[1] |
WANG Shenghong, LU Dongfang, CHEN Yuru, TANG Yalan, ZHENG Yushan, HUANG Yubin.
Spatial-temporal variations and influencing factors of vegetation net primary productivity in Xiamen-Zhang-zhou-Quanzhou Region from 2001 to 2020.
[J]. Chinese Journal of Ecology, 2024, 43(3): 823-832.
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[2] |
JING Hongyuan, LIU Zhidong, HU Baoan, WU Huifeng, HAN Hairong.
Influences of human activities on the spatiotemporal variations of NDVI in different land covers of Shanxi Province.
[J]. Chinese Journal of Ecology, 2023, 42(4): 975-982.
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[3] |
LI Yin-jiu, LI Qiu-hua, JIAO Shu-lin.
River health evaluation based on improved analytic hierarchy process, CRITIC method and compound fuzzy matter-element VIKOR model.
[J]. Chinese Journal of Ecology, 2022, 41(4): 822-832.
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[4] |
SHI Xiao-liang, WU Meng-yue, ZHANG Na, DING Hao.
Spatial and temporal variation of vegetation water use efficiency and its response to meteorological factors in Sanjiang Plain.
[J]. cje, 2020, 39(5): 1651-1663.
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[5] |
ZHANG Yue-nan, FANG Lei, QIAO Ze-yu, CHEN Long-chi, ZHANG Wei-dong, ZHENG Xiao, JIANG Tao.
Remote sensing-based identification of forest types and the scale effect in subtropical evergreen forests.
[J]. cje, 2020, 39(5): 1636-1650.
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[6] |
LI Xiao-yong, KUANG Wen-hui.
The effects of urban land cover composition and structure on land surface temperature in Beijing, Tianjin, and Shijiazhuang.
[J]. cje, 2019, 38(10): 3057-3065.
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[7] |
HU Ze-yin, WANG Shi-jie, BAI Xiao-yong, LI Qin, WU Lu-hua, QIAN Qing-huan, XIAO Jian-yong, CHEN Fei, ZENG Cheng.
Remote sensing retrieval and spatial-temporal differentiation of land surface temperature in Guizhou Province.
[J]. cje, 2018, 37(9): 2794-2807.
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[8] |
CHI Yuan1, SHI Hong-hua1**, WANG Xiao-li2, FENG Ai-ping1.
Spatial-temporal characteristics and impact factors of land surface temperature of Five Southern Islands of Miaodao Archipelago, Shandong, China.
[J]. cje, 2015, 34(8): 2309-2319.
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[9] |
DU Ji-zeng1, WANG Gen-xu1**, LI Yuan-shou2.
Changes of land cover pattern in the source region of Yangtze River based on Markov process.
[J]. cje, 2015, 34(1): 195-203.
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[10] |
QI Jing-hui1, NIU Shu-wen1**, MA Li-bang2, WANG Wen-die1.
The characteristics and driving forces of LUCC in the middle and lower reaches of Shule River Basin.
[J]. cje, 2014, 33(8): 2207-2220.
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[11] |
WU Nan1**, ZHOU Xiao-tie1, WANG Xiao-hui1, GAO Ji-xi2, TAN Xiao-guang3, DING Xiang3, WANG Li-li4.
Evaluation on nonpoint source pollution under different land cover scenarios in typical water source areas.
[J]. cje, 2014, 33(4): 1104-1113.
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[12] |
SU Xu-kun1, DONG Shi-kui1**, LIU Shi-liang1, LIU Ying-hui2, SHI Jian-bin1, WU Yu1, ZHANG Xiang3, XU Dong-hua3.
Effects of land use/land cover change (LUCC) on habitats of Tibetan wild donkey in Aerjin Mountain National Nature Reserve.
[J]. cje, 2014, 33(1): 141-148.
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[13] |
FENG Ru1,2, MENG Xiang-fei1,2, WEI Hong1,2**, PENG Yue1,2.
Distribution pattern of land surface temperature in the Three Gorges Reservoir Region (Chongqing section) of China based on MODIS.
[J]. cje, 2013, 32(9): 2398-2406.
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[14] |
ZHANG Zhe, DING Jian-li**, YAN Xue-ying, LI Xin, WANG Gang.
Remote sensing monitoring of drought in Turkmenistan oasis based on temperature/vegetation drought index.
[J]. cje, 2013, 32(8): 2172-2178.
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[15] |
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Relationships between land surface temperature and normalized difference vegetation index based on urban land use type.
[J]. cje, 2011, 30(07): 1504-1512.
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