Journal of East China Normal University(Natural Science) ›› 2020, Vol. 2020 ›› Issue (3): 109-118.doi: 10.3969/j.issn.1000-5641.201941009
• Geography • Previous Articles Next Articles
GUO Xiaona1, CHEN Ruishan1, LI Qiang2, PAN Zhenzhen3
Received:
2019-03-29
Published:
2020-05-22
CLC Number:
GUO Xiaona, CHEN Ruishan, LI Qiang, PAN Zhenzhen. Review of driving factors for land degradation and restoration based on IPBES[J]. Journal of East China Normal University(Natural Science), 2020, 2020(3): 109-118.
[1] LE Q B, NKONYA E, MIRZABAEV A. Biomass productivity-based mapping of global land degradation hotspots[M]//NKONYA E, MIRZABAEV A, VON BRAUN J. Economics of Land Degradation and Improvement: A Global Assessment for Sustainable Development.[S. l.]: Springer, 2016: 55-84. [2] SCHOLES R, MONTANARELLA L, BRAINICH A, et al. IPBES (2018): Summary for policymakers of the assessment report on land degradation and restoration of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services[R]. Bonn, Germany: IPBES secretariat, 2018. [3] United Nations Convention to Combat Desertification (UNCCD). Sustainable financing for forest and landscape restoration[R]. Rome: UNCCD, 2015. [4] MILLENNIUM ECOSYSTEM ASSESSMENT. Ecosystems and Human Well-being: Biodiversity Synthesis[R]. Washington, DC: World Resources Institute, 2005. [5] GIBBS H K, SALMON J M. Mapping the world’s degraded lands[J]. Applied Geography, 2015, 57: 12-21. DOI: 10.1016/j.apgeog.2014.11.024. [6] DAVIDSON N C. How much wetland has the world lost? Long-term and recent trends in global wetland area[J]. Marine and Freshwater Research, 2014, 65(10): 934-941. DOI: 10.1071/MF14173. [7] UN-FAO. LADA: Assessing the status, causes and impact of land degradation[R]. Rome: FAO, 2009. [8] VAN DER ESCH S, TEN BRINK B, STEHFEST E, et al. Exploring Future Changes in Land Use and Land Condition and the Impacts on Food, Water, Climate Change and Biodiversity: Scenarios for the UNCCD Global Land Outlook[M]. Hague: PBL Netherlands Environmental Assessment Agency, 2017. [9] International Union for Conservation of Nature. Bonn Challenge[EB/OL].[2019-03-30]. http://www.bonnchallenge.org. [10] United Nations Convention to Combat Desertification. Zero Net Land Degradation-A sustainable development goal for Rio+20: To secure the contribution of our planet’s land and soil to sustainable development, including food security and poverty eradication (Policy Bri)[R]. Bonn: UNCCD, 2012. [11] WARNER K, ERHART C, SHERBININ A, et al. In search of shelter: Mapping the effects of climate change on human migration and displacement[R]. New York: Columbia University, 2009. [12] 许端阳. 气候变化和人类活动在沙漠化过程中相对作用的定量研究[D]. 南京: 南京农业大学, 2009. [13] 王云霞. 内蒙古草地资源退化及其影响因素的实证研究[D]. 呼和浩特: 内蒙古农业大学, 2010. [14] 杨朝飞. 中国土地退化及其防治对策[J]. 中国环境科学, 1997(2): 13-17 [15] 汪潇. 基于遥感的土地退化指标因子提取和综合评价[D]. 北京: 中国科学院遥感应用研究所, 2007. [16] GEIST H J, LAMBIN E F. Proximate causes and underlying driving forces of tropical deforestation[J]. BioScience, 2002, 52(2): 143-150. DOI: 10.1641/0006-3568(2002)052[0143:PCAUDF]2.0.CO;2. [17] NELSON G C, BENNETT E, BERHE A, et al. Anthropogenic drivers of ecosystem change: An overview[J]. Ecology and Society, 2006, 11(2): 29. DOI: 10.5751/ES-01826-110229. [18] GUNS M, VANACKER V. Forest cover change trajectories and their impact on landslide occurrence in the tropical