[1] |
Bratley K, Ghoneim E, 2018. Modeling urban encroachment on the agricultural land of the eastern Nile delta using remote sensing and a GIS-based Markov chain model. Land, 7(4): 114. doi: 10.3390/land7040114 |
[2] |
Bren D’Amour C, Reitsma F, Baiocchi G et al., 2016. Future urban land expansion and implications for global croplands. Proceedings of the National Academy of Sciences of the United States of America, 114(34): 8939–8944. doi: 10.1073/pnas.1606036114 |
[3] |
Cai Yunlong, Fu Zeqiang, Dai Erfu, 2002. The minimum area per capita of cultivated land and its implication for the optimization of land resource allocation. Acta Geographica Sinica, 57(2): 127–134. (in Chinese) |
[4] |
Cheng L, Jiang P H, Chen W et al., 2015. Farmland protection policies and rapid urbanization in China: a case study for Changzhou City. Land Use Policy, 48: 552–566. doi: 10.1016/j.landusepol.2015.06.014 |
[5] |
Clark M, Tilman D, 2017. Comparative analysis of environmental impacts of agricultural production systems, agricultural input efficiency, and food choice. Environmental Research Letters, 12(6): 064016. doi: 10.1088/1748-9326/aa6cd5 |
[6] |
Deng Z Q, Zhao Q Y, Bao H X H, 2020. The impact of urbanization on farmland productivity: Implications for China’s requisition-Compensation balance of farmland policy. Land, 9(9): 311. doi: 10.3390/land9090311 |
[7] |
Fotheringham A S, Yang W B, Kang W, 2017. Multiscale geographically weighted regression (MGWR). Annals of the American Association of Geographers, 107(6): 1247–1265. doi: 10.1080/24694452.2017.1352480 |
[8] |
Fu Zeqiang, Cai Yunlong, Yang Youxiao et al., 2001. Research on the relationship of cultivated land change and food security in China. Journal of Natural Resources, 16(4): 313–319. (in Chinese) |
[9] |
Gimona A, van der Horst D, 2007. Mapping hotspots of multiple landscape functions: a case study on farmland afforestation in Scotland. Landscape Ecology, 22(8): 1255–1264. doi: 10.1007/s10980-007-9105-7 |
[10] |
Huang Hanquan, Zhou Zhen, 2020. New sistuation of global food security and China’s response. Theroy Guide, (9): 55–56. (in Chinese) |
[11] |
Jayne T S, Chamberlin J, Headey D D, 2014. Land pressures, the evolution of farming systems, and development strategies in Africa: a synthesis. Food Policy, 48: 1–17. doi: 10.1016/j.foodpol.2014.05.014 |
[12] |
Kastner T, Rivas M J I, Koch W et al., 2012. Global changes in diets and the consequences for land requirements for food. Proceedings of the National Academy of Sciences of the United States of America, 109(18): 6868–6872. doi: 10.1073/pnas.1117054109 |
[13] |
Lao X, Gu H Y, 2020. Unveiling various spatial patterns of determinants of hukou transfer intentions in China: a multi-scale geographically weighted regression approach. Growth and Change, 51(4): 1860–1876. doi: 10.1111/grow.12429 |
[14] |
Li Z G, Sun Z S, Tian Y J et al., 2019. Impact of land use/cover change on Yangtze River delta urban agglomeration ecosystem services value: temporal-spatial patterns and cold/hot spots ecosystem services value change brought by urbanization. International Journal of Environmental Research and Public Health, 16(1): 123. doi: 10.3390/ijerph16010123 |
[15] |
Liao L W, Long H L, Gao X L et al., 2019. Effects of land use transitions and rural aging on agricultural production in China’s farming area: a perspective from changing labor employing quantity in the planting industry. Land Use Policy, 88: 104152. doi: 10.1016/j.landusepol.2019.104152 |
[16] |
Lichtenberg E, Ding C R, 2008. Assessing farmland protection policy in China. Land Use Policy, 25(1): 59–68. doi: 10.1016/j.landusepol.2006.01.005 |
[17] |
Lu C, 2020. Does household laborer migration promote farmland abandonment in China? Growth and Change, 51(4): 1804–1836. doi: 10.1111/grow.12431 |
[18] |
Lu Shasha, Liu Yansui, Qin Fan, 2019a. Spatio-temporal differentiation of agricultural regional function and its impact factors in the Bohai Rim region of China. Acta Geographica Sinica, 74(10): 2011–2026. (in Chinese) |
[19] |
Lu Xinhai, Liu Ruihong, Kuang Bing, 2019b. Regional differences and dynamic evolution of cultivated land pressure in Hubei Province. Transactions of the Chinese Society of Agricultural Engineering, 35(23): 266–272. (in Chinese) |
[20] |
Luo Xiang, Luo Jing, Zhang Lu, 2015. Farmland pressure and China’s urbanisation: an empirical study with the view of geographical differences. Chinese Journal of Population Science, (4): 47–59,127. (in Chinese) |
[21] |
Lv Xinye, 2013. Review of mid- and long-term predictions of China’s grain security. China Agricultural Economic Review, 5(4): 567–582. doi: 10.1108/caer-05-2013-0086 |
[22] |
Ma Xin, Zheng Xiaoxiao, Wang Yun et al., 2021. Study on the spatial-temporal evolution of cultivated land pressure and its driving factors in central plains economic region. Chinese Journal of Agricultural Resources and Regional Planning, 42(3): 58–66. (in Chinese) |
[23] |
