Advanced search
Publication Cover
Geocarto International Volume 37, 2022 - Issue 12
Submit an article Journal homepage
546
Views
10
CrossRef citations to date
0
Altmetric
Original Articles

Ecological environment quality assessment of Xishuangbanna rubber plantations expansion (1995–2018) based on multi-temporal Landsat imagery and RSEI

Yuan Xionga College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
,
Weiheng Xua College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, China;b Institute of Big Data and Artificial Intelligence, Southwest Forestry University, Kunming, Yunnan, China;c Key Laboratory of National Forestry and Grassland Administration on Forestry and Ecological Big Data, Southwest Forestry University, Kunming, Yunnan, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-9588-4931View further author information
ORCID Icon,
Shaodong Huanga College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
,
Chao Wua College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
,
Fei Daia College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, China;b Institute of Big Data and Artificial Intelligence, Southwest Forestry University, Kunming, Yunnan, China;c Key Laboratory of National Forestry and Grassland Administration on Forestry and Ecological Big Data, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
,
Leiguang Wangb Institute of Big Data and Artificial Intelligence, Southwest Forestry University, Kunming, Yunnan, China;c Key Laboratory of National Forestry and Grassland Administration on Forestry and Ecological Big Data, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
,
Ning Lua College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
&
Weili Koua College of Big Data and Intelligent Engineering, Southwest Forestry University, Kunming, Yunnan, ChinaView further author information
 show all
Pages 3441-3468 | Received 20 Jul 2020, Accepted 10 Nov 2020, Published online: 05 Jan 2021

References

  • Ahrends A, Hollingsworth PM, Ziