Science & Technology Review >

2020 , Vol. 38 >Issue 13: 39 - 46

DOI: https://doi.org/10.3981/j.issn.1000-7857.2020.13.005

Exclusive: Theory and Practice of Chinese Geography

Land system: From integration to generation

  • QIN Zhangxuan ,
  • LIU Xiaolin ,
  • ZHOU Meijun ,
  • LI Fei
Expand
  • Collage of Urban and Environmental Science, Northwest University, Xi'an, 710127, China

Received date: 2019-12-30

  Revised date: 2020-05-24

  Online published: 2020-08-05

Fold

Abstract

The land system science is indeed a fascinating field. However, it does face challenges, such as it is difficult to integrate due to its complexity. This paper reviews the researches of the land systems, in order to find an effective way to understand scientifically the land systems based on the ideas of the generative theory in the systems science. It is shown that the cognition and the understanding of the land systems from the perspective of the system generation theory can help more closely come to the essence that the land systems are complex open systems generated by the transformation, the utilization and the adaptation by human beings of the earth's land surface and certain spaces above and below it, including the geographical environment, the land use and the social economy, all of which are mutually interconnected. As open and complex systems, the land systems feature the multifunctionality, the energy conversion, the material production, the ecological maintenance, the resource supply, the social security, and the cultural nurture. With the system generation theory as the logical starting point, and based on the theory of the hypercycle, the regional differentiation and the geographical process, the study of the land systems should not only focus on the basic researches of the land system generation mechanism, the process, the adaptability, and the tele coupling, but also solve the problems of the two-way collaboration between the science and the policy practices.

Key words: land system; land system architecture; land system function; system generation theory

Cite this article

QIN Zhangxuan , LIU Xiaolin , ZHOU Meijun , LI Fei . Land system: From integration to generation[J]. Science & Technology Review, 2020 , 38(13) : 39 -46 . DOI: 10.3981/j.issn.1000-7857.2020.13.005

