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毕业论文网 > 任务书 > 矿业类 > 测绘工程 > 正文

滨海湿地蓝色碳汇生态价值评估及时空演变研究任务书

 2021-12-31 22:31:34  

全文总字数:5412字

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学生结合生产单位、管理部门或指导教师的科研课题,进行试验、调查研究,或广泛收集资料进行深入分析论证,在经过总结分析得出结论后,独立撰写并答辩。

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2. 参考文献(不低于12篇)

[1]刘志伟. 基于InVEST的湿地景观格局变化生态响应分析[D].浙江:浙江大学,2014.[2]韩晋榕. 基于InVEST模型的城市扩张对碳储量的影响分析[D].东北:东北师范大学,2013.[3]吴哲.基于InVEST模型的海南岛氮磷营养物负荷的风险评价[D].海南:海南大学,2014.[4]杨园园.基于InVEST模型的生态系统服务功能价值评估研究框架_杨园园[J].首都师范大学学报,2012,33:41-47.[5]李敏.基于InVEST模型的生态系统服务功能评价研究 [D].北京:北京林业大学,2016.[6]黄卉.基于InVEST模型的土地利用变化与碳储量研究 [D].北京:中国地质大学,2012.[7]高宇,刘鉴毅,张婷婷,张涛,冯广朋,庄平.滨海河口湿地生态系统对全球气候变化的影响 [J].环境与可持续发展,2014,4(4):16-19.[8]颜葵.海南东寨港红树林湿地碳储量及固碳价值评估 [D].海南:海南师范大学,2015.[9]裘婉飞.蓝色碳汇的思考与展望 [J].中国海洋学报,2018,1(002):1-3.[10]张韵.三沙湾湿地主要植被的固碳能力及修复进展研究 [D].山东:中国海洋大学,2013.[11]郭海强.长江河口湿地碳通量的地面监测及遥感模拟研究 [D].上海:复旦大学,2010.[12]曹磊.中国滨海盐沼湿地碳收支与碳循环过程研究进展 [J]. 生态学报,2013,17(1):5147-5149.[13]丁冬静.海南滨海湿地生态系统服务功能价值评估[D].北京:中国林业科学研究院,2016.[14]李建国,濮励杰,徐彩瑶,等.1977_2014年江苏中部滨海湿地演化与围垦空间演变趋势 [J]. 地理学报,2015,70(1):17-26.[15]张健.基于遥感和GIS的江苏滨海地区湿地信息提取及动态变化分析 [J].长江科学院院报,2017,34(4):144-150.[16]王磊.江苏滨海湿地不同植被演替阶段土壤有机碳分布特征[J].安徽农业大学学报,2017,44(6):1-5.[17]王磊.江苏滨海湿地生态系统服务功能价值评估[J].生态科学,2016,35(5):169-175.[18]杜培军.江苏滨海湿地土地利用_覆盖变化与地表温度响应遥感监测 [J].国土资源遥感,2014,26(2):113-120.[19]贺秋华.江苏滨海土地利用_覆盖变化及其生态环境效应研究 [D].南京:南京师范大学,2011.[20]姚志刚.江苏省滨海湿地现状_问题及保护对策 [J]. 专论综述.2014,04(003):10-14.[21]王敬华.江苏盐城滨海湿地研究进展江苏盐城滨海湿地研究进展 [J]. 湿地科学与管理,2011,7(3):60-63.[22]陈妍.基于InVEST模型的土地利用格_省略_度生境质量的影响研究_以北京为例 [J]. 北京大学学报,2016,52(3):553-561.[23]修珍珍,王斌,杨校生,余超,张龙,格日乐图.基于InVEST模型估算富阳市森林生态系统碳储量[J]. 广西植物,2016,36(7): 868-874.[24]陈青.基于LUCC的福清市生态系统服务价值及功能变化研究 [D].福建:福建农林大学,2015.[25]吴健生.基于土地利用变化的京津冀生境质量时空演变[J]. 应用生态学报,2015,26: 3457-3466.[26] 候元兆.中国森林资源核算研究[M].北京:中国林业出版社,1995,135-140.[27]Handcock, R.N., et al., Accuracy and uncertainty of thermal-infrared remote sensing of stream temperatures at multiple spatial scales. Remote Sensing of Environment, 2006. 100(4): p. 427-440.[28]Hecker, C., M.v. der Meijde, and F.D. van der Meer, Thermal infrared spectroscopy on feldspars Successes, limitations and their implications for remote sensing. Earth-Science Reviews, 2010. 103(12): p. 60-70.[29]Hu, Y. and K. Liu, Chapter 2 - Remote sensing and remote measurement technology of transmission lines, in Inspection and Monitoring Technologies of Transmission Lines with Remote Sensing. 2017, Academic Press. p. 37-137.[30]Wang, B., H. Tang, and Y. Xu, Integrating ecosystem services and human well-being into management practices: Insights from a mountain-basin area, China. Ecosystem Services, 2017. 27, Part A: p. 58-69.[31]Butterfield, B.J., et al., Chapter Five - Tradeoffs and Compatibilities Among Ecosystem Services: Biological, Physical and Economic Drivers of Multifunctionality, in Advances in Ecological Research, W. Guy and A.B. David, Editors. 2016, Academic Press. p. 207-243. [32]Gao, J., et al., The impact of land-use change on water-related ecosystem services: a study of the Guishui River Basin, Beijing, China. Journal of Cleaner Production, 2017. 163, Supplement: p. S148-S155.[33]Guillem, E.E., et al., Modelling farmer decision-making to anticipate tradeoffs between provisioning ecosystem services and biodiversity. Agricultural Systems, 2015. 137: p. 12-23.[34]Hilde, T. and R. Paterson, Integrating ecosystem services analysis into scenario planning practice: Accounting for street tree benefits with i-Tree valuation in Central Texas. Journal of Environmental Management, 2014. 146: p. 524-534.[35]Johnson, K.A., et al., Uncertainty in ecosystem services valuation and implications for assessing land use tradeoffs: An agricultural case study in the Minnesota River Basin. Ecological Economics, 2012. 79: p. 71-79.[36]Lester, S.E., et al., Evaluating tradeoffs among ecosystem services to inform marine spatial planning. Marine Policy, 2013. 38: p. 80-89.[37]Schroder, S.A., et al., Multi-objective optimization to evaluate tradeoffs among forest ecosystem services following fire hazard reduction in the Deschutes National Forest, USA. Ecosystem Services, 2016. 22, Part B: p. 328-347.[38]Swallow, B.M., et al., Tradeoffs, synergies and traps among ecosystem services in the Lake Victoria basin of East Africa. Environmental Science Policy, 2009. 12(4): p. 504-519.[39]Tayyebi, A., et al., SmartScape: A web-based decision support system for assessing the tradeoffs among multiple ecosystem services under crop-change scenarios. Computers and Electronics in Agriculture, 2016. 121: p. 108-121.[40]van den Belt, M., V. Forgie, and J. Farley, 12.03 - Valuation of Coastal Ecosystem Services, in Treatise on Estuarine and Coastal Science. 2011, Academic Press: Waltham. p. 35-54.

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