Abstract
Land use and land cover change (LULCC) strongly influence regional and global climate by combining both biochemical and biophysical processes. However, the biophysical process was often ignored, which may offset the biogeochemical effects, so measures to address climate change could not reach the target. Thus, the biophysical influence of LULCC is critical for understanding observed climate changes in the past and potential scenarios in the future. Therefore, it is necessary to identify the mechanisms and effects of large-scale LULCC on climate change through changing the underlying surface, and thus the energy balance. The key scientific issues on understanding the impacts of human activities on global climate that must be addressed including: (1) what are the basic scientific facts of spatial and temporal variations of LULCC in China and comparative countries? (2) How to understand the coupling driving mechanisms of human activities and climate change on the LULCC and then to forecasting the future scenarios? (3) What are the scientific mechanisms of LULCC impacts on biophysical processes of land surface, and then the climate? (4) How to estimate the contributions of LULCC to climate change by affecting biophysical processes of land surface? By international comparison, the impacts of LULCC on climate change at the local, regional and global scales were revealed and evaluated. It can provide theoretical basis for the global change, and have great significance to mitigate and adapt to global climate changes.
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References
Anderson-Teixeira K J, Snyder P K, Twine T E et al., 2012. Climate-regulation services of natural and agricultural ecoregions of the Americas. Nature Climate Change, 2: 177–181.
Anderson R G, Canadell J G, Randerson J T et al., 2010. Biophysical considerations in forestry for climate protection. Frontiers in Ecology and the Environment. doi: 10.1890/090179.
Betts R A. 2000. Offset of the potential carbon sink from boreal afforestation by decreases in surface albedo. Nature, 408: 187–190.
Betts R A. 2011. Climate science: Afforestation cools more or less. Nature Geoscience, 4: 504–505.
Bonan G B. 2008. Forests and climate change: Forcings, feedbacks, and the climate benefits of forests. Science, 320: 1444–1449.
Clinton N, Gong P, 2013. MODIS detected surface urban heat islands and sinks: Global locations and controls. Remote Sensing of Environment, 134: 294–304.
Cui Y P, Liu J Y, Hu Y F et al., 2012. Modeling the radiation balance of different urban underlying surfaces. Chinese Science Bulletin, 57: 1046–1054.
Davin E L, Seneviratne S I, Ciais P et al., 2014. Preferential cooling of hot extremes from cropland albedo management. Proceedings of the National Academy of Sciences, 111(27): 9757–9761.
Dong S Y, Yan X D, Xiong Z, 2013. Varying responses in mean surface air temperature from land use/cover change in different seasons over northern China. Acta Ecologica Sinca, 33: 167–171.
Du G M, Kuang W H, Meng F H et al., 2015. Spatiotemporal pattern and driving forces of land use/cover change in Brazil. Progress in Geography, 34(1): 73–82.
Feddema J J, Olsson K, Bonan G et al., 2005. How important is land cover change for simulating future climates? Science, 310(5754): 1674–1678.
Foley J A, De Fries R, Asner G P et al., 2005. Global consequences of land use. Science, 309: 570–574.
Gibbard S, Caldeira K, Bala G et al., 2005. Climate effects of global land cover change. Geophysical Research Letters, 32, L23705. doi: 10.1029/2005GL024550.
Global Land Project. Global Science Plan and Implementation Strategy. IGBP Report 53/IHDP Report 19. 2005.
Gong T Y, Shao Q Q, Liu J Y et al., 2012. The impact of land use/cover types on climate warming in southern China. Geographical Research, 31(8): 1465–1478. (in Chinese)
He F N, Li S, Zhang X Z et al., 2013. Comparisons of cropland area from multiple datasets over the past 300 years in the traditional cultivated region of China. Journal of Geographical Sciences, 23: 978–990.
Houghton R A, Hackler J L, 2003. Sources and sinks of carbon from land-use change in China. Global Biogeochemical Cycles, 17(2): 1034. doi: 10.1029/2002GB001970.
IPCC Fourth Assessment Report: Climate Change 2007 (AR4). IPCC, Geneva, Switzerland. 2007.
