Keywords Cloud

Research Outputs

Co-authors[TOP 5]

Usage Statistics


  Total Views
 921

  Access Source
    internal: 2
    External: 919
    Domestic: 842
    Abroad: 79

  Annual Views
 702

  Access Source
    internal: 1
    External: 701
    Domestic: 638
    Abroad: 64

  Monthly Views
 107

  Access Source
    internal: 1
    External: 106
    Domestic: 100
    Abroad: 7

Visits

Visits

1. 景观生态学原理及应用 [176]
2. 近70年来中国自然地理与生存环境基础研究的重要进展与展望 [97]
3. 全球变化对生态系统服务的影响 [83]
4. 新时代自然地理学发展的思考 [81]
5. 系统认知土地资源的理论与方法 [79]
6. 土壤水分遥感反演研究进展 [78]
7. Soil properties mediate the freeze-thaw-related soil N2O and CO2 e.. [76]
8. Effects of land-use patterns on soil carbon and nitrogen variation.. [75]
9. 黄土高原水土流失治理现状、问题及对策 [70]
10. 生态地理学概念界定及其经典案例分析 [69]
11. 变化背景下的当代中国自然地理学——2017全国自然地理学大会述评 [67]
12. Evolution and effects of the social-ecological system over a mille.. [67]
13. 空间恢复力理论支持下的人地系统动态研究进展 [61]
14. 景观多样性的类型及其生态意义 [60]
15. 黄土高原流域水沙变化研究进展 [60]
16. 重点脆弱生态区生态系统服务权衡与协同关系时空特征 [59]
17. 黄土高原植被覆盖变化对生态系统服务影响及其阈值 [58]
18. Contribution of plant traits to the explanation of temporal variat.. [58]
19. 青藏高原生态安全屏障状况与保护对策 [58]
20. 连接科学与社会从第33届国际地理大会看地理学的发展态势 [57]
21. 汉江上游生态系统服务权衡与协同关系时空特征 [57]
22. 景观多功能性:概念辨析、近今进展与前沿议题 [57]
23. Water use characteristics of the common tree species in different .. [57]
24. 中国生态区划研究 [56]
25. 从生物地理区划到生态功能区划——全球生态区划研究进展 [56]
26. 陕北黄土高原柠条灌丛穿透雨特征与影响因素 [56]
27. 土地资源系统认知与国土生态安全格局 [56]
28. 重点脆弱生态区生态恢复的综合效益评估 [56]
29. Nitrogen additions increase N2O emissions but reduce soil respirat.. [56]
30. Determining spatio-temporal variations of ecological water consump.. [55]
31. 地球界限概念框架及其研究进展 [55]
32. 重点脆弱生态区生态恢复综合效益评估指标体系 [55]
33. 全球变化对生态系统服务的影响研究进展 [55]
34. 黄河流域人地系统耦合机理与优化调控 [55]
35. 社会-生态网络方法研究进展 [55]
36. Global ecological regionalization from biogeography to ecosystem s.. [54]
37. 联合国可持续发展目标与地理科学的历史任务 [54]
38. Identification of climate variables dominating streamflow generati.. [54]
39. 可持续发展目标关系研究进展 [53]
40. 陕北黄土高原典型人类活动影响下景观生态风险评价 [53]
41. Nonlinear dynamics of fires in Africa over recent decades controll.. [53]
42. Recent decline of high altitude coniferous growth due to thermo-hy.. [53]
43. Evolution and effects of the social-ecological system over a mille.. [53]
44. Impacts of Drought and Human Activity on Vegetation Growth in the .. [52]
45. Alignment of social and ecological structures increased the abilit.. [52]
46. 植物夜间液流的发生_生理意义及影响因素研究进展 [51]
47. Evapotranspiration partitioning and its implications for plant wat.. [51]
48. 黄土丘陵区小流域土地利用变化对生态环境的影响——以延安市羊圈沟流域.. [50]
49. 土壤安全:从地球关键带到生态系统服务 [50]
50. 生态系统服务与生态安全 ( Ecosystem service and ecological security.. [50]
