氮、磷、酸和重金属沉降的时空格局、变化趋势及其影响因素,并基于化学计量平衡原理提出沉降中高N:P比将进一步加剧中国陆地生态系统磷限制假说。

其它

1)通过完成上述研究内容,已发表论文160余篇;包括TREE, Nature Geoscienc, National Science Reviews, PNAS, GCB, Ecology Letters, GEB, Functional Ecology, SBB, Journal of Ecology, JGR, Geoderma, AFM, Plant and Soil 等, 其中以第一作者和通讯作者发表论文110余篇。

2)任中国科学院生态系统观测与模拟重点实验室副主任、兼任中国生态学会长期生态专业委员会委员和秘书长。

研究领域:

功能生态学、生物地理生态学、生态系统生态学

科研论文列表(*为通讯作者,#为共同第一作者)

2020年

1.Xu L, He NP*, Yu GR. 2020. Nitrogen storage in China’s terrestrial ecosystems. Science of the Total Environment, 709: 136201.

2.Xu L, He NP*. 2020. Nitrogen storage and allocation in China’s forest ecosystems. Science in China (D), in press.

3.Zhang JH, He NP*, Liu CC, Xu L, Chen Z, Li Y, Wang RM, Yu GR, Sun W, Xiao CW, Chen H, Reich P. 2020. Variation and evolution of C:N ratio among different organs enable plants to adapt to N-limited environments. Global Change Biology, doi:10.1111/GCB.14973.

4.Zhu JX. Chen Z, Wang QF, Xu L, He NP, Jia YL, Zhang QY, Yu GR. 2020. Potential transition in the effects of atmospheric nitrogen deposition in China. Environmental Pollution, 258: 113739.

5.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: 10.5846/stxb201903190515.

6.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: 10.5846/stxb201903150488.

2019年

7.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 and Evolution, 34: 200-210.

8.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 ZE, Ge R, Yan HM, Huang M, Zhou GY, Bai YF, Xie ZQ, Tang ZY, Wu BF, Zhang LM, He NP, Wang QF, Yu GR. 2019. Altered trends in carbon uptake in China’s terrestrial ecosystems under the enhanced summer monsoon and warming hiatus. National Science Review, doi.org/10.1093/nsr/nwz021

9.Li ZL, Tian DS, Wang BX, Wang JS, Wang S, Chen H, Xu X, Wang CH, He NP, Niu SL. 2019. Microbes drive global soil nitrogen mineralization and availability. Global Change Biology, 25: 1078-1088.

10.Liu CC, Li Y, Xu L, Chen Z, He NP. 2019. Variation in leaf morphological stomatal, and anatomical traits and their relationship in temperate and subtropical forests. Scientific Reports, 9: 5803.

11.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.

12.Song XW, Gao Y, Green SM, Wen XF, Dungait JAJ, Xiong BL, Quine TA, He NP. 2019. Rainfall driven transport of carbon and nitrogen along karst slopes and associative interaction characteristics. Journal of Hydrology, 573: 246-254.

13.Wu HH, Lu LY, Zhang YL, Xu C, Yang H, Zhou W, Wang WQ, Zhao LR, He NP*, Simth MD, Han XG, Hartley IP, Yu Q*. 2019. Sediment addition and legume cultivation result in sustainable, long-term increase in ecosystem functions of sandy grasslands. Land Degradation & Development, doi: 10.1002/ldr.3348.

14.Xu L, Yu GR, He NP. 2019. Increased soil organic carbon storage in Chinese terrestrial ecosystems from the 1980s to the 2010s. Journal of Geographical Sciences, 29: 49-66.

15.Yu GR#, Jia YL#, He NP#, Zhu JX, Chen Z, Wang QF, Piao SL, Liu XJ, He HL, Guo XB, Zhang W, Li P, Ding GA, Goulding K. 2019.Stabilisation of atmospheric nitrogen deposition in China over the past decade. Nature Geoscience, doi: 10.1038/s41561-019-0352-4.

16.Zhang YH, Feng JC, Loreau M, He NP, Han XG, Yu Q, Jiang L. 2019. Nitrogen addition does not reduce the role of spatial asynchrony in stabilizing grassland communities. Ecology Letters, 22: 563-571.

17.Zhao H, He NP, Xu L, Zhang XM, Wang QF, Wang B, Yu GR. 2019. Variation in the nitrogen concentration of the leaf, branch, trunk, and root in vegetation in China. Ecological Indicators, 96: 496-504.

18.Zhao N, Yu GR*, Wang QF, Wang RL, Zhang JH, Liu CC, He NP*. 2019. Conservative allocation strategy of multiple nutrients among major plant organs: Form species to community. Journal of Ecology, doi: 10.1111/1365-2745.13256.