Kuang W H, Chi W F, Lu D S et al., 2014. A comparative analysis of megacity expansions in China and the U.S.: Patterns, rates and driving forces. Landscape and Urban Planning, 132: 121–135.
Le Quéré C, Moriarty R, Andrew R M et al., 2015. Global carbon budget 2014. Earth System Science Data, 7, 47–85.
Li S C, He F N, Zhang X Z, 2015. A spatially explicit reconstruction of cropland cover in China from 1661 to 1996. Regional Environment Change. doi: 10.1007/s10113-014-0751-4.
Li Y F, Li Z H, Li Z H et al., 2013. Numerical simulation of the effects of grassland degradation on the surface climate in overgrazing area of Northwest China. Advances in Meteorology, Article ID 270192.
Lin Y Z, Liu A P, Ma E J et al., 2013. Impacts of future urban expansion on regional climate in the Northeast Megalopolis, USA. Advances in Meteorology, Article ID 362925.
Liu J Y, Kuang W H, Zhang Z X et al., 2014. Spatiotemporal characteristics, patterns, and causes of land-use changes in China since the late 1980s. Journal of Geographical Sciences, 24(2): 195–210.
Lu D S, Li G Y, Moran E et al., 2014. A comparative analysis of approaches for successional vegetation classification in the Brazilian Amazon. GIScience & Remote Sensing, 51(6): 695–709.
Lu Y Q, Jin J M, Kueppers L M, 2015. Crop growth and irrigation interact to influence surface fluxes in a regional climate-cropland model (WRF3.3-CLM4crop). Climate Dynamics, 45(11): 3347–3363.
Luyssaert S, Jammet M, Stoy P C et al., 2014. Land management and land-cover change have impacts of similar magnitude on surface temperature. Nature Climate Change, 4: 389–393.
Mahmood R, Pielke R A, Hubbard K G et al., 2014. Land cover changes and their biogeophysical effects on climate. International Journal of Climatology, 34(4): 929–953.
Mahmood R, Quintanar A I, Conner G et al., 2010. Impacts of land use/land cover change on climate and future research priorities. Bulletin of the American Meteorological Society, 91(1): 37–46.
Mao H Q, Yan X D, Xiong Z et al., 2011. Modeled impact of irrigation on regional climate in India. Acta Ecologica Sinica, 31(4): 1038–1045. (in Chinese)
Marland G, Pielke R A, Apps M et al., 2003. The climatic impacts of land surface change and carbon management, and the implications for climate-change mitigation policy. Climate Policy, 3: 149–157.
Paeth H, Born K, Girmes R et al., 2009. Regional climate change in tropical and Northern Africa due to greenhouse forcing and land use changes. Journal of Climate, 22: 114–132.
Peng S S, Piao S L, Ciais P et al., 2012. Surface urban heat island across 419 global big cities. Environmental Science and Technology, 46: 696–703.
Pielke Sr R A, Marland G, Betts R A et al., 2002. The influence of land-use change and landscape dynamics on the climate system: Relevance to climate change policy beyond the radiative effect of greenhouse gases. Philosophical Transactions of the Royal Society of London Series A: Special Theme Issue, 360: 1705–1719.
Pielke Sr R A, Pitman A, Niyogi D et al., 2011. Land use/land cover changes and climate: Modeling analysis and observational evidence. Wiley Interdisciplinary Reviews: Climate Change, 2(6): 828–850.
Pitman A J, Avila F B, Abramowitz G et al., 2011. Importance of background climate in determining impact of land-cover change on regional climate. Nature Climate Change, 1: 472–475.
Qu Y, Wu F, Yan H M et al., 2013. Possible influence of the cultivated land reclamation on surface climate in India: A WRF model based simulation. Advances in Meteorology, Article ID 312716.
Ramankutty N, Gibbs H K, Achard F et al., 2007. Challenges to estimating carbon emissions from tropical deforestation. Global Change Biology, 13: 51–66.
Sampaio G, Nobre C, Costa M H et al., 2007. Regional climate change over eastern Amazonia caused by pasture and soybean cropland expansion. Geophysical Research Letters, 34(17).