51. 干旱半干旱草地生态系统与土壤水分关系研究进展 [50]
52. African dryland ecosystem changes controlled by soil water [50]
53. Representation of biodiversity and ecosystem services in East Afri.. [50]
54. 新时期秦岭生态文明建设:存在问题与发展路径 [50]
55. 新时期地理学的特征与任务 [49]
56. Developing policy for the Yellow River sediment sustainable contro.. [49]
57. 基于综合指标法的中国生态系统服务保护有效性评价研究 [49]
58. 黄土高原阴/阳坡向林草土壤水分随退耕年限的变化特征 [49]
59. 新时代的地理学与地理人 [49]
60. A systematic approach is needed to contain COVID-19 globally [49]
61. Quantifying the effects of human activities and climate variabilit.. [48]
62. 长江流域生态系统可持续管理策略 [48]
63. GRACE satellite-based drought index indicating increased impact of.. [48]
64. 中印城镇化区域差异及城镇体系空间演化比较 [47]
65. Increasing global vegetation browning hidden in overall vegetation.. [47]
66. Linking water research with the sustainability of the human–natur.. [47]
67. 地球关键带与地表通量综合观测研究为黄土高原生态保护和可持续发展提供.. [47]
68. Changes in global terrestrial ecosystem water use efficiency are c.. [47]
69. Reconsidering the efficiency of grazing exclusion using fences on .. [47]
70. Changes in soil organic and inorganic carbon stocks in deep profil.. [46]
71. 榆林地区无定河流域土地生态系统分类与评价 [45]
72. 黄土高原生态修复的景观生态学及恢复生态学基础 [45]
73. 地理学:从知识、科学到决策 [45]
74. 黄土高原典型区植被恢复及其对生态系统服务的影响 [45]
75. 面向全球可持续发展的地理学 [45]
76. 生态资产核算与生态系统服务评估概念交汇与重点方向 [45]
77. Challenges in coupling LTER with environmental assessments An insi.. [45]
78. Structure, function, and dynamic mechanisms of coupled human–natu.. [45]
79. 国家自然科学基金地理学科申请代码的历史沿革与发展 [45]
80. Permafrost thawing puts the frozen carbon at risk over the Tibetan.. [45]
81. Scale and landscape features matter for understanding the performa.. [45]
82. 土壤生物学前沿 [44]
83. 黄土丘陵沟壑区集水区尺度土地利用格局变化的水土流失效应 [44]
84. 半干旱黄土丘陵沟壑区不同植被类型减蚀效应及其时间变化 [44]
85. Check dam infilling archives elucidate historical sedimentary dyna.. [44]
86. Explanation of climate and human impacts on sediment discharge cha.. [44]
87. Multiscale temporal variability of flow-sediment relationships dur.. [44]
88. 重点脆弱生态区生态恢复模式现状与发展方向 [44]
89. 中国城市居民对青藏高原生态资产的支付意愿——以中国27市为例 [44]
90. 景观连接度的生态学意义及其应用 [43]
91. 西安市城乡建设用地时空扩展及驱动因素 [43]
92. 遥感反演植被含氮量研究进展 [43]
93. Effects of revegetation and precipitation gradient on soil carbon .. [43]
94. Assessing Impacts of Land Use/Land Cover Conversion on Changes in .. [43]
95. Global Dryland Ecosystem Programme (G-DEP): Africa consultative me.. [43]
96. 景观多样性测度:格局多样性的亲和度分析 [42]
97. 迈向生态学的新时代 [42]
98. Ecological effects and potential risks of the water diversion proj.. [42]
99. Developing China’s National Emission Trading Scheme Experiences f.. [42]
100. Soil moisture decline following the plantation of Robinia pseudoac.. [42]

