A new artificial oasis landscape dynamics in semi-arid Hongsipu region with decadal agricultural irrigation development in Ning Xia, China

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• 作者：Danfeng Sun ; Xiaoqian Yu ; Xiaona Liu ; Baoguo Li
• 关键词：Landscape approach ; Contingency ; based method ; Spatially nuanced map difference ; Patch level ; Immigrants resettlement ; Kappa coefficient
• 刊名：Earth Science Informatics
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：9
• 期：1
• 页码：21-33
• 全文大小：2,423 KB
• 参考文献：Abuelgasim AA, Ross WD, Gopal S, Woodcock CE (1999) Change detection using adaptive fuzzy neural networks: environmental damage assessment after the Gulf War. Remote Sens Environ 70:208–223. doi:10.​1016/​S0034-4257(99)00039-5 CrossRef
  Bolstad PV, Lillesand TM (1991) Rapid maximum likelihood classification. Photogramm Eng Remote Sens 57:64–74
  Dai XL, Khorram S (1999) Remotely sensed change detection based on artificial neural networks. Photogramm Eng Remote Sens 65:1187–1194
  Foody GM (2002) Status of land cover classification accuracy assessment. Remote Sens Environ 80:185–201. doi:10.​1016/​S0034-4257(01)00295-4 CrossRef
  Hagen A (2002) Multi-method assessment of map similarity. In: Ruiz M, Gould M, Ramon J (eds) Proceedings of the Fifth AGILE Conference on Geographic Information Science, Palma, Spain, pp 171–182
  Hagen-Zanker A (2006) Map comparison methods that simultaneously address overlap and structure. J Geogr Syst 8:165–185. doi:10.​1007/​s10109-006-0024-y CrossRef
  Han XL, Gao GY (2010) Effect analysis of the ecological immigrants development in Hongsipu, Ningxia Province. Yellow River 32:6–8
  Hodgson ME, Jensen JR, Mackey HE Jr, Coulter MC (1988) Monitoring wood stork foraging habitat using remote sensing and geographic information systems. Photogramm Eng Remote Sens 54:1601–1607
  Hussain M, Chen DM, Cheng A, Wei H, Stanley D (2013) Change detection from remotely sensed images: from pixel-based to object-based approaches. ISPRS J Photogramm Remote Sens 80:91–106. doi:10.​1016/​j.​isprsjprs.​2013.​03.​006 CrossRef
  Jensen JR, Mackey HE Jr, Christensen EJ, Sharitz RR (1987) Inland wetland change detection using aircraft MSS data. Photogramm Eng Remote Sens 53:521–529
  Jin G, Ma YL (1998) On existing problems of soil in Hongsipu pumping irrigation area and ways to ameliorate and exploit it. Ningxia Agro-For Sci Technol 5:25–27
  Kepner WG, Watts CJ, Edmonds CM, Maingi JK, Marsh SE, Luna G (2000) A landscape approach for detecting and evaluating change in a semi-arid environment. Environ Monit Assess 64:179–195. doi:10.​1023/​A:​1006427909616 CrossRef
  Lambin EF, Strahler AH (1994) Change vector analysis in multi-temporal space: a tool to detect and categorize land-cover change processes using high temporal resolution satellite data. Remote Sens Environ 48:231–244. doi:10.​1016/​0034-4257(94)90144-9 CrossRef
  Lan J, Guo SJ (2003) The status, degradation cause and improvement measures of grassland in Hongsipu region. J Ningxia Agric Coll 2:86–88
  Lu D, Mausel P, Brondizio E, Brondizio E, Moran E (2004) Change detection techniques. Int J Remote Sens 25:2365–2407. doi:10.​1080/​0143116031000139​863 CrossRef
  Lu CL, Zhu ZL, Wang CL (2015) Temporal and spatial change of land use of eco-immigration area in middle part of Ningxia Province. J West China For Sci 44:58–63
  Mas JF (1999) Monitoring land-cover changes: a comparison of change detection techniques. Int J Remote Sens 20:139–152. doi:10.​1080/​014311699213659 CrossRef
  Mather PM (1985) A computationally-efficient maximum-likelihood classifier employing prior probabilities for remotely sensed data. Int J Remote Sens 6:369–376CrossRef
  McGarigal K, Cushman SA, Neel MC et al (2002) FRAGSTATS: spatial pattern analysis program for categorical maps. Computer software program produced by the authors at the University of Massachusetts, Amherst. Available at the following web site: http://​www.​umass.​edu/​landeco/​research/​fragstats/​fragstats.​html
  Pan P, Mao LM, Zhao T, Yang JF (2001) Soil sandification in Hongsipu irrigation zone. Ningxia Agro-For Sci Technol 4:47–48
  Pat S, Chavez JR (1988) An improved dark-object subtraction technique for atmospheric scattering correction of multispectral data. Remote Sens Environ 24:459–479CrossRef
  Power C, Simms A, White R (2001) Hierarchical fuzzy pattern matching for the regional comparison of land use maps. Int J Geogr Inf Sci 15:77–100. doi:10.​1080/​1365881007500587​15 CrossRef
  RIKS BV (2009) Map Comparison Kit3 User manual, RIKS report, Available from: http://​www.​riks.​nl/​mck
  Seixas J (2000) Assessing heterogeneity from remote sensing images: the case of desertification in southern Portugal. Int J Remote Sens 21:2645–2663. doi:10.​1080/​0143116005011021​4 CrossRef
  Singh A (1989) Digital change detection techniques using remotely sensed data. Int J Remote Sens 10:989–1003CrossRef
  Stow DA, Chen DM (2002) Sensitivity of multitemporal NOAA AVHRR data of an urbanizing region to land-use/land-cover change and misregistration. Remote Sens Environ 80:297–307. doi:10.​1016/​S0034-4257(01)00311-X CrossRef
  Sun DF, Richard D, Li H, Li BG (2005) Modeling desertification change in Minqin County, China. Environ Monit Assess 108:169–188. doi:10.​1007/​s10661-005-4221-9 CrossRef
  Sun DF, Richard D, Li H, Wei R, Li BG (2007) A landscape connectivity index for assessing desertification: a case study of Minqin county, China. Landsc Ecol 22:531–543. doi:10.​1007/​s10980-006-9046-6 CrossRef
  Turner MG, O’Neill RV, Gardner RH, Milne BT (1989) Effects of changing spatial scale on the analysis of landscape pattern. Landsc Ecol 3:153–162. doi:10.​1007/​BF00131534 CrossRef
  van Vliet J, Bregt KA, Hagen-Zanker A (2011) Revisiting Kappa to account for change in the accuracy assessment of land-use change models. Ecol Model 222:1367–1375. doi:10.​1016/​j.​ecolmodel.​2011.​01.​017 CrossRef
  Visser H, de Nijs T (2006) The map comparison kit. Environ Model Softw 21:346–358. doi:10.​1016/​j.​envsoft.​2004.​11.​013 CrossRef
  Weismiller RA, Kristof SJ, Scholz PE, Anuta PE, Momin SA (1977) Change detection in Coastal Zone environments. Photogramm Eng Remote Sens 43:1533–1539
  Wickware GM, Howarth PJ (1981) Procedures for change detection using Landsat digital data. Int J Remote Sens 2:277–291CrossRef
  Xie YC, Gong J, Sun P, Gou XH (2014) Oasis dynamics change and its influence on landscape pattern on Jinta oasis in arid China from 1963a to 2010a: Integration of multi-source satellite images. Int J Appl Earth Obs Geoinf 33:181–191. doi:10.​1016/​j.​jag.​2014.​05.​008 CrossRef
  Yang XG, Song NP (2011) Soil sandy desertification and salinization and their interrelationships in Yanghuang irrigated area of Hongsipu, Ningxia of Northwest China. Chin J Appl Ecol 22:2265–2271
  Yin YX, Yang J, Chen TY, Wang JB (2001) Agricultural environmental quality monitoring and evaluation in Hongsipu region. Ningxia Agro-For Sci Technol 6:10–16
  Zhang JH, Jia KL (2011) Improvement effect of secondary stalinization soil in irrigation region of Yellow River of Hongsipu, Ningxia. Soils 43:650–656
  
