Abstract
Reconstructing historical land use and land cover change using explicit temporal, quantitative, and spatial information is not only the prerequisite for simulating long-term climate change and ecological effects but is also a scientific basis for comprehensively understanding the process and mechanism of anthropogenic land use alterations. Considering changes in historical borders and administrative divisions, a provincial cropland area dataset for China over the past millennium was created on the basis of existing estimations since the Song Dynasty. Land suitability for cultivation was then assessed by incorporating altitude, slope, soil texture, and the maximum potential productivity of climate. Subsequently, a gridding allocation model for cropland was constructed, and the provincial cropland area for 24 years over the past millennium was allocated into grids with a resolution of 10 km. The cropland area in China increased from 3.71×107 ha in AD 1000 to 12.92×107 ha in AD 1999, with a peak of 13.50×107 ha in AD 1980. The total cropland area in China showed fluctuating increasing trends that can be divided into three phases: fluctuation without notable net change for AD 1000–1290, slow increase for AD 1290–1661, and rapid increase for AD 1661–1999. Spatially, cropland intensified in the middle-lower reaches of the Yellow and Yangtze Rivers and expanded to mountainous and frontier areas over the last millennium. Specifically, over the entire period, the fractional cropland areas (FCAs) in the middle-lower reaches of the Yellow and Yangtze Rivers increased by 1.4 and 0.8 times, respectively. Since the mid-Qing Dynasty, large-scale land reclamation expanded to areas of low reclamation in southwest and northeast China. The FCAs for southwest and northeast China increased from 2.13% and 0.55% in AD 1661 to 18.00% and 26.61% in AD 1999, respectively. For AD 1661–1999, the proportion of cropland increased by 55% in the hills and low mountains and 27% in the middle and high mountains. The comparison with remote sensing cropland data shows that the grid cells with absolute differences of 0–10% accounted for 70.35% of all grid cells, while grids with differences exceeding 60% accounted for only 0.83%. This finding indicates that the reconstruction method is feasible, and the reconstruction results objectively reveal the historical spatiotemporal changes in cropland.
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References
An C B, Zhang M, Wang W, Liu Y, Duan F T, Dong W M. 2020. The pattern of Xinjiang physical geography and its relationship with the temporal-spatial distribution of agriculture and husbandry (in Chinese). Sci Sin Terrae, 50: 295–304
Cao S J. 2000. Population History of China. Vol. 4 (in Chinese). Shanghai: Fudan University Press. 240–247
Cao S J. 2001. Population History of China. Vol. 5 (in Chinese). Shanghai: Fudan University Press. 691–719
Ellis E C, Kaplan J O, Fuller D Q, Vavrus S, Klein Goldewijk K, Verburg P H. 2013. Used planet: A global history. Proc Natl Acad Sci USA, 110: 7978–7985
Fang X, Zhao W, Zhang C, Zhang D, Wei X, Qiu W, Ye Y. 2020. Methodology for credibility assessment of historical global LUCC datasets. Sci China Earth Sci, 63: 1013–1025
Fuchs R, Herold M, Verburg P H, Clevers J G P W, Eberle J. 2015. Gross changes in reconstructions of historic land cover/use for Europe between 1900 and 2010. Glob Change Biol, 21: 299–313
Fuchs R, Herold M, Verburg P H, Clevers J G P W. 2013. A high-resolution and harmonized model approach for reconstructing and analysing historic land changes in Europe. Biogeosciences, 10: 1543–1559