Downloads

1. 近70年来中国自然地理与生存环境基础研究的重要进展与展望 [48]
2. 土壤水分遥感反演研究进展 [40]
3. 黄土丘陵区小流域土地利用变化对生态环境的影响——以延安市羊圈沟流域.. [37]
4. 新时代自然地理学发展的思考 [37]
5. 系统认知土地资源的理论与方法 [37]
6. 全球变化对生态系统服务的影响 [36]
7. 景观多样性的类型及其生态意义 [30]
8. 连接科学与社会从第33届国际地理大会看地理学的发展态势 [30]
9. 变化背景下的当代中国自然地理学——2017全国自然地理学大会述评 [27]
10. Evapotranspiration partitioning and its implications for plant wat.. [27]
11. Developing policy for the Yellow River sediment sustainable contro.. [26]
12. 从生物地理区划到生态功能区划——全球生态区划研究进展 [25]
13. 陕北黄土高原柠条灌丛穿透雨特征与影响因素 [25]
14. 干旱半干旱草地生态系统与土壤水分关系研究进展 [24]
15. Global ecological regionalization from biogeography to ecosystem s.. [24]
16. Quantifying the effects of human activities and climate variabilit.. [24]
17. 黄河流域人地系统耦合机理与优化调控 [24]
18. 榆林地区无定河流域土地生态系统分类与评价 [23]
19. Linking water research with the sustainability of the human–natur.. [23]
20. African dryland ecosystem changes controlled by soil water [23]
21. 黄土高原典型区植被恢复及其对生态系统服务的影响 [22]
22. Socio-ecological changes on the Loess Plateau of China after Grain.. [22]
23. New Developments and Perspectives in Physical Geography in China [22]
24. 黄土高原流域水沙变化研究进展 [22]
25. 长江流域生态系统可持续管理策略 [22]
26. Evolution and effects of the social-ecological system over a mille.. [22]
27. 景观多样性测度:格局多样性的亲和度分析 [21]
28. 迈向生态学的新时代 [21]
29. Increasing global vegetation browning hidden in overall vegetation.. [21]
30. 地球界限概念框架及其研究进展 [21]
31. 黄土高原水土流失治理现状、问题及对策 [21]
32. 重点脆弱生态区生态恢复综合效益评估指标体系 [21]
33. Scale and landscape features matter for understanding the performa.. [21]
34. 青藏高原生态安全屏障状况与保护对策 [21]
35. 植被光能利用率:模型及其不确定性 [21]
36. 景观连接度的生态学意义及其应用 [20]
37. 傅伯杰理事长在中国地理学会第十一次全国会员代表大会的讲话 [20]
38. 基于综合指标法的中国生态系统服务保护有效性评价研究 [20]
39. 斑块边缘效应的定量评价及其生态学意义 [20]
40. 黄土丘陵沟壑区集水区尺度土地利用格局变化的水土流失效应 [20]
41. 中印城镇化区域差异及城镇体系空间演化比较 [20]
42. 生态资产核算与生态系统服务评估概念交汇与重点方向 [20]
43. 植物夜间液流的发生_生理意义及影响因素研究进展 [20]
44. Structure, function, and dynamic mechanisms of coupled human–natu.. [20]
45. 生态地理学概念界定及其经典案例分析 [20]
46. 土地资源系统认知与国土生态安全格局 [20]
47. 空间恢复力理论支持下的人地系统动态研究进展 [20]
48. 联合国可持续发展目标与地理科学的历史任务 [20]
49. Water use characteristics of the common tree species in different .. [20]
50. Changes in global terrestrial ecosystem water use efficiency are c.. [19]
51. Contribution of plant traits to the explanation of temporal variat.. [19]
52. Reconsidering the efficiency of grazing exclusion using fences on .. [19]
53. 新时期地理学的特征与任务 [18]
54. 土壤安全:从地球关键带到生态系统服务 [18]
55. 地理学:从知识、科学到决策 [18]
56. Changes in soil organic and inorganic carbon stocks in deep profil.. [18]
57. Ecological effects and potential risks of the water diversion proj.. [18]
58. Impacts of Drought and Human Activity on Vegetation Growth in the .. [18]
59. Explanation of climate and human impacts on sediment discharge cha.. [18]
60. Assessing Impacts of Land Use/Land Cover Conversion on Changes in .. [18]
61. Nonlinear dynamics of fires in Africa over recent decades controll.. [18]
62. 西安市城乡建设用地时空扩展及驱动因素 [17]
63. 黄土高原生态修复的景观生态学及恢复生态学基础 [17]
64. 《土地整治规划设计研究》评介 [17]
65. 祁连山排露沟流域土壤水热与降雨脉动沿海拔梯度变化 [17]
66. Effects of revegetation and precipitation gradient on soil carbon .. [17]
67. 国家自然科学基金地理学科申请代码的历史沿革与发展 [17]
68. Alignment of social and ecological structures increased the abilit.. [17]
69. Effects of land-use patterns on soil carbon and nitrogen variation.. [17]
70. Permafrost thawing puts the frozen carbon at risk over the Tibetan.. [17]
71. Reconstruction of maximum temperature on Zhegu Mountain, western S.. [17]
72. 《长江上游山地灾害与水土流失地图集》评述 [16]
73. 一种便携式径流自动监测装置 [16]
74. Balancing community livelihoods and biodiversity conservation of p.. [16]
75. Check dam infilling archives elucidate historical sedimentary dyna.. [16]
76. Challenges in coupling LTER with environmental assessments An insi.. [16]
77. Soil moisture decline following the plantation of Robinia pseudoac.. [16]
78. The effects of vegetation on runoff and soil loss Multidimensional.. [16]
79. 可持续发展目标关系研究进展 [16]
80. 陕北黄土高原典型人类活动影响下景观生态风险评价 [16]
81. 重点脆弱生态区生态恢复的综合效益评估 [16]
82. 重点脆弱生态区生态恢复模式现状与发展方向 [16]
83. Pathways from payments for ecosystem services program to socioecon.. [16]
84. 全球变化对生态系统服务的影响研究进展 [16]
85. GRACE satellite-based drought index indicating increased impact of.. [16]
86. Identification of climate variables dominating streamflow generati.. [16]
87. Sustainable development in the Yellow River Basin: Issues and stra.. [16]
88. 社会-生态网络方法研究进展 [16]
89. 生态系统服务权衡与集成方法 [15]
90. 半干旱黄土丘陵沟壑区不同植被类型减蚀效应及其时间变化 [15]
91. 汉江上游生态系统服务权衡与协同关系时空特征 [15]
92. 黄土高原阴/阳坡向林草土壤水分随退耕年限的变化特征 [15]
93. 中国生物多样性与生态系统服务评估指标体系 [15]
94. Developing China’s National Emission Trading Scheme Experiences f.. [15]
95. Climate signal shift under the influence of prevailing climate war.. [15]
96. Nitrogen additions increase N2O emissions but reduce soil respirat.. [15]
97. Tree ring-based minimum temperature reconstruction in the central .. [15]
98. Widespread decline in terrestrial water storage and its link to te.. [15]
99. A coupled human-natural system analysis of water yield in the Yell.. [15]
100. Integrating vegetation suitability in sustainable revegetation for.. [15]