Andes[J]. Environmental Earth Sciences, 2013, 70(7): 2941-2952. DOI: 10.1007/s12665-013-2352-9. [19] HAN W Y, LIU G H, SU X K, et al. Assessment of potential land degradation and recommendations for management in the south subtropical region, Southwest China[J]. Land Degradation & Development, 2019, 30(8): 979-990. [20] STEINFELD H. Livestock production in the Asia and Pacific region: Current status, issues and trends[J]. Journal of the Geological Society of Japan, 1998, 90(1): 14-21. [21] NKONYA E, MIRZABAEV A, VON B J. Economics of Land Degradation and Improvement: A Global Assessment for Sustainable Development[M]. Cham, Switzerland: Springer International Publishing, 2016. [22] KEENAN R J, REAMS G A, ACHARD F, et al. Dynamics of global forest area: Results from the FAO Global Forest Resources Assessment 2015[J]. Forest Ecology and Management, 2015, 352: 9-20. DOI: 10.1016/j.foreco.2015.06.014. [23] BROCKERHOFF E G, JACTEL H, PARROTTA J A, et al. Role of eucalypt and other planted forests in biodiversity conservation and the provision of biodiversity-related ecosystem services[J]. Forest Ecology & Management, 2013, 301(4): 43-50. [24] BROCKERHOFF E G, JACTEL H, PARROTTA J A, et al. Plantation forests and biodiversity: Oxymoron or opportunity[J]. Biodiversity & Conservation, 2008, 17(5): 925-951. [25] CARNUS J M, PARROTTA J, BROCKERHOFF E, et al. Planted forests and biodiversity[J]. Journal of Forestry, 2006, 104(2): 65-77. [26] LAMB D. Regreening the Bare Hills: Forest and Land Degradation in the Asia-Pacific Region[M]. Dordrecht, Netherlands: Springer, 2011. [27] DE BEER J H, MCDERMOTT M J. The Economic Value of Non-Timber Forest Products in Southeast Asia[M]. Amsterdam, Netherlands: World Conservation Union (IUCN), 1996. [28] FA J E, PERES C A, MEEUWIG J. Bushmeat exploitation in tropical forests: An intercontinental comparison[J]. Conservation Biology, 2002, 16(1): 232-237. DOI: 10.1046/j.1523-1739.2002.00275.x. [29] MILNER-GULLAND E J, BENNETT E L, ABERNETHY K, et al. Wild meat: The bigger picture[J]. Trends in Ecology and Evolution, 2003, 18(7): 351-357. DOI: 10.1016/S0169-5347(03)00123-X. [30] RUWANZA S, SHACKLETON C M. Ecosystem-scale impacts of non-timber forest product harvesting: Effects on soil nutrients[J]. Journal of Applied Ecology, 2017, 54(5): 1515-1525. DOI: 10.1111/1365-2664.12891. [31] SHANKAR U M A, HEGDE R, BAWA K S. Extraction of non-timber forest products in the forests of Biligiri Rangan Hills, India. 6. Fuelwood pressure and management options[J]. Economic Botany, 1998, 52(3): 320-336. DOI: 10.1007/BF02862151. [32] TICKTIN T. The ecological implications of harvesting[J]. Journal of Applied Ecology, 2004, 41(1): 11-21. DOI: 10.1111/j.1365-2664.2004.00859.x. [33] GIGLIO L, RANDERSON J T, VAN DER WERF G R. Analysis of daily, monthly, and annual burned area using the fourth-generation global fire emissions database (GFED4)[J]. Journal of Geophysical Research: Biogeosciences, 2013, 118(1): 317-328. DOI: 10.1002/jgrg.20042. [34] KRAWCHUK M A, MORITZ M A, PARISIEN M A, et al. Global pyrogeography: The current and future distribution of wildfire[J]. PLoS One, 2009, 4(4): e5102. DOI: 10.1371/journal.pone.0005102. [35] SHLISKY A, WAUGH J, GONZALES P, et al. Fire, ecosystems & people: threats and strategies for global biodiversity conservation[R]//Global Fire