2018年

19.Chang JJ, Zhu JX, Xu L, Gao Y, Cai XL, Peng T, Wen XF, Zhang JJ, He NP*. 2018. Rational land-use types in the karst regions of China: Insights from SOM composition and stability. Catena, 160: 345-353.

20.Guan S, An N, Zong N, He YT, Ship PL, Zhang JJ, He NP*. 2018. Climate warming might depress long-term SOC accumulation by breaking soil aggregation structure in Tibet Plateau meadows. Soil Biology and Biochemistry, 116: 224-236.

21.He NP*, Tian M, Liu CC, Li ML, Yang H, Yu GR, Guo DL, Smith M, 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.

22.Li Y, Liu CC, Zhang JH, Yang H, Wang QF, Sack L, Wu XQ, Hou JH, He NP. 2018. Variation of leaf chlorophyll content from tropical to cold-temperate forests: Mechanisms for GPP optimization. Ecological Indicators, 85: 383-389.

23.Li Y, He NP#, Hou JH, Xu L, Liu CC, Zhang JH, Wang QF, Zhang XM, Wu XQ. 2018. Factors influencing leaf chlorophyll content in natural forests at the biome scale. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2018.00064.

24.Liu Y, He NP*, Wen XF, Xu L, Sun XM, Yu GR, Liang LY, Schipper LA. 2018. The optimum temperature of soil microbial respiration: Patterns and controls. Soil Biology and Biochemistry, 121: 35-42.

25.Liu Y, Wen XF, Zhang YH, Tian J, Gao Y, Ostle NJ, Niu SL, Chen SP, Sun XM, He NP*. Widespread asymmetric response of soil heterotrophic respiration to warming and cooling. Science of Total Environment, 635: 423-431.

26.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, Sion 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. Effect of national ecological restoration project on carbon sequestration in China from 2001 to 2010. PNAS, 115: 4039-4044.

27.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. 2018. Carbon pools in China’s terrestrial ecosystems: New estimates based on an intensive field survey. PNAS, 115: 4021-4026.

28.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. 2018. Patterns of plant carbon, nitrogen, and phosphorus concentration in relation to productivity in China’s terrestrial ecosystems. PNAS, 115: 4033-4038.

29.Tian J, He NP#, Hale L, Niu SL, Yu GR, Liu Y, Blagodatskava E, Kuzyakov Y, Zhou JZ. 2018. Soil organic matter availability and climate drive latitudinal patterns in bacterial diversity from tropical to cold-temperate forests. Functional Ecology, 32:61-70.

30.Wang CH, Wang NN, Zhu JX, Liu Y, Xu XF, Niu SL, Yu GR, Han XG, He NP*. 2018. Soil gross N ammonification and nitrification from tropical to temperate forests in eastern China. Functional Ecology, 32: 83-94.

31.Wang Q, He NP*, Xu L, Zhou XH. 2018. Important interaction of chemicals, microbial biomass and dissolved substrates in the diel hysteresis loop of soil heterotrophic respiration. Plant and Soil, 428: 279-290.

32.Wang Q, He NP*, Xu L, Zhou XH. 2018. 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. Agriculture and Forest Meteorology, 262: 81-88.

33.Wang RL, Wang QF, Zhao N, Xu ZW, Zhu XJ, Jiao CC, Yu GR, He NP*. 2018. Different phylogenetic and environmental controls of first-order root morphological and nutrient traits: evidence of multidimensional root traits. Functional Ecology, 32: 29-39.

34.Xu L, Wang CY, Zhu JX, Gao Y, Li ML, Lv YL, Yu GR He NP*. 2018. Latitudinal patterns and influencing factors of soil humic carbon fractions from tropical to temperate forests. Journal of Geographical Sciences, 28:15-30.

35.Xu L, Yu GR, He NP*, Wang QF, Gao Y, Wen D, Li SG, Niu SL, Ge JP. 2018. Carbon storage in China’s terrestrial ecosystems: A synthesis. Scientific Reports, 8: 2806.

36.Xu ZW, Yu GR, Zhang XY, He NP, Wang QF, Wang SZ, Xu XF, Wang RL, Zhao N. 2018. Biogeographical patterns of soil microbial community as influenced by soil characteristics and climate across Chinese forest biomes. Applied Soil Ecology, doi: 10.1016/j.apsoil.2017.11.019.

37.Zhang JH, Zhao N, Yu GR, Li ML, Gao Y, Liu CC, Yu Q, He NP*. 2018. C:N:P stoichiometry in China’s forests: from organs to ecosystems. Functional Ecology, 32: 50-60.

38.Zhang JH, He NP*, Liu CC, Xu L, Yu Q, Yu GR. 2018. Allocation strategies for nitrogen and phosphorus in forest plants. Oikos, 127: 1506–1514.

39.Zhang YH, He NP*, Loreau M, Han XG*. 2018. Scale dependence of the diversity-stability relationship in a temperate grassland. Journal of Ecology, 106: 1277–1285.