• 作者单位：Danfeng Sun (1)
  Xiaoqian Yu (2)
  Xiaona Liu (3)
  Baoguo Li (1)
  
  1. Department of Land Resources and Management, College of Resources and Environmental Sciences, China Agricultural University, Beijing, 100193, China
  2. Rongzhi College of Chongqing Technology and Business University, Chongqing, 400037, China
  3. Institute of System Comprehensive Development, Beijing Academy of Agriculture and Forest Science, Beijing, 100097, China
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Earth sciences
  Computer Applications in Geosciences
  Geosciences
  Simulation and Modeling
  
• 出版者：Springer Berlin Heidelberg
• ISSN：1865-0481

文摘

Understanding the ecological mechanisms and processes driving changes in our landscapes is significant for ecological conservation. This work used remote sensing with the extending contingency-based method to quantify the interchange relationship of land use types, and landscape metrics including spatially nuanced difference at patch level to track immigrants’ resettlement impacts at the semi-arid Hongsipu region with decadal agricultural pumping irrigation development in Ning Xia, China. Landsat-TM images acquired in 1989, 1999, 2003, and 2008 were used to study landscape changes in three periods, the earlier development from 1989 to 1999, the middle period in 1999–2003, and final stage in 2003–2008. The results showed the over 50 % landscape area experienced drastic change in each period with heavy immigrants’ perturbations since 1998. The nearly natural landscape with 1:1 area between desert and steppe in 1989 10 years before development, however, became the overwhelming barren landscape with almost 80 % of the study area in 2008, grassland and shrub land almost disappeared respectively, and cultivated land climbed to the third large type from about 2 % in 1989 to more than 16 % in 2008. The landscape became more fragmented, more regular shape with human disturbance spreading from the northwest low mountain and flat basin to the southeast diluvial fan, even high mountain at the end. Although Hongsipu pumping irrigation zone alleviates poor population pressure in the fragile ecological southern mountainous areas of Ningxia, the new artificial oasis creates another possible new ecological risk of the study area. Therefore, besides the economic development, the ecological conservation and restoration measures should be also the primary objectives in order to successful resettlement immigrants.