Initiative Technical Report 2007-2. Arlington, VA: The Nature Conservancy, 2007. [36] BRIDGE G. Contested terrain: Mining and the environment[J]. Annual Review of Environment & Resources, 2004, 29(1): 205-259. [37] BUTT N, BEYER H L, BENNETT J R, et al. Biodiversity risks from fossil fuel extraction[J]. Science, 2013, 342(6157): 425-426. DOI: 10.1126/science.1237261. [38] DURÁN A P, RAUCH J, GASTON K J. Global spatial coincidence between protected areas and metal mining activities[J]. Biological Conservation, 2013, 160: 272-278. DOI: 10.1016/j.biocon.2013.02.003. [39] MURGUÍA D I, BRINGEZU S, SCHALDACH R. Global direct pressures on biodiversity by large-scale metal mining: Spatial distribution and implications for conservation[J]. Journal of Environmental Management, 2016, 180: 409-420. [40] TOWNSEND P A, HELMERS D P, KINGDON C C, et al. Changes in the extent of surface mining and reclamation in the Central Appalachians detected using a 1976—2006 Landsat time series[J]. Remote Sensing of Environment, 2009, 113: 62-72. DOI: 10.1016/j.rse.2008.08.012. [41] United Nations Population Division. World population prospects 2017[DB/OL].[2019-03-25]. https://population.un.org/wpp/. [42] GEIST H, LAMBIN E F. Dynamic causal patterns of desertification[J]. BioScience, 2004, 54(9): 817-829. DOI: 10.1641/0006-3568(2004)054[0817:DCPOD]2.0.CO;2. [43] DÍAZ S, DEMISSEW S, CARABIAS J, et al. The IPBES conceptual framework-connecting nature and people[J]. Current Opinion in Environmental Sustainability, 2015, 14: 1-16. DOI: 10.1016/j.cosust.2014.11.002. [44] KISSINGER G M, HEROLD M, SY V D. Drivers of deforestation and forest degradation: A synthesis report for REDD+policymakers[R]. Vancouver, Canada: Lexeme Consulting, 2012. [45] VAN VLIET N, MERTZ O, HEINIMANN A, et al. Trends, drivers and impacts of changes in swidden cultivation in tropical forest-agriculture frontiers: A global assessment[J]. Global Environmental Change, 2012, 22(2): 418-429. DOI: 10.1016/j.gloenvcha.2011.10.009. [46] 张锂. 黄土高原地区煤矿土壤重金属污染调查研究及生态风险评价——以兰州红古煤矿为例[D]. 兰州: 西北师范大学, 2007. [47] 潘根兴, 冉炜. 中国大气酸沉降与土壤酸化问题[J]. 热带亚热带土壤科学, 1994(4): 243-252 [48] LAMBIN E F, MEYFROIDT P. Land use transitions: Socio-ecological feedback versus socio-economic change[J]. Land Use Policy, 2010, 27(2): 108-118. DOI: 10.1016/j.landusepol.2009.09.003. [49] MÜLLER D, SUN Z, VONGVISOUK T, et al. Regime shifts limit the predictability of land-system change[J]. Global Environmental, 2014, 28(1): 75-83. [50] RAMANKUTTY N, COOMES O T. Land-use regime shifts: An analytical framework and agenda for future landuse research[J]. Ecology and Society, 2016, 21(2): 1. DOI: 10.5751/ES-08370-210201. [51] MEYFROIDT P, LAMBIN E, ERB K H, et al. Globalization of land use: Distant drivers of land change and geographic displacement of land use[J]. Current Opinion in Environmental Sustainability, 2013, 5(5): 438-444. DOI: 10.1016/j.cosust.2013.04.003. [52] HARGRAVE J, KIS-KATOS K. Economic causes of deforestation in the Brazilian Amazon: A panel data analysis for the 2000s[J]. Environ Resource Econ, 2013, 4(54): 471-494. [53] NEPSTAD D, STICKLER C M, ALMEIDA O T. Globalization of the Amazon soy and beef industries: Opportunities for Conservation[J]. Conservation Biology, 2006, 20(6): 1595-1603. DOI: 10.1111/j.1523-1739.2006.00510.x. [54] LIU J G, HULL V, BATISTELLA M, et