[1] 张方敏, 居为民, 陈镜明, 等. 基于遥感和过程模型的亚洲东部陆地生态系统初级生产力分布特征[J]. 应用生态学报, 2012, 23(2): 307 − 318.

ZHANG Fangmin, JU Weimin, CHEN Jingming, et al. Characteristics of terrestrial ecosystem primary productivity in East Asia based on remote sensing and process-based model [J]. Chin J Appl Ecol, 2012, 23(2): 307 − 318.
[2] 陈静清, 闫慧敏, 王绍强, 等. 中国陆地生态系统总初级生产力VPM遥感模型估算[J]. 第四纪研究, 2014, 34(4): 732 − 742.

CHEN Jingqing, YAN Huimin, WANG Shaoqiang, et al. Estimation of gross primary productivity in Chinese terrestrial ecosystems by using VPM model [J]. Quaternary Sci, 2014, 34(4): 732 − 742.
[3]

WANG Zheng, XIAO Xiangming, YAN Xiaodong. Modeling gross primary production of maize cropland and degraded grassland in northeastern China [J]. Agric For Meteorol, 2010, 150(9): 1160 − 1167.
[4] 刘世梁, 董玉红, 安南南, 等. 基于增强型植被指数序列和景观格局分析的松嫩平原盐碱地动态——以大安市为例[J]. 应用生态学报, 2014, 25(11): 3263 − 3269.

LIU Shiliang, DONG Yuhong, AN Nannan, et al. Dynamics of salinization land based on EVI series data and landscape pattern analysis in Songnen Plain: a case study in Da’an City [J]. Chin J Appl Ecol, 2014, 25(11): 3263 − 3269.
[5]

NEMANI R R, KEELING C D, HASHIMOTO H, et al. Climate-driven increases in global terrestrial net primary production from 1982 to 1999 [J]. Science, 2003, 300(5625): 1560 − 1563.
[6] 刘丹, 冯锐, 于成龙, 等. 基于植被指数的春玉米干旱响应遥感监测[J]. 农业工程学报, 2019, 35(20): 152 − 161.

LIU Dan, FENG Rui, YU Chenlong, et al. Remote sensing monitoring of drought response of spring maize based on vegetation indexes [J]. Trans Chin Soc Agric Eng, 2019, 35(20): 152 − 161.
[7] 叶昊天. 锡林郭勒半干旱针茅草原夜间生态系统呼吸作用及生态系统呼吸模型研究[D]. 南京: 南京信息工程大学, 2019.

YE Haotian. A Study of Nighttime Ecosystem Respiration and Ecosystem Respiration Model in a Semiarid Stipa Grassland of Xilin Gol[D]. Nanjing: Nanjing University of Information Science and Technology, 2019.
[8]

CUI Mingyue, WANG Junbang, WANG Shaoqiang, et al. Temporal and spatial distribution of evapotranspiration and its influencing factors on Qinghai-Tibet Plateau from 1982 to 2014 [J]. J Resour Ecol, 2019, 10(2): 213 − 224.
[9] 宋成刚, 李红琴, 王军邦, 等. 青海海北高寒嵩草草甸系统水分利用效率特征[J]. 干旱区资源与环境, 2017, 31(6): 90 − 96.

SONG Chenggang, LI Hongqin, WANG Junbang, et al. Characterizing ecosystem water use efficiency of alpine Kobresia meadow over the northeastern Qinghai-Tibetan Plateau [J]. J Arid Land Resour Environ, 2017, 31(6): 90 − 96.
[10]

BOVARD B D, CURTIS P S, VOGEL C S, et al. Environmental controls on sap flow in a northern hardwood forest [J]. Tree Physiol, 2005, 25(1): 31 − 38.
[11] 汪本福, 王晴芳, 李阳, 等. 干旱胁迫对水稻叶片生理生化特性的影响综述[J]. 湖北农业科学, 2019, 58(23): 5 − 9.

WANG Benfu, WANG Qingfang, LI Yang, et al. Review on the effects of drought stress on physiological and biochemical characteristics of rice leaves [J]. Hubei Agric Sci, 2019, 58(23): 5 − 9.
[12] 袁文平, 蔡文文, 刘丹, 等. 陆地生态系统植被生产力遥感模型研究进展[J]. 地球科学进展, 2014, 29(5): 541 − 550.

YUAN Wenping, CAI Wenwen, LIU Dan, et al. Satellite-based vegetation production models of terrestrial ecosystem: an overview [J]. Adv Earth Sci, 2014, 29(5): 541 − 550.
[13] 孔令颖, 扶松林, 韩晓阳, 等. 基于传统干湿指数的省域长历时气象干旱变化特征及其对旱作粮食单产的影响[J]. 水土保持研究, 2020, 27(3): 159 − 167.