Ge Q S, Dai J H, He F N, Pan Y, Wang M M. 2008. Land use changes and their relations with carbon cycles over the past 300 a in China. Sci China Ser D-Earth Sci, 51: 871–884
Ge Q, Dai J, He F, Zheng J, Man Z, Zhao Y. 2004. Spatiotemporal dynamics of reclamation and cultivation and its driving factors in parts of China during the last three centuries. Prog Nat Sci, 14: 605–613
Guo R, Liu F G, Chen Q, Zhou Q, Gu X J, Cai X C M. 2021. Reconstruction of cultivated land pattern in the upper reaches of the Yellow River in the late Northern Song Dynasty: Take Hehuang Valley as an example (in Chinese). J Nat Reso, 36: 27–36
Han M L. 2012. Historical Agricultural Geography of China (in Chinese). Beijing: Peking University Press. 13–47
He F, Li M, Li S. 2017. Reconstruction of Lu-level cropland areas in the Northern Song Dynasty (AD 976–1078). J Geogr Sci, 27: 606–618
He F N, Li M J, Yang F. 2019. Main progress in historical land use and land cover change in China during the past 70 years (in Chinese). J Chin Hist Geogr, 34: 5–16
He F, Li S, Zhang X, Ge Q, Dai J. 2013. Comparisons of cropland area from multiple datasets over the past 300 years in the traditional cultivated region of China. J Geogr Sci, 23: 978–990
Hou Y F. 2001. Population History of China. Vol. 6 (in Chinese). Shanghai: Fudan University Press. 97–223
Kaplan J O, Krumhardt K M, Ellis E C, Ruddiman W F, Lemmen C, Goldewijk K K. 2011. Holocene carbon emissions as a result of anthropogenic land cover change. Holocene, 21: 775–791
Kaplan J O, Krumhardt K M, Zimmermann N. 2009. The prehistoric and preindustrial deforestation of Europe. Quat Sci Rev, 28: 3016–3034
Kaplan J, Krumhardt K, Gaillard M J, Sugita S, Trondman A K, Fyfe R, Marquer L, Mazier F, Nielsen A. 2017. Constraining the deforestation history of Europe: Evaluation of historical land use scenarios with pollen-based land cover reconstructions. Land, 6: 91
Klein Goldewijk K, Beusen A, Doelman J, Stehfest E. 2017. Anthropogenic land use estimates for the Holocene-HYDE 3.2. Earth Syst Sci Data, 9: 927–953
Klein Goldewijk K, Beusen A, Van Drecht G, De Vos M. 2011. The HYDE 3.1 spatially explicit database of human-induced global land-use change over the past 12,000 years. Glob Ecol Biogeogr, 20: 73–86
Leite C C, Costa M H, Soares-Filho B S, de Barros Viana Hissa L. 2012. Historical land use change and associated carbon emissions in Brazil from 1940 to 1995. Glob Biogeochem Cycle, 26: GB2011
Li B B, Fang X Q, Ye Y, Zhang X Z. 2010. Accuracy assessment of global historical cropland datasets based on regional reconstructed historical data—A case study in Northeast China. Sci China Earth Sci, 53: 1689–1699
Li B B, Fang X Q, Ye Y, Zhang X Z. 2014. Carbon emissions induced by cropland expansion in Northeast China during the past 300 years. Sci China Earth Sci, 57: 2259–2268
Li K, He F N, Zhang X Z. 2011. An approach to reconstructing spatial distribution of historical cropland with grid-boxes by utilizing MODIS land cover dataset: A case study of Yunnan Province in the Qing Dynasty (in Chinese). Geogr Res, 30: 2281–2288
Li M J, He F N, Li S C, Yang F. 2018b. Reconstruction of the cropland cover changes in eastern China between the 10th century and 13th century using historical documents. Sci Rep, 8: 13552
Li M J, He F N, Yang F, Li S C. 2018a. Reconstructing provincial cropland area in eastern China during the early Yuan Dynasty (AD1271–1294). J Geogr Sci, 28: 1994–2006
Li M J, He F N, Yang F, Zhao L. 2020. Reconstruction of provincial cropland area and its spatial-temporal characteristics in the Ming Dynasty (in Chinese). Geogr Res, 39: 447–460