40.Zhao H, Xu L, Wang QF, Tian J, Tang XL, Tang ZY, Xie ZQ, He NP, Yu GR. 2018. Spatial patterns and environmental factors influencing leaf carbon content in the forests and shrublands of China. Journal of Geographical Sciences, 28: 791-801.

41.Zhao N, Liu HM, Wang QF, Wang RL, Xu ZW, Jiao CC, Zhu JX, Yu GR*, He NP*. 2018. Root element composition in Chinese forests: implications for biogeochemical niche specialization. Functional Ecology, 32: 40-49.

42.Zheng S, Bian HF, Quan Q, Xu L, Chen Z, He NP*. Effect of nitrogen and acid deposition on soil respiration in a temperate forest in China. Geoderma, 329: 82-90.

43.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:培养与测定模式的新思考. 生态学报, 38: 4045-4051.

44.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.

45.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.

2017年

46.He NP, Wen D, Zhu JX, Tang XL, Xu L, Hu HF, Zhang L, Huang M, Yu GR. 2017. Vegetation carbon sequestration in Chinese forests from 2010 to 2050. Global Change Biology, 23: 1575-1584.

47.Li CL, Cao ZY, Chang JJ, Zhang Y, Zhu GL, Zong N, He YT, Zhang JJ, He NP*. 2017. Elevational gradient affect functional fractions of soil organic carbon and aggregates stability in a Tibetan alpine meadow. Catena, 156: 139-148.

48.Li J, He NP*, Xu L, Chai H, Liu Y, Wang DL, Wang L, Wei XH, Xue JY, Wen XF, Sun XM. 2017. Asymmetric responses of soil heterotrophic respiration to rising and decreasing temperatures. Soil Biology & Biochemistry, 106: 18-27.

49.Liu Y, He NP*, Xu L, Niu SL, Yu GR, Sun XM, Wen XF. 2017. Regional variation in the temperature sensitivity of soil organic matter decomposition in China’s forests and grasslands. Global Change Biology, 23:3393-3402.

50.Liu Y, Wang CH, He NP*, Wen XF, Gao Y, Li SG, Niu SL, Butterbach-Bahl B, Luo YQ, Yu GR. 2017. A global synthesis of the rate and temperature sensitivity of soil nitrogen mineralization: Spatial patterns and mechanisms. Global Change Biology, 23: 455-464.

51.Ma AN, He NP*, Xu L, Wang QF, Li ML, Yu GR. 2017. Grassland restoration in northern China is far from being achieved – Evidence from carbon variation in the last three decades. Ecosphere, 8: 10.1002/ecs2.1750.

52.Wang JS, Sun J, Xia JY, He NP, Li ML, Niu SL. 2017. Soil and vegetation carbon turnover times from tropical to boreal forests. Functional Ecology, 31: doi: 10.1111/1365-2435.12914.

53.Xu L, Wen D, Zhu JX, He NP*. 2017. Regional variation in carbon sequestration potential of forest ecosystems in China. Chinese Geographical Science, 27: 337-350.

54.Xu ZW, Yu GR, Zhang XY, He NP, Wang QF, Wang SZ, Wang RL, Zhao N, Jia CC, Wang CY. 2017. Soil enzyme activity and stoichiometry in forest ecosystems along the North-South Transect in eastern China (NSTEC). Soil Biology & Biochemistry, 104: 152-163.

55.Yu HL, He NP#, Wang QF*, Zhu JX, Gao Y, Zhang YH, Jia YL, Yu GR. 2017. Atmospheric acid deposition in China from 1990s to 2010s: A synthesis analysis. Environmental Pollution, 231: 182-190.

56.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.

57.Zhu JX, He NP*, Zhang JH, Wang QF, Zhao N, Jia YL, Ge JP, Yu GR*. 2017. Effects of atmospheric nitrogen deposition on carbon sequestration in China’s forests: On principles of ecological stoichiometry. Geographical Research Letters, 10.1088/1748-9326/aa94a4.

58.朱桂丽, 李杰, 魏学红, 何念鹏*. 2017. 青藏高寒草地植被生产力与生物多样性的经度格局. 自然资源学报, 32(2): 210-222.

59.张凯,侯继华,何念鹏. 2017. 油松叶功能性状分布特征及其控制因素.生态学报, 37(3): 736-749.

2016年

60.Gao Y, Yu GR, Yang TT, Jia YL, He NP, Zhuang J. 2016. New insight into global blue carbon estimation under human activity in land-sea interaction area: A case study of China. Earth Science Reviews, 159: 36-45.

61.He NP, Yu GR. 2016. Stoichiometrical regulation of soil organic matter decomposition and its temperature sensitivity.Ecology and Evolution, 6: 620-627.

62.Hu ZM, Li SG, Guo Q, Niu SL, He NP, Li LH, Zhang WH, Yu GR. 2016. A synthesis of the effect of grazing exclusion on carbon dynamics in grasslands in China. Global Change Biology, 22: 1385-1393.