Mansour S, Al Kindi A, Al-Said A et al., 2021. Sociodemographic determinants of COVID-19 incidence rates in Oman: geospatial modelling using multiscale geographically weighted regression (MGWR). Sustainable Cities and Society, 65: 102627. doi: 10.1016/j.scs.2020.102627 |
[24] |
Meng Hao, Huang Xianjin, Yang Jun et al., 2019. Network structure and development concept in Huaihai Economic Zone. Economic Geography, 39(12): 1–10. (in Chinese) |
[25] |
Ministry of Land and Resources of the People’s Republic of China, 2016. China Land and Resources Statistical Yearbook 2016. Beijing: Geology Press. (in Chinese) |
[26] |
Moseley W G, Watson N H, 2016. Agriculture, food production, and rural land use in advanced placement® human geography. Journal of Geography, 115(3): 118–124. doi: 10.1080/00221341.2015.1108354 |
[27] |
Niu Shandong, Fang Bin, Cui Cui, Huang Shihui, 2020. The spatial-temporal pattern and path of cultivated land use transition from the perspective of rural revitalization: Taking Huaihai Economic Zone as an example. Journal of Natural Resources, 35(8): 1908–1925. (in Chinese). doi: 10.31497/zrzyxb.20200812 |
[28] |
National Development and Reform Commission, 2008. China’s Grain Security Program for Medium and Long-Term (2008–2020). |
[29] |
Peters C J, Picardy J, Darrouzet-Nardi A F et al., 2016. Carrying capacity of U. S. agricultural land: ten diet scenarios. Elementa:Science of the Anthropocene, 4: 000116. doi: 10.12952/journal.elementa.000116 |
[30] |
Pretty J, Bharucha Z P, 2014. Sustainable intensification in agricultural systems. Annals of Botany, 114(8): 1571–1596. doi: 10.1093/aob/mcu205 |
[31] |
Pretty J, Benton T G, Bharucha Z P et al., 2018. Global assessment of agricultural system redesign for sustainable intensification. Nature Sustainability, 1(8): 441–446. doi: 10.1038/s41893-018-0114-0 |
[32] |
Shen Tiyan, Yu Hanchen, Zhou Lin et al., 2020. On hedonic price of second-hand houses in Beijing based on multi-scale geographically weighted regression: scale law of spatial heterogeneity. Economic Geography, 40(3): 75–83. (in Chinese) |
[33] |
Skinner M W, Kuhn R G, Joseph A E, 2001. Agricultural land protection in China: a case study of local governance in Zhejiang Province. Land Use Policy, 18(4): 329–340. doi: 10.1016/S0264-8377(01)00026-6 |
[34] |
Song Xiaoqing, Ouyang Zhu, 2012. Key influencing factors of food security guarantee in China during 1999–2007. Acta Geographica Sinica, 67(6): 793–803. (in Chinese) |
[35] |
Uddin G, Oserei K, 2019. Positioning Nigeria’s manufacturing and agricultural sectors for global competitiveness. Growth and Change, 50(3): 1218–1237. doi: 10.1111/grow.12308 |
[36] |
Wang Jinfeng, Xu Chengdong, 2017. Geodetector: principle and prospective. Acta Geographica Sinica, 72(1): 116–134. (in Chinese) |
[37] |
Wang J F, Li X H, Christakos G et al., 2010. Geographical detectors-based health risk assessment and its application in the neural tube defects study of the Heshun region, China. International Journal of Geographical Information Science, 24(1): 107–127. doi: 10.1080/13658810802443457 |
[38] |
Wen Qi, Shi Linna, Ma Caihong et al., 2018. Spatial heterogeneity of multidimensional poverty at the village level: Loess Plateau. Acta Geographica Sinica, 73(10): 1850–1864. (in Chinese) |
[39] |
Wu Chuanjun, 1991. The core of study of geography: man-land relationship areal system. Economic Geography, 11(3): 1–6. (in Chinese) |
[40] |
Xin L J, Li X B, 2018. China should not massively reclaim new farmland. Land Use Policy, 72: 12–15. doi: 10.1016/j.landusepol.2017.12.023 |
[41] |
Yang Qing, Yang Zisheng, 2015. The measurement and grading of pressure on cultivated land in city-level in Yunnan province. Agricultural Science & Technology, 16(7): 1562–1564. doi: 10.3969/j.issn.1009-4229.2015.07.056 |
[42] |
Yang Xiaohuan, Cheng Chuanzhou, Li Yuejiao, 2010. Effect of cropland occupation and supplement on light-temperature potential productivity in China from 2000 to 2008. Chinese Geographical Science, 20(6): 536–544. doi: 10.1007/s11769-010-0429-x |
[43] |
Yu D, Hu S G, Tong L Y et al., 2020. Spatiotemporal dynamics of cultivated Land and its influences on grain production potential in Hunan Province, China. Land, 9(12): 510. doi: 10.3390/land9120510 |
[44] |
Zhang Hui, Wang Yang, 2017. Spatial differentiation of cropland pressure and its socio-economic factors in China based on panel data of 342 prefectural-level units. Geographical Research, 36(4): 731–742. (in Chinese) |
[45] |
Zhang K F, Thé J, Xie G Y et al., 2020. Multi-step ahead forecasting of regional air quality using spatial-temporal deep neural networks: a case study of Huaihai Economic Zone. Journal of Cleaner Production, 277: 123231. doi: 10.1016/j.jclepro.2020.123231 |
[46] |
Zhang Y, Li X B, Song W et al., 2016. Land abandonment under rural restructuring in China explained from a cost-benefit perspective. Journal of Rural Studies, 47: 524–532. doi: 10.1016/j.jrurstud.2016.06.019 |
[47] |
Zhang Yumei, Li Zhiqiang, Li Zhemin et al., 2012. China grains demand forecast analysis based on China economy-wide multi-market model. Food and Nutrition in China, 18(2): 40–45. (in Chinese) |