Li M J. 2019. Reconstruction of cropland change data for eastern Asia and its spatial-temporal characteristics analysis in the last millennium (in Chinese). Doctoral Dissertation. Beijing: Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences. 1–158
Li S C, He F N, Zhang X Z, Zhou T Y. 2019. Evaluation of global historical land use scenarios based on regional datasets on the Qinghai-Tibet Area. Sci Total Environ, 657: 1615–1628
Li S C, He F N, Zhang X Z. 2016. A spatially explicit reconstruction of cropland cover in China from 1661 to 1996. Reg Environ Change, 16: 417–428
Li S C, Zhang Y L, He F N. 2015. Reconstruction of cropland distribution in Qinghai and Tibet for the past one hundred years and its spatiotemporal changes (in Chinese). Prog Geogr, 34: 197–206
Lin S, Zheng J, He F. 2009. Gridding cropland data reconstruction over the agricultural region of China in 1820. J Geogr Sci, 19: 36–48
Mendelsohn R, Sohngen B. 2019. The net carbon emissions from historic land use and land use change. J Forest Econ, 34: 263–283
Nikiel C A, Eltahir E A B. 2019. Summer climate change in the Midwest and Great Plains due to agricultural development during the twentieth century. J Clim, 32: 5583–5599
Pongratz J, Reick C, Raddatz T, Claussen M. 2008. A reconstruction of global agricultural areas and land cover for the last millennium. Glob Biogeochem Cycle, 22: GB3018
Ramankutty N, Foley J A. 1999. Estimating historical changes in global land cover: Croplands from 1700 to 1992. Glob Biogeochem Cycle, 13: 997–1027
Ramankutty N. 2012. Global Cropland and Pasture Data from 1700–2007, available at: http://www.geog.mcgill.ca/nramankutty/Datasets/Datasets.html
Scott C E, Monks S A, Spracklen D V, Arnold S R, Forster P M, Rap A, Äijälä M, Artaxo P, Carslaw K S, Chipperfield M P, Ehn M, Gilardoni S, Heikkinen L, Kulmala M, Petäjä T, Reddington C L S, Rizzo L V, Swietlicki E, Vignati E, Wilson C. 2018. Impact on short-lived climate forcers increases projected warming due to deforestation. Nat Commun, 9: 157
Stephens L, Fuller D, Boivin N, Rick T, Gauthier N, Kay A, Marwick B, Armstrong C G, Barton C M, Denham T, Douglass K, Driver J, Janz L, Roberts P, Rogers J D, Thakar H, Altaweel M, Johnson A L, Sampietro Vattuone M M, Aldenderfer M, Archila S, Artioli G, Bale M T, Beach T, Borrell F, Braje T, Buckland P I, Jiménez Cano N G, Capriles J M, Diez Castillo A, Çilingiroğlu Ç, Negus Cleary M, Conolly J, Coutros P R, Covey R A, Cremaschi M, Crowther A, Der L, di Lernia S, Doershuk J F, Doolittle W E, Edwards K J, Erlandson J M, Evans D, Fairbairn A, Faulkner P, Feinman G, Fernandes R, Fitzpatrick S M, Fyfe R, Garcea E, Goldstein S, Goodman R C, Dalpoim Guedes J, Herrmann J, Hiscock P, Hommel P, Horsburgh K A, Hritz C, Ives J W, Junno A, Kahn J G, Kaufman B, Kearns C, Kidder T R, Lanoë F, Lawrence D, Lee G A, Levin M J, Lindskoug H B, López-Sáez J A, Macrae S, Marchant R, Marston J M, McClure S, McCoy M D, Miller A V, Morrison M, Motuzaite Matuzeviciute G, Müller J, Nayak A, Noerwidi S, Peres T M, Peterson C E, Proctor L, Randall A R, Renette S, Robbins Schug G, Ryzewski K, Saini R, Scheinsohn V, Schmidt P, Sebillaud P, Seitsonen O, Simpson I A, Sołtysiak A, Speakman R J, Spengler R N, Steffen M L, Storozum M J, Strickland K M, Thompson J, Thurston T L, Ulm S, Ustunkaya M C, Welker M H, West C, Williams P R, Wright D K, Wright N, Zahir M, Zerboni A, Beaudoin E, Munevar Garcia S, Powell J, Thornton A, Kaplan J O, Gaillard M J, Klein Goldewijk K, Ellis E. 2019. Archaeological assessment reveals Earth’s early transformation through land use. Science, 365: 897–902