63.Jia YL, Yu GR, Gao YN, He NP, Wang QF, Jiao CC, Zuo Y. 2016. Global inorganic nitrogen dry deposition inferred from ground and space-based measurements. Scientific Reports, 6: 19810.

64.Li NL, He NP*, Yu GR, Wang QF, Sun J. 2016. Non-structural carbohydrates of leaves regulated by growth forms and climate: Evidence from tropical to cold-temperate forest transect. Ecological Indictors, 62: 22-31.

65.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 Ecosystem & Environment, 215: 40-46.

66.Ma AN, He NP*, Yu GR, Wen D, Peng SL. 2016. Carbon storage in Chinese grassland ecosystems: Comparison of different integrative methods. Scientific Reports, 6: 21378.

67.Peng SL, Wen D, He NP*, Yu GR, Wang QF, Ma AN. 2016. Carbon storage in Chinese forest based on different integrative methods. Ecology and Evolution, 6: doi: 10.1002/ece3.2114.

68.Song GY, Li Y, Zhang JH, Hou JH, He NP*. 2016. Significant phylogenetic signal and climate-related trends in leaf caloric value from tropical to cold-temperate forests. Scientific Reports, 6: 36674.

69.Tian M, Yu GR, He NP*, Hou JH. 2016. Leaf morphological and anatomical traits from tropical to temperate coniferous forests: Mechanisms and influencing factors. Scientific Reports, 6: 19703.

70.Wang D, He NP*, Wang Q, Lv YL, Wang QF, Xu ZW, Zhu JX. 2016. Effect of temperature and moisture on SOM decomposition along an elevation gradient in Changbai Mountain, China. Pedosphere, 26(3): 399-407.

71.Wang Q, He NP*, Liu Y, Li ML, Xu L. 2016. Stronger pulse effects of small precipitation event on soil microbial respiration in temperate forests. Geoderma, 275: 67-73.

72.Wang Q, He NP*, Yu GR, Gao Y, Wen XF, Wang RF, Koerner SE, Yu Q. 2016. 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.

73.Wang RL, Yu GR, He NP*, Wang QF, Zhao N, Xu ZW, Ge JP. 2016. Latitudinal variation of leaf morphological traits from species to community along the North-South Transect of Eastern China. Journal of Geographical Sciences, 26(1): 15-26.

74.Wen D, He NP*. 2016. Spatial patterns and control mechanisms of carbon storage in forest ecosystem: evidence from the north-south transect of eastern China. Ecological Indicator, 61: 960-967.

75.Xu L, He NP*, Yu GR. 2016. Methods of evaluating soil bulk density: Impact on estimating large-scale soil organic carbon storage. Catena, 144: 94-101.

76.Yu HL, He NP*, Wang QF, Zhu JX, Xu L, Zhu ZL, Yu GR. 2016. Acid deposition in precipitation of Chinese natural ecosystems: Evidences from national-scale network monitoring. Journal of Geophysical Research-Atmosphere, 121: 10995-11005.

77.Zhang YH, Loreau M, Lü XT, He NP, Zhang GM, Han XG. 2016. Nitrogen enrichment weakens ecosystem stability through decreased species asynchrony and population stability in a temperate grassland. Global Change Biology, 22: 1445-1455.

78.Zhang YH, Stevens CJ, Lu XT, He NP, Huang JH, Han XG. 2016. Fewer new species colonize at low frequency N addition in a temperate grassland. Functional Ecology, 30: 1247-1256.

79.Zhao N, Yu GR, He NP*, Wang QF, Zhang XY, Wang RL, Xu ZW, Jiao CC, Li NN, Jia YL. 2016. Coordinated pattern of multi-element variability in the leaves and roots across Chinese forest biomes. Global Ecology and Biogeography, 25: 359-367.

80.Zhao N, Yu GR, He NP*, Xia FC, Wang QF, Wang RL, Xu ZW, Jia YL. 2016. Invariant allometric scaling of nitrogen and phosphorus in leaves, stems, and fine roots of woody plants along an altitudinal gradient. Journal of Plant Research, 129(4): 1-11.

81.Zhu JX, Wang QF, He NP*, Smith MD, Elser JJ, Du JQ, Yuan GF, Yu GR, Yu Q. 2016. Imbalanced atmospheric nitrogen and phosphorus depositions in China: Implications for nutrient limitation. Journal of Geophysical Research-Biogeoscience, 121: 1605-1616.

82.Zhu JX, Wang QF, Yu HL, Li ML, He NP*. 2016. Heavy metals deposition through rainfall in Chinese natural terrestrial ecosystems: Evidences from national-scale network monitoring. Chemsphere, 164: 128-133.

83.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.