al. Framing sustainability in a telecoupled world[J]. Ecology and Society, 2013, 36(23): 7870-7885. [55] LAMBIN E F, TURNER B, GEIST H, et al. The causes of land-use and land-cover change: Moving beyond the myths[J]. Global Environmental Change, 2001, 11(4): 261-269. DOI: 10.1016/S0959-3780(01)00007-3. [56] SCHIERHORN F, MEYFROIDT P, KASTNER T, et al. The dynamics of beef trade between Brazil and Russia and their environmental implications[J]. Global Food Security, 2016, 11: 84-92. DOI: 10.1016/j.gfs.2016.08.001. [57] LAMBIN E F, MEYFROIDT P. Global land use change, economic globalization, and the looming land scarcity[J]. PNAs, 2011, 108(9): 3465-3472. DOI: 10.1073/pnas.1100480108. [58] IPCC. Summary for policymakers. Climate change 2014: Synthesis report[R]. Contribution of working groups I, II and III to the fifth assessment report of the intergovernmental panel on climate change, 2014. [59] POUNDS J A, BUSTAMANTE M R, COLOMA L, et al. Widespread amphibian extinctions from epidemic disease driven by global warming[J]. Nature, 2006, 439(7073): 161-167. DOI: 10.1038/nature04246. [60] POUNDS J, FOGDEN M, CAMPBELL J. Biological response to climate change on a tropical mountain[J]. Nature, 1999, 398(6728): 611-615. DOI: 10.1038/19297. [61] SINERVO B, MENDEZ-DE-LA-CRUZ F, MILES D B, et al. Erosion of lizard diversity by climate change and altered thermal niches[J]. Science, 2010, 328(5980): 894-899. DOI: 10.1126/science.1184695. [62] ALLEN C D. Climate-induced forest dieback: An escalating global phenomenon?[J]. Unasylva, 2009, 60(231): 43-49. [63] ALLEN C D, MACALADY A K, CHENCHOUNI H, et al. A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests[J]. Forest Ecology and Management, 2010, 259(4): 660-684. DOI: 10.1016/j.foreco.2009.09.001. [64] CLARKE M L, RENDELL H M. Climate, Extreme Events and Land Degradation[M]//SIVAKUMAR M V K, NDIANG'UI N. Climate and Land Degradation. Heidelberg, Berlin: Springer, 2007. [65] HOOVER D L, DUNIWAY M C, BELNAP J. Testing the apparent resistance of three dominant plants to chronic drought on the Colorado Plateau[J]. Journal of Ecology, 2017, 105(1): 152-162. DOI: 10.1111/1365-2745.12647. [66] LEWIS S L, BRANDO P M, PHILLIPS O, et al. The 2010 Amazon drought[J]. Science, 2011, 331: 554. DOI: 10.1126/science.1200807. [67] PHILLIPS O L, ARAGÃO L E O C, LEWIS S L, et al. Drought sensitivity of the Amazon rainforest[J]. Science, 2009, 323(5919): 1344-1347. DOI: 10.1126/science.1164033. [68] JARAMILLO J, MUCHUGU E, VEGA F E, et al. Some like it hot: The influence and implications of climate change on coffee berry borer (Hypothenemus hampei) and coffee production in East Africa[J]. PLoS One, 2011, 6(9): e24528. DOI: 10.1371/journal.pone.0024528. [69] BAI Z G, DENT D. Recent land degradation and improvement in China[J]. Ambio, 2009, 38(3): 150-6. DOI: 10.1579/0044-7447-38.3.150. [70] LIU M, DRIES L, HEIJMAN W, et al. Land tenure reform and grassland degradation in Inner Mongolia, China[J]. China Economic Review, 2019, 55: 181-198. DOI: 10.1016/j.chieco.2019.04.006. [71] LI S Y, VERBURG P H, LV S H, et al. Spatial analysis of the driving factors of grassland degradation under conditions of climate change and intensive use in Inner Mongolia, China[J]. Regional Environmental Change, 2011, 12(3): 461-474. [72] BATUNACUN, RALF W, TOBIA L, et al. Identifying drivers of land degradation in Xilingol, China, between 1975 and 2015[J]. Land Use Policy, 2019, 83: 543-559. DOI: 10.1016/j.landusepol.2019.02.013. [73] JIANG C, ZHANG H Y, WANG X C, et al. Challenging the land degradation in China’s Loess Plateau: Benefits, limitations, sustainability, and adaptive strategies of soil and water conservation[J]. Ecological Engineering, 2019, 127: 135-150. DOI: 10.1016/j.ecoleng.2018.11.018. [74] 李宪文, 张克锋, 张定祥, 等. 