References

[1] Turner B L Ⅱ, Matson P A, Mccarthy J J, et al. Illustrating the coupled human-environment system for vulnerability analysis:Three case studies[J]. Proceedings of the National Academy of Sciences of the United States of America, 2003, 100(14):8080-8085.
[2] Srinivasan V, Seto K C, Emerson R, et al. The impact of urbanization on water vulnerability:A coupled; humanenvironment system approach for Chennai, India[J]. Global Environmental Change, 2013, 23(1):229-239.
[3] 樊杰. 人地系统可持续过程、格局的前沿探索[J]. 地理学报, 2014, 69(8):1060-1068.
[4] Bauch C T, Sigdel R, Pharaon J, et al. Early warning signals of regime shifts in coupled human-environment systems[J]. Proceedings of the National Academy of Sciences of the United States of America, 2016, 113(51):14560-14567.
[5] Castro M C, Krieger G R, Balge M Z, et al. Examples of coupled human and environmental systems from the extractive industry and hydropower sector interfaces[J]. Proceedings of the National Academy of Sciences of the United States of America, 2016, 113(51):14528-14535.
[6] Pongratz J, Reick C, Raddatz T, et al. A reconstruction of global agricultural areas and land cover for the last millennium[J]. Global Biogeochemical Cycles, 2008, 22(3):3018.
[7] Ellis E C, Goldewijk K K, Siebert S, et al. Anthropogenic transformation of the biomes, 1700 to 2000[J]. Global Ecology & Biogeography, 2010, 19(5):589-606.
[8] Van A S, Verburg P H. A Land System representation for global assessments and land-use modeling[J]. Global Change Biology, 2012, 18(10):3125-3148.
[9] Li P, Qian H, Wu J. Accelerate research on land creation[J]. Nature, 2014, 510(7503):29-31.
[10] Hurtt G, Frolking S, Fearon M, et al. The underpinnings of land-use history:Three centuries of global gridded land-use transitions, wood-harvest activity, and resulting secondary lands[J]. Global Change Biology, 2006, 12(7):1208-1229.
[11] Turner B L Ⅱ, Lambin E F, Reenberg A. The emergence of land change science for global environmental change and sustainability[J]. Proceedings of the National Academy of Sciences, 2007, 104(52):20666-20671.
[12] Liu M, Tian H. China's land cover and land use change from 1700 to 2005:Estimations from high-resolution satellite data and historical archives[J]. Global Biogeochemical Cycles, 2010, 24(3):3003.
[13] Creutzig F. Govern land as a global commons[J]. Nature, 2017, 546(7656):28-29.
[14] Feddema J J, Oleson K W, Bonan G B, et al. The importance of land-cover change in simulating future climates[J]. Science, 2005, 310(5754):1674-1678.
[15] Foley J A, Defries R, Asner G P, et al. Global consequences of land use[J]. Science, 2005, 309(5734):570-574.
[16] Hof C, Araújo M B, Jetz W, et al. Additive threats from pathogens, climate and land-use change for global amphibian diversity[J]. Nature, 2011, 480(7378):516-519.
[17] Lambin E F, Meyfroidt P. Global land use change, economic globalization, and the looming land scarcity[J]. Proceedings of the National Academy of Sciences of the United States of America, 2011, 108(9):3465-3472.
[18] Phalan B, Onial M, Balmford A, et al. Reconciling food production and biodiversity conservation:Land sharing and land sparing compared[J]. Science, 2011, 333(6047):1289-1291.
[19] Cumming G S, Buerkert A, Hoffmann E M, et al. Implications of agricultural transitions and urbanization for ecosystem services[J]. Nature, 2014, 515(7525):50-57.
[20] Global Lang Project. Science plan and implementation strategy IGBP report No. 53/IHDP report No. 19[R]. Stockholm:IGBP Secretariat, 2005.
[21] Rounsevell A, Pedroli G B M, Erb K H, et al. Challenges for land system science[J]. Land Use Policy, 2012, 29(4):899-910.
[22] Verburg P H, Erb K H, Mertz O, et al. Land system science:Between global challenges and local realities[J]. Current Opinion in Environmental Sustainability, 2013, 5(5):433-437.
[23] Canadell J G, Pataki D E, Pitelka L F. Terrestrial ecosystems in a changing world[M]. Berlin:Springer Verlag, 2007.
[24] Lambin E F, Baulies X, Bochstael N, et al. Land-use and land-cover change (LUCC)-implementation strategy. IGBP/IHDP, IGBP report 48/IHDP report 10[R]. Stockholm:The Royal Swedish Academy of Science, 1999.
[25] Gaube V, Kaiser C, Wildenberg M, et al. Combining agent-based and stock-flow modelling approaches in a participative analysis of the integrated land system in Reichraming[J]. Landscape Ecology, 2009, 24(9):1149-1165.
[26] Turner B L Ⅱ, Janetos A C, Verburg P H, et al. Land system architecture:Using land systems to adapt and mitigate global environmental change[J]. Global Environmental Change, 2013, 23(2):395-397.
[27] Yu Q, Wu W, Verburg P H, et al. A survey-based exploration of land-system dynamics in an agricultural region of Northeast China[J]. Agricultural Systems, 2013, 121(121):106-116.
[28] Liu Z, Verburg P H, Wu J, et al. Understanding land system change through scenario-based simulations:A case study from the drylands in Northern China[J]. Environmental Management, 2017, 59(3):440-454.
[29] Robinson D T, Murray-Rust D, Rieser V, et al. Modelling the impacts of land system dynamics on human well-being:Using an agent-based approach to cope with data limitations in Koper, Slovenia[J]. Computers Environment & Urban Systems, 2012, 36(2):164-176.
[30] Václavík T, Lautenbach S, Kuemmerle T, et al. Mapping global land system archetypes[J]. Global Environmental Change, 2013, 23(6):1637-1647.
[31] Niedertscheider M, Erb K. Land system change in Italy from 1884 to 2007:Analysing the North-South divergence on the basis of an integrated indicator framework[J]. Land Use Policy, 2014, 39(3):366-375.
[32] Bruckner M, Fischer G, Tramberend S, et al. Measuring telecouplings in the global land system:A review and comparative evaluation of land footprint accounting methods[J]. Ecological Economics, 2015(114):11-21.
[33] Boillat S, Scarpa F M, Robson J P, et al. Land system science in Latin America:Challenges and perspectives[J]. Current Opinion in Environmental Sustainability, 2017(26-27):37-46.
[34] Liu J, Mooney H, Hull V, et al. Sustainability, systems integration for global sustainability[J]. Science, 2015, 347(6225):1258832.
[35] 李曙华. 系统生成论体系与方法论初探[J]. 系统科学学报, 2007, 15(3):6-11.
[36] 李曙华. 当代科学的规范转换——从还原论到生成整体论[J]. 哲学研究, 2006(11):89-94.
[37] Stevenson D J. A planetary perspective on the deep Earth[J]. Nature, 2008, 451(7176):261-265.
[38] Denham T P, Haberle S G, Lentfer C, et al. Origins of agriculture at Kuk Swamp in the highlands of New Guinea[J]. Science, 2003, 301(5630):189-193.
[39] Tanno K, Willcox G. How fast was wild wheat domesticated[J]. Science, 2006, 311(5769):1886.
[40] Jones M K, Liu X. Origins of agriculture in East Asia[J]. Science, 2009, 324(5928):730-731.
[41] Huang X, Kurata N, Wei X, et al. A map of rice genome variation reveals the origin of cultivated rice[J]. Nature, 2012, 490(7421):497-501.
[42] Araus J L, Ferrio J P, Voltas J, et al. Agronomic conditions and crop evolution in ancient Near East agriculture[J]. Nature Communications, 2014, 5(6183):3953.
[43] Pain S. The rise of the urbanite[J]. Nature, 2016, 531(7594):50-51.
[44] 陈睿山, 蔡运龙, 严祥, 等. 土地系统功能及其可持续性评价. 中国土地科学, 2011, 25(1):8-15.
[45] Eigen M, Schuster P. Hypercycle-principle of natural self-organization. A. Emergence of hypercycle[J]. Naturwissenschaften, 1977, 64(11):541-565.
[46] 傅伯杰. 地理学:从知识、科学到决策[J]. 地理学报, 2017, 72(11):1923-1932.
Options
Outlines

/

Contact

  • Add:No. 86 Xueyuan South Road, Haidian District, Beijing  Postal Code:100081
  • Tel: +86-10-62138113 Fax: +86-10-62138113
  • E-mail:kjdbbjb@cast.org.cn

    • Visited

      Total visitors:
      Visitors of today:
      Now online:
    Copyright © Science & Technology Review, All Rights Reserved.