84.王春燕, 何念鹏, 吕瑜良. 2016. 森林土壤有机碳组分纬度格局及其控制机制. 生态学报, 36: 3176-3188.

85.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

86.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.

87.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.

2015年

88.Chai H, Yu GR, He NP*, Wen D, Li J, Fang JP. 2015. Vertical distribution of soil carbon, nitrogen, and phosphorus in typical Chinese terrestrial ecosystems. Chinese Geographical Sciences, 25: 549-560.

89.Gao Y, He NP, Yu GR, Tian J, Miao CY, Yang TT. 2015. Impact of external nitrogen and phosphorus input between 2006 and 2010 on carbon cycle in China seas. Regional Environmental Change, 15(4): 631-641.

90.He NP*, Zhu JX, Wang QF. 2015. Uncertainty and perspectives in studies of atmospheric nitrogen deposition in China: A response to Liu et al. 2015. Sciences of Total Environment, 520: 302-304.

91.Li J, He NP*, Wei XH, Chai H, Wen XF, Xue JY, Zuo Y. 2015. Changes in temperature sensitivity and activation energy of soil organic matter decomposition in different Qinghai-Tibet Plateau grasslands. PlosOne, 10(7): e0132795.

92.Quan Q, He NP*, Zhang Z, Zhang YH, Gao Yang. 2015. Nitrogen enrichment and grazing accelerate vegetation restoration in degraded grassland patches. Ecological Engineering, 75: 172-177.

93.Wang C, Butterbach-Bahl K, He N, Wang Q, Xing X, Han X. 2015. Nitrogen addition and mowing affect microbial nitrogen transformations in a C4 grassland in northern China. European Journal of Soil Science, 66: 485-495.

94.Wang Q, Wang D, Wen XF, Yu GR, He NP*, Wang RF. 2015. Differences in SOM decomposition and temperature sensitivity among soil aggregate size classes in temperate grasslands. PlosOne, 10(2): e0117033.

95.Wang RL, Yu GR, He NP*, Wang QF, Zhao N, Xu ZW, Ge JP. 2015. Latitudinal variation of leaf stomatal traits from species to community level in forests: linkage with ecosystem productivity. Scientific Reports, 5: 14454.

96.Xu L, He NP*, Yu GR, Wen D, Gao Y, He HL. 2015. Differences in pedotransfer functions of bulk density lead to high uncertainty in soil organic carbon estimation at regional scales: evidence from Chinese terrestrial ecosystems. Journal of Geophysical Research: Biogeoscience, 120: 1567-1575.

97.Xue JY, Zhang HX*, He NP*, Gan YM, Wen XF, Li J, Zhang XL, Fu PB. 2015. Response of SOM decomposition to changing temperature in Zoige alpine wetland, China. Wetland Ecology & Management, 23(5): 977-987.

98.Zhan X, Yu G, He N, Jia B, Zhou M, Wang C, Zhao J, Zhao G, Wang S, Liu Y, Yan J. 2015. Inorganic nitrogen wet deposition: Evidence from the North-South Transect of Eastern China. Environmental Pollution, 204: 1-8.

99.Zhu JX, He NP*, Wang QF, Yuan GF, Wen D, Jia YL, Yu GR. 2015. The composition, spatial patterns, and influencing factors of atmospheric nitrogen deposition in Chinese terrestrial ecosystems. Sciences of Total Environment, 511: 777-785.

100.李娜妮, 何念鹏*, 于贵瑞. 2015. 中国四种典型森林常见乔木叶片非结构性碳水化合物研究. 西北植物学报, 35(9): 1846-1854.

101.田苗, 宋广艳, 赵宁, 何念鹏, 侯继华. 2015. 亚热带常绿阔叶林和暖温带落叶阔叶林叶片热值比较研究. 生态学报, 35( 23): 7709-7717

2014年

102.Gao Y, He NP*, Zhang XY. 2014. Effect of reactive nitrogen deposition on terrestrial and aquatic ecosystems. Ecological Engineering, 70: 312-318.

103.Gao Y, He NP, Yu GR, Chen WL, Wang QF. 2014. Long-term effects of different land use types on C, N, and P stoichiometry and storage in subtropical ecosystems: A case study in China. Ecological Engineering, 67: 171-181.

104.Gao Y, Zhu B, He NP, Yu GR, Wang T, Chen WL, Tian J. 2014. Phosphorus and carbon competitive sorption-desorption and associated non-point loss respond to natural rainfall events. Journal of Hydrology, 517: 447-457.

105.Gao Y, Zhu B, Yu GR, Chen WL, He NP, Wang T, Miao CY. 2014. Coupled effects of biogeochemical and hydrological processes on C, N, and P export during extreme rainfall events in a purple soil watershed in southwestern China. Journal of Hydrology, 511: 692-702.

106.Gao Y, Zhu XJ, Yu GR, He NP, Wang QF, Tian J. 2014. Water use efficiency threshold for terrestrial ecosystem carbon sequestration in China under afforestation. Agricultural and Forest Meteorology, 195: 32-37.