中国土地资源退化时空变化分析[J]. 环境科学, 2006(6): 1244-1251. DOI: 10.3321/j.issn:0250-3301.2006.06.040 [75] 朱守谦, 王德炉, 黄宝龙. 贵州喀斯特区石漠化过程中植被特征的变化[J]. 南京林业大学学报(自然科学版), 2003(3): 26-30. DOI: 10.3969/j.issn.1000-2006.2003.03.006 [76] 任海. 喀斯特山地生态系统石漠化过程及其恢复研究综述[J]. 热带地理, 2005(3): 195-200. DOI: 10.3969/j.issn.1001-5221.2005.03.001 [77] ZHANG K, YU Z, LI X, et al. Land use change and land degradation in China from 1991 to 2001[J]. Land Degradation & Development, 2007, 18(2): 209-219. |
[1] | Yuvna Devi PERIANEN, Xi XIAO. The impacts of climate change on the coastal zone of Mauritius [J]. Journal of East China Normal University(Natural Science), 2020, 2020(S1): 104-108. |
[2] | M. Jamila NGONDO, Heqin CHENG, M. Alfonse DUBI, Joel NOBERT. Sustainable adaption strategies for freshwater supply-related challenges in coastal cities, Tanzania [J]. Journal of East China Normal University(Natural Science), 2020, 2020(S1): 114-119. |
[3] | LI Shi-hua, XIE Li-na, CHEN Wei, FEI Bei-li, YUAN Lin, GE Zhen-ming. Comparison of growth and photosynthesis characteristics of native and exotic salt marsh vegetation under elevated temperature and waterlogging conditions [J]. Journal of East China Normal University(Natural Sc, 2019, 2019(1): 144-155. |
[4] | MENG Qing-hao, NIU Rui, ZHENG Xiang-min, Zhou Li-min, SUN Cheng-cheng, WANG Lin. Geochemical characteristics of the peat profile in the Yangbajing basin, Tibetan, China and its paleoenvironmental implications [J]. Journal of East China Normal University(Natural Sc, 2018, 2018(2): 151-159. |
[5] | LIU Yan. Predictions of suitable distribution of Meteorium in China under climate change [J]. Journal of East China Normal University(Natural Sc, 2016, 2016(6): 192-202. |
[6] | WANG Wen-Jing, YAN Jun-Ping, LIU Yong-Lin, CAO Yong-Wang. Climate change and droughtflood disasters responses in South China [J]. Journal of East China Normal University(Natural Sc, 2016, 2016(2): 81-89. |
[7] | HAN Li, LIU Su-Fang, HUANG Min-Sheng, MA Jun-Fei, WEI Jin-Bao, HU Wei. Review of simulation research in hydrology and water quality based on HSPF model [J]. Journal of East China Normal University(Natural Sc, 2015, 2015(2): 40-47. |
[8] | GU Sheng-hua. Saltwater intrusion in the Changjiang River Estuary during the drought in late the spring and early summer of 2011 [J]. Journal of East China Normal University(Natural Sc, 2014, 2014(4): 154-162. |
[9] | YAO Yunlong;;Lv Xianguo;WANG Lei. Assessing the impacts of climate changes on thestreamflow of Naoli River [J]. Journal of East China Normal University(Natural Sc, 2009, 2009(3): 153-159. |
[10] | FAN Bin;XU Shi-yuan;YU Li-zhong;JIANG Hui;ZHANG Wei-guo;DAI Xue-rong. Study on the Climate Changes Recorded in the Sediment of the Caohu Lake during the Last 300 Years(Chinese) [J]. Journal of East China Normal University(Natural Sc, 2007, 2007(4): 71-76. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||