KONG Lingying, FU Songlin, HAN Xiaoyang, et al. Spatiotemporal variation of long-term meteorological drought and its impacts on grain yield in Shaanxi Province based on the traditional arid-wet index [J]. Res Soil Water Conserv, 2020, 27(3): 159 − 167.
[14] 牛忠恩, 闫慧敏, 陈静清, 等. 基于VPM与MOD17产品的中国农田生态系统总初级生产力估算比较[J]. 农业工程学报, 2016, 32(4): 191 − 198.

NIU Zhong’en, YAN Huimin, CHEN Jingqing, et al. Comparison of crop gross primary productivity estimated with VPM model and MOD17 product in field ecosystem of China [J]. Trans Chin Soc Agric Eng, 2016, 32(4): 191 − 198.
[15]

XIAO Xiangming, ZHANG Qingyuan, BRASWELL B, et al. Modeling gross primary production of temperate deciduous broadleaf forest using satellite images and climate data [J]. Remote Sensing Environ, 2004, 91(2): 256 − 270.
[16] 刘正佳, 刘纪远, 邵全琴. 不同土地覆盖类型上植被生长的最适温度[J]. 地球信息科学学报, 2014, 16(1): 1 − 7.

LIU Zhengjia, LIU Jiyuan, SHAO Quanqin. Optimum temperature of vegetation growth for various land cover types in China [J]. J Geo-inf Sci, 2014, 16(1): 1 − 7.
[17]

JÖNSSON A M, EKLUNDH L, HELLSTRÖM M. Annual changes in MODIS vegetation indices of Swedish coniferous forests in relation to snow dynamics and tree phenology [J]. Remote Sensing Environ, 2010, 114(11): 2719 − 2730.
[18]

LIAW A, WIENER M. Classification and regression by randomForest [J]. R News, 2002, 2/3: 18 − 22.
[19] 郭含茹, 张茂震, 徐丽华, 等. 基于地理加权回归的区域森林碳储量估计[J]. 浙江农林大学学报, 2015, 32(4): 497 − 508.

GUO Hanru, ZHANG Maozhen, XU Lihua, et al. Geographically weighted regression based on estimation of regional forest carbon storage [J]. J Zhejiang A&F Univ, 2015, 32(4): 497 − 508.
[20] 贺忠华, 张育慧, 何月, 等. 浙江省近20年植被变化趋势及驱动因子分析[J]. 生态环境学报, 2020, 29(8): 1530 − 1539.

HE Zhonghua, ZHANG Yuhui, HE Yue, et al. Trends of vegetation change and driving factor analysis in recent 20 years over Zhejiang Province [J]. Ecol Environ Sci, 2020, 29(8): 1530 − 1539.
[21] 陈正华, 麻清源, 王建, 等. 利用CASA模型估算黑河流域净第一性生产力[J]. 自然资源学报, 2008, 23(2): 263 − 273.

CHEN Zhenghua, MA Qingyuan, WANG Jian, et al. Estimation of Heihe basin net primary producivity using the CASA model [J]. J Nat Resour, 2008, 23(2): 263 − 273.
[22] 杨明兴, 代侦勇, 杜启勇, 等. 遥感GPP模型在亚热带常绿林的应用比较[J]. 测绘地理信息, 2019, 44(1): 69 − 73.

YANG Mingxing, DAI Zhenyong, DU Qiyong, et al. Comparison of different GPP models in subtropical evergreen forest sites [J]. J Geomatics, 2019, 44(1): 69 − 73.
[23] 郭海强. 长江河口湿地碳通量的地面监测及遥感模拟研究[D]. 上海: 复旦大学, 2010.

GUO Haiqiang. Carbon Fluxes over an Estuarine Wetland: In Situ Measurement and Modeling[D]. Shanghai: Fudan University, 2010.
[24]

NIU Shuli, LI Zhixiong, XIA Jianyang, et al. Climatic warming changes plant photosynthesis and its temperature dependence in a temperate steppe of northern China [J]. Environ Exp Bot, 2007, 63(1): 91 − 101.
[25] 伍卫星, 王绍强, 肖向明, 等. 利用MODIS影像和气候数据模拟中国内蒙古温带草原生态系统总初级生产力[J]. 中国科学: 地球科学, 2008, 38(8): 993 − 1004.

WU Weixing, WANG Shaoqiang, XIAO Xiangming, et al. Using MODIS images and climate data to simulate the total primary productivity of temperate grassland ecosystem in Inner Mongolia, China [J]. Sci Sin Terrae, 2008, 38(8): 993 − 1004.