107.He NP, Wang RM, Zhang YH, Chen QS. 2014. Carbon and nitrogen storage in Inner Mongolian grasslands: relationship with climate and soil texture. Pedosphere, 24(3), 391-398.

108.Jia YL, Yu GR, He NP, Zhan XY, Fang HJ, Sheng WP, Zuo Y, Zhang DY, Wang QF. 2014. Spatial and decadal variations in inorganic nitrogen wet deposition in China induced by human activity. Scientific Reports, 4: 3763.

109.Quan Q, Wang CH, He NP*, Zhang Z, Wen XF, Su HX, Wang Q, Xue JY. 2014. Forest type affects the coupled relationships of soil C and N mineralization in the temperate forests of northern China. Scientific Reports, 4: 6584

110.Wang RL, Yu GR, He NP*, Wang QF, Xia FC, Zhao N, Xu ZW, Ge JP. 2014. Elevation-related differences in leaf stomatal characteristics as a function of plant growth form: evidence from Changbai Mountain, China. PlosOne, 9(12): e115395.

111.Xu ZW, Yu GR, Zhang XY, Ge JP, He NP, Wang QF, Wang D. 2014. The variations in soil microbial communities, enzyme activities and their relationships with soil organic matter decomposition along the northern slope of Changbai Mountain. Applied Soil Ecology, 86: 19-29.

112.Zhan XY, Yu GR, He NP, Fang HJ, Jia BR, Zhou M, Wang CK, Zhang JH, Zhao GD, Wang SL, Liu YF, Yan JH. 2014. Nitrogen deposition and its spatial pattern in main forest ecosystems along north-south transect of eastern China. Chinese Geographical Sciences, 24(2): 137-146.

113.Zhang YH, Han X, He NP, Long M, Han X, Huang JH, Wang QB, Han XG. 2014. Increase in ammonia volatilization from soil in response to N deposition in Inner Mongolia grasslands. Atmospheric Environment, 84: 156-162.

114.Zhang, YH, Lü XT, Isbell F, Stevens C, Han X, He NP, Zhang GM, Yu Q, Huang JH, Han XG. 2014. Rapid plant species loss at high rates and at low frequency of N addition in temperate steppe. Global Change Biology, 20: 3520-3529.

115.李杰, 魏学红, 柴华, 王若梦, 王丹, 何念鹏*. 2014. 土地利用类型对千烟洲地区森林土壤碳矿化及其温度敏感性的影响. 应用生态学报, 25(7): 1919-1926.

116.王春燕,张晋京, 吕瑜良,王莉,何念鹏*. 2014. 长期封育对内蒙古羊草草地土壤有机碳组分的影响. 草业学报, 32(5): 32-39.

117.赵宁, 张洪轩, 王若梦, 杨满业, 张艳, 赵小宁, 于贵瑞, 何念鹏*. 2014. 放牧对若尔盖高寒草甸土壤氮矿化及其温度敏感性的影响. 生态学报, 33(15): 4234-4241.

2013年

118.He NP, Wang RM, Dai JZ, Gao Y, Wen XF, Yu GR. 2013. Changes in the temperature sensitivity of SOM decomposition with grassland succession: Implications for soil C sequestration. Ecology and Evolution, 3: 5045-5054.

119.He NP, Yu Q, Wang RM, Zhang YH, Gao Y, Yu GR. 2013. Enhancement of carbon sequestration in soil in the temperature grasslands of northern China by addition of nitrogen and phosphorus. PlosOne, 8(10): e77241.

120.Gao Y, Luo ZX, He NP*, Wang MK. 2013. Metallic nanoparticle production and consumption in China between 2000 and 2010 and associative aquatic environmental risk assessment. Journal of Nanoparticle Research, 15: doi. 10.1007/ s11051-013-1681-7.

121.Gao Y,He NP*, Wang QF, Miao CY. 2013. Increase of external nutrient input impact on carbon sinks in Chinese coastal seas. Environmental Science & Technology, 47: 13215-13216.

122.Lü XT, Reed S, Yu Q, He NP, Wang ZW, Han XG. 2013. Convergent responses of nitrogen and phosphorus resorption to nitrogen inputs in a semi-arid grassland. Global Change Biology, 19: 2775-2784.

123.Gao Y, Yu GR, He NP. 2013. Equilibration of the terrestrial water, nitrogen, and carbon cycles: Advocating a health threshold for carbon storage. Ecological Engineering, 57: 366-374.

124.Zhang YH, He NP, Zhang GM, Huang JH, Wang QB, Pan QM, Han XG. 2013. Ammonia emission from soil under sheep grazing in Inner Mongolian grasslands of China. Journal of Arid Land, 5(2): 155-165.