Shao Q Q, Sun C Y, Liu J Y et al., 2011. Impact of urban expansion on meteorological observation data and overestimation to regional air temperature in China. Journal of Geographical Sciences, 21(6): 994–1006.
Shi Q L, Lin Y Z, Zhang E P et al., 2013. Impacts of cultivated land reclamation on the climate and grain production in Northeast China in the future 30 years. Advances in Meteorology, Article ID 853098.
Shi W J, Tao F L, Liu J Y, 2014. Regional temperature change over the Huang-Huai-Hai Plain: The roles of irrigation versus urbanization. International Journal of Climatology, 34(4): 1181–1195.
Wang M N, Yan X D, Liu J Y et al., 2013a. The contribution of urbanization to recent extreme heat events and a potential mitigation strategy in the Beijing-Tianjin-Hebei metropolitan area. Theoretical and Applied Climatology, 114: 407–416.
Wang M N, Zhang X Z, Yan X D, 2013b. Modeling the climatic effects of urbanization in the Beijing- Tianjin-Hebei metropolitan area. Theoretical and Applied Climatology, 113: 377–385.
Wang Y, Yan X D, 2013a. Climate responses to historical land cover changes. Climate Research, 56: 147–155.
Wang Y, Yan X D, Wang Z M, 2013b. Simulation of the influence of historical land cover changes on the global climate. Annales Geophysicae, 31: 995–1004.
Xu Q, Jiang Q, Cao K et al., 2013. Scenario-based analysis on the structural change of land uses in China. Advances in Meteorology, Article ID 919013.
Yan J W, Chen B Z, Feng M et al., 2013. Research on land surface thermal-hydrologic exchange in southern China under future climate and land cover scenarios. Advances in Meteorology, Article ID 969145.
Yan J W, Liu J Y, Chen B Z et al., 2014. Changes in the land surface energy budget in eastern China over the past three decades: Contributions of land-cover change and climate change. Journal of Climate, 27: 9233–9252.
Zhai J, Liu R G, Liu J Y et al., 2014. Radiative forcing over China due to albedo change caused by land cover change during 1990–2010. Journal of Geographical Sciences, 24(5): 789–801.
Yue T X, Fan Z M, Chen C F et al., 2011. Surface modelling of global terrestrial ecosystems under three climate change scenarios. Ecological Modelling, 222(14): 2342–2361.
Zhang F, Li X, Wang W M et al., 2013a). Impacts of future grassland changes on surface climate in Mongolia. Advances in Meteorology, Article ID 263746.
Zhang T, Zhan J Y, Wu F et al., 2013b). Regional climate variability responses to future land surface forcing in the Brazilian Amazon. Advances in Meteorology, Article ID 852541.
Zhang X Z, Tang Q H, Zheng J Y et al., 2013c. Warming/cooling effects of cropland greenness changes during 1982–2006 in the North China Plain. Environmental Research Letters, 8, 024038. doi: 10.1088/1748-9326/8/2/ 024038.
Zhang Z X, Wang X, Zhao X L et al., 2014. A 2010 update of national land use/cover database of China at 1:100000 scale using medium spatial resolution satellite images. Remote Sensing of Environment, 149: 142–154.
Zhao L, Lee X, Smith R B et al., 2014. Strong contributions of local background climate to urban heat islands. Nature, 511: 216–219.
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Foundation: National Natural Science Foundation of China, No.41371409, No.41371019; Global Change Scientific Research Program of China, No.2010CB950900
Author: Liu Jiyuan (1947–), Professor, specialized in remote sensing of natural resources and environment, land use and land cover change and ecological effects at macro-scale.
Huang Lin (1981–), Associate Professor, specialized in the climatic/ecological effects of land use and land cover change.
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Liu, J., Shao, Q., Yan, X. et al. The climatic impacts of land use and land cover change compared among countries. J. Geogr. Sci. 26, 889–903 (2016). https://doi.org/10.1007/s11442-016-1305-0
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DOI: https://doi.org/10.1007/s11442-016-1305-0