[1] F Y GUAN, X L TANG, S H FAN et al. Changes in soil carbon and nitrogen stocks followed the conversion from secondary forest to Chinese fir and Moso bamboo plantations. Catena, 133, 455-460(2015).

[2] Qingxiao ZHANG, Jun CHEN, Xiangtao ZHU et al. Short-term response of soil greenhouse gas emissions to moso bamboo invasion and harvesting in a cedar forest. Journal of Zhejiang Agriculture and Forestry University, 38, 703-711(2021).

[3] Peng QIN. Research on productivity and soil moisture characteristics of moso bamboo under the upper broad and lower bamboo model(2016).

[4] Qingni SONG. Effects of moso bamboo expansion on nitrogen and phosphorus allocation patterns and processes in broadleaf evergreen forests(2017).

[5] Riman XIA, Jiuhua YU, Xuejian YE et al. The current situation and countermeasures of border forest rights dispute mediation： An example from Qingyuan County， Zhejiang Province. Forestry Economics, 43-45(2012).

[6] Chao ZHANG, Lulu GAO, Wenju YUN et al. Analysis of the research progress of remote sensing technology to obtain evaluation indexes of arable land quality. Journal of Agricultural Machinery, 53, 1-13(2022).

[7] Xinrong YAN, Fengying GUAN. Progress in remote sensing monitoring of bamboo resources. Remote Sensing Technology and Applications, 35, 731-740(2020).

[8] Bingfang WU. Operational remote sensing methods for national agricultural monitoring and yield estimation. Acta Geographica Sinica, 55, 25-35(2000).

[9] O KIYOSHI, S SHINODA, F HIROKO. Causal analysis of the invasion of broad‐leaved forest by bamboo in Japan. Journal of Vegetation Science, 7, 723-728(1996).

[10] Shunyao YANG, Yuanqiu LIU, Shengmao GUO et al. Effects of moso bamboo expansion on the spatial distribution of fine root biomass of Japanese willow fir in Lushan. Jiangsu Agricultural Science, 47, 178-181(2019).

[11] Ran TONG, Benzhi ZHOU, Lina JIANG et al. Advances in research on the effects of moso bamboo invasion on forest plants and soils. Acta Ecologica Sinica, 39, 3808-3815(2019).

[12] Qingpei YANG, Bing WANG, Qirong GUO et al. Effects of moso bamboo expansion on carbon storage characteristics of evergreen broad-leaved forest ecosystems in the Dagang Mountains. Journal of Jiangxi Agricultural University, 33, 529-536(2011).

[13] Chao SONG. Community structure and carbon storage during the expansion of moso bamboo forest to broadleaf forest(2019).

[14] Xiong YAO, Kunyong YU, Yujie YANG et al. Remote sensing estimation of forest land Leaf Area Index based on random forest model. Journal of Agricultural Machinery, 48, 159-166(2017).

[15] L ZHAO, A G DAI, B DONG. Changes in global vegetation activity and its driving factors during 1982-2013. Agricultural and Forest Meteorology, 249, 198-209(2018).

[16] Yi HE, Xiaocheng ZHOU, Hongyu HUANG et al. Counting tree number in subtropical forest districts based on UAV remote sensing image. Remote Sensing Technology and Application, 33, 168-176(2018).

[17] Peiya WANG, Zhenxi WANG, Qing LI et al. Estimation of stand density in post-logging regeneration sites of Tianshan spruce forests based on UAV images. Journal of Central South University of Forestry and Technology, 40, 57-66(2020).

[18] A DAVIS GARY, L NIHAN NANCY. Nonparametric regression and short-term freeway traffic forecasting. Journal of Transportation Engineering, 117, 178-188(1991).

[19] Canghao ZHANG, Zhangping YANG, Qiaoya XIE et al. Research on the effective height of moso bamboo standing degree by remote sensing of UAV. Remote Sensing Technology and Applications, 35, 1436-1446(2020).

[20] Qian HU, Yao HU, Wei LIU. Principal component estimation and empirical analysis based on Logistic Regression. Economic Mathematics, 37, 123-129(2020).

[21] Mei DONG, Jiandong SU, Guangyu LIU et al. Object-oriented extraction and monitoring of tobacco planting surface from UAV remote sensing images. Science of Surveying and Mapping, 39, 87-90(2014).

[22] Ying ZHANG. Research on fine classification of crops by satellite hyperspectral remote sensing(2021).

[23] Jingyi LIU, Xuguang TANG, Shouhi CHANG et al. Remote sensing inversion model construction and regional estimation of forest Leaf Area Index. Remote Sensing Technology and Applications, 29, 18-25(2014).

[24] Qingfeng HUANG, Jian GAO, Zemin WU. Research on soil fertility and water-holding function of different forest types. Journal of Anhui Agricultural University, 82-86(2002).

[25] Jiasen WU, Peikun JIANG, Zuliang WANG. Effects of moso bamboo expansion on soil fertility of forest land in Tianmu Mountain National Nature Reserve. Journal of Jiangxi Agricultural University, 689-692(2008).

[26] Jun CHEN, Qingxiao ZHANG, Jiao GU et al. Initial effects of moso bamboo invasion on the growth and vegetation composition of cedar forests. Journal of Fujian Agriculture and Forestry University （Natural Science Edition）, 50, 517-523(2021).

[27] Jiao GU, Yinger MAO, Xiuxiu LI et al. Responses of leaf and fine root functional traits of Cunninghamia lanceolata to Phyllostachys edulis expansion and removal. Acta Ecologica Sinica, 43, 3286-3294(2023).

[28] Jiming SHI, Jilin ZHANG, Zhongyi JIAO et al. Preliminary study on the invasive effect of moso bamboo on cedar forests. Forestry Science and Technology of Jiangsu, 40, 7-9(2013).

[29] Guanglu LIU, Shaohui FAN, Xiaolu TANG et al. Adaptation strategies of leaf functional traits during the expansion of moso bamboo to cedar forests. Forestry Science, 53, 17-25(2017).

[30] S TOKO, N TAKAYUKI. Impact of the bambooPhyllostachys bambusoides on the light environment and plant communities on riverbanks. Journal of Forest Research, 6, 81-86(2001).

[31] Mingshen. CHENG, Na ZOU. Research progress on the impact of moso bamboo expansion on forest ecology and its control. Journal of Jianghan University （Natural Science Edition）, 49, 49-55(2021).