Tan Q X. 1982. The Historical Atlas of China (in Chinese). Beijing: SinoMaps Press
Tian H Q, Banger K, Bo T, Dadhwal V K. 2014. History of land use in India during 1880–2010: Large-scale land transformations reconstructed from satellite data and historical archives. Glob Planet Change, 121: 78–88
Verburg P H, Crossman N, Ellis E C, Heinimann A, Hostert P, Mertz O, Nagendra H, Sikor T, Erb K H, Golubiewski N, Grau R, Grove M, Konaté S, Meyfroidt P, Parker D C, Chowdhury R R, Shibata H, Thomson A, Zhen L. 2015. Land system science and sustainable development of the earth system: A global land project perspective. Anthropocene, 12: 29–41
Wang Y H. 1980. Some experiences and lessons of historical land use in China (in Chinese). Agric Sci China, 1: 90–96
Wu S D. 2000. Population History of China. Vol. 3 (in Chinese). Shanghai: Fudan University Press. 418–570
Wu Z L, Fang X Q, Jia D, Zhao W Y. 2020. Reconstruction of cropland cover using historical literature and settlement relics in farming areas of Shangjing Dao during the Liao Dynasty, China, around 1100 AD. Holocene, 30: 1516–1527
Yang X H, Jin X B, Guo B B, Long Y, Zhou Y K. 2015. Research on reconstructing spatial distribution of historical cropland over 300years in traditional cultivated regions of China. Glob Planet Change, 128: 90–102
Yang X, Jin X, Xiang X, Fan Y, Liu J, Shan W, Zhou Y. 2019. Carbon emissions induced by farmland expansion in China during the past 300 years. Sci China Earth Sci, 62: 423–437
Yang X H, Xue Q F, Zhou Y K. 2021. Reconstruction of farmland dataset of Taiwan province in recent 300 years (in Chinese). J Nat Reso, 36: 2163–2178
Ye Y, Fang X Q, Ren Y Y, Zhang X Z, Chen L. 2009. Cropland cover change in Northeast China during the past 300 years. Sci China Ser D-Earth Sci, 52: 1172–1182
Yu S S, Zhang Z X, Liu F, Wang X, Hu S G. 2019. Assessing interannual urbanization of China’s six megacities since 2000. Remote Sens, 11: 2138
Zhang A F. 2017. The Study on the Economy of Western Region Reclamation and Xinjiang Development (in Chinese). Guangzhou: Guangdong People’s Press
Zhang C P. 2020. Development of a gridded allocation algorithm of historical cropland derived from the physiogeographic factors—A case study of China (in Chinese). Doctoral Dissertation. Beijing: Beijing Normal University. 1–155
Zhang D Y, Fang X Q, Yang L E. 2021. Comparison of the HYDE cropland data over the past millennium with regional historical evidence from Germany. Reg Environ Change, 21: 15
Zhang P Y. 1996. Historical Climate Change in China (in Chinese). Jinan: Shangdong Science and Technology Press. 403–406
Zhao Y Z. 2010. Study on Reclamation of the Silk Road (in Chinese). Urumqi: Xinjiang People’s Press. 115–210
Zou Y L. 1995. The shift of the northern farming-pastoral transitional zone and the change of cold and warm climate in the Ming and Qing dynasties (in Chinese). J Fudan Univ-Soc Sci, 1: 25–33
Zumkehr A, Campbell J E. 2013. Historical U.S. cropland areas and the potential for bioenergy production on abandoned croplands. Environ Sci Technol, 47: 3840–3847
Acknowledgements
This work was supported by the National Key Research and Development Program of China (Grant No. 2017YFA0603304) and the Chinese Academy of Sciences Strategic Priority Research Program (Grant No. XDA19040101).
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He, F., Yang, F., Zhao, C. et al. Spatially explicit reconstruction of cropland cover for China over the past millennium. Sci. China Earth Sci. 66, 111–128 (2023). https://doi.org/10.1007/s11430-021-9988-5
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DOI: https://doi.org/10.1007/s11430-021-9988-5