125.徐丽,于书霞,何念鹏*,温学发,石培礼,张扬建,代景忠,王若梦. 2013. 青藏高原高寒草地土壤碳矿化及其温度敏感性,植物生态学报, 37(11): 988-997.

126.朱剑兴, 王秋凤, 何念鹏*, 王若梦, 代景忠. 2013. 内蒙古不同类型草地土壤氮矿化及其温度敏感性. 生态学报, 33(19): 6320-6327.

127.王丹, 吕瑜良, 徐丽, 何秀, 徐志伟, 赵宁, 王瑞丽, 何念鹏*. 2013. 植被类型变化对长白山森林土壤碳矿化及其温度敏感性的影响. 生态学报, 33(19): 6373-6381.

128.王若梦, 董宽虎, 何念鹏*, 朱剑兴, 代景忠, 施侃侃. 2013. 围封对内蒙古大针茅草地土壤碳矿化及其激发效应的影响. 生态学报, 33(12): 3622-3629.

129.王丹, 吕瑜良, 徐丽, 张洪轩, 王若梦, 何念鹏*. 2013. 水分和温度对若尔盖湿地和草甸土壤碳矿化的影响. 生态学报, 33(20): 6436-6443.

2012年

130.Gao Y, Yu GR, He NP, He HL, Wang QF, Fang HJ. 2012. Is there an existing healthy threshold for carbon storage in the ecosystem? Environmental Science & Technology 46: 4687-4688.

131.He NP, Chen QS, Li LH, Yu GR, Han XG. 2012a. Warming and increased precipitation individually influence soil carbon sequestration of Inner Mongolian grasslands, China. Agriculture Ecosystem & Environment, 158: 184-191.

132.He NP, Zhang YH, Dai JZ, Han XG, Baoyin TGT, Yu GR. 2012b. Land-use impact on soil carbon and nitrogen sequestration in typical steppe ecosystems, Inner Mongolia. Journal of Geographical Sciences, 22: 859-873.

133.He NP, Zhang YH, Dai JZ, Han XG, Yu GR. 2012c. Losses in carbon and nitrogen stocks in soil particle-size fractions along cultivation chronosequences in Inner Mongolian grasslands. Journal of Environmental Quality, 41:1507-1516.

134.Yu Q, Wu HH, He NP, Lu XT, Wang ZP, Elser JJ, Wu JG, Han XG. 2012. Testing growth-rate hypothesis in vascular plants with above- and below-ground biomass. PlosOne, 7(3): e32162.

135.何念鹏, 韩兴国, 于贵瑞. 2012. 火烧对长期封育草地土壤碳固持效应的影响. 生态学报, 32(14): 4388-4395.

136.代景忠, 卫智军, 何念鹏*, 王若梦, 温学华, 张云海, 赵小宁, 于贵瑞. 2012. 封育对羊草草地土壤碳矿化激发效应和温度敏感性的影响. 植物生态学报, 36(12): 1226-1236.

137.何念鹏, 韩兴国, 于贵瑞. 2012. 内蒙古放牧草地土壤碳固持速率和潜力. 生态学报, 32(3): 844-851.

2011年

138.He NP, Han XG, Yu GR, Chen QS. 2011. Divergent changes in plant community composition under 3-decade grazing exclusion in continental steppe. PlosOne, 6(11): e26506.

139.He NP, Zhang YH, Yu Q, Chen QS, Pan QM, Zhang GM, Han XG. 2011. Grazing intensity impacts soil carbon and nitrogen storage of continental steppe. Ecosphere, 2011, 2(1): art8.

140.Yu Q, Elser JJ, He NP, Wu HH, Chen QS, Zhang GM, Han XG. 2011. Stoichiometric homeostasis of vascular plants in the Inner Mongolia grassland. Oecologia, 166: 1-10.

141.何念鹏*, 韩兴国, 于贵瑞. 2011. 长期封育对不同类型草地碳贮量及其固持速率的影响. 生态学报, 31(15): 4270-4276.

142.何念鹏, 王秋凤, 刘颖慧, 任伟, 于贵瑞. 2011.区域尺度陆地生态系统碳增汇途径及其可行性分析. 地理科学进展, 30(7): 788-794.

2010年

143.Yu Q, Chen Q S, Elser J J, He NP, Wu HH, Zhang GM, Wu JG, Bai YF, Han XG. 2010. Linking stoichiometric homoeostasis with ecosystem structure, functioning and stability. Ecology letters, 11: 1390-1399.

144.Jiang SC, He NP*, Wu L, Zhou DW. 2010. Vegetation restoration of secondary bare saline-alkali patches in the Songnen plain, China. Applied Vegetation Sciences, 13: 47-55.

2009年

145.He NP, Wu L, Wang YS, Han XG. 2009. Changes in carbon and nitrogen in soil particle-size fractions along a grassland restoration chronosequence in northern China. Geoderma, 150: 302-308.

2008年

146.He NP, Wu L, Wang YS, Han XG. 2008. Carbon and nitrogen store and storage potential as affected by land-use in a Leymus chinensis grassland of northern China. Soil Biology & Biochemistry, 40: 2952-2959.

147.Wu L, He NP*, Wang YS, Han XG. 2008. Storage and dynamics of carbon and nitrogen in soil after grazing exclusion in Leymus chinensis grasslands of northern China. Journal of Environmental Quality, 37: 663-668.

2005年

148.He NP, Han XG, Pan QM. 2005. Variations in VOCs emission potential of plant functional groups in the temperate grassland vegetation of Inner Mongolia, China. Acta Botanica Sinica, 47: 13-19.

149.Wu L, He NP, Zhou DW. 2005. Seed movement of bare alkali-saline patches and their potential role in the ecological restoration in Songnen grassland, China. Journal of Forestry Research, 16: 270-274.

150.何念鹏, 吴泠, 姜世成, 周道玮. 2005. 播种虎尾草对松嫩草地次生光碱斑治理的初步研究. 草业学报, 14(6): 79-81.

151.何念鹏, 韩兴国, 潘庆民. 2005. 植物源VOCs及其对陆地生态系统碳循环的贡献. 生态学报, 25(8): 2041-2048.

2004年 (及以前)

152.He NP, Han XG, Sun W, Pan QM. 2004. Biogenic VOCs emission inventory development of temperate grassland vegetation in Xilin river basin, Inner Mongolia, China. Journal of Environmental Science, 16: 1024-1032.

153.何念鹏, 吴泠, 周道玮. 2004. 扦插玉米秸秆对光碱斑地虎尾草和角碱蓬存活率的影响. 植物生态学报, 28(2): 258–263.

154.何念鹏,吴泠, 姜世成, 周道玮*. 2004. 扦插玉米秸秆改良松嫩平原次生光碱斑的研究. 应用生态学报, 15(6): 969-972.

155.何念鹏, 吴泠, 周道玮. 2004. 松嫩草地次生光碱斑种子流及其生态恢复意义. 生态学报, 24(6): 843-847.

156.何念鹏, 吴泠, 周道玮. 2004. 放牧对松嫩平原农牧交错区防护林下草地的影响. 应用生态学报, 15(5): 795-798.

157.何念鹏, 吴泠, 周道玮. 2004. 松嫩草地两种趋异型羊草克隆构型特征比较. 应用生态学报, 15(10): 2393-2395.

158.吴泠, 何念鹏, 周道玮. 2004. 松嫩平原农牧交错区牲畜放牧场的空间转移. 生态学报, 24(1): 167-171.

159.何念鹏, 周道玮, 吴泠, 张玉芬. 2001. 人为干扰强度对村级景观破碎度的影响. 应用生态学报, 12(6): 897-899.

160.何念鹏, 周道玮,吴泠. 2001. 极端干旱干扰下松嫩草原土壤含水量与植物的反映. 干旱区资源与环境, 15(3): 52-56.

161.何念鹏, 周道玮, 孙刚, 吴泠. 2001. 人为干扰强度对村级景观结构特征的影响. 农村生态环境, 17(2): 9-12.

162.吴泠, 何念鹏, 周道玮. 2001. 玉米秸秆改良松嫩盐碱地的初步研究. 中国草地, 23(6): 34-38.

专著:

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

获科研奖励情况

“吉林省西部受损草地祼碱斑改造新技术”获2008年吉林省科技进步二等奖1项(排名第4)

专利申请情况

一种室内土壤微生物呼吸连续测定装置(专利号: 201210007361.X)

软件著作权

森林生态系统固碳模型 (Forest carbon sequestration model based on the secondary succession theory [FCS Model], 2016SR110832)

主持或参与科研项目情况

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项目,SQ2019FY010024, 负责人)

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,负责人)

2020-2023, 北方典型植被自然保护区生物多样性评估和维持机制(中国科学院战略先导专项子课题, XDA2308401,负责人)

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, 主持人);

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,主持人);

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,主持人);

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,主持人);

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,主持人);

2014-2016年,青藏高寒草地土壤碳矿化及其温度敏感性研究(中国科学院地理资源所可桢青年杰出人才项目, 主持人);

2016-2020年,基于地面观测与近地面遥感数据融合的的生态系统评估参照系数据集构建(十三五重点研发项目,2016YFC0500202,骨干);

2016-2019年,喀斯特关键带岩石-土壤-生物-大气连续体的碳过程及其控制机制(国家自然科学基金重大项目, 41571130043, 骨干);

2016-2018年,植物功能性状与森林生态系统功能:联网观测(实验室优秀青年团队项目,LENOM2016Q0005, 负责人);

2013-2017年,森林生态系统碳-氮-水交换能量计量平衡及其时空格局(自然科学基金重大项目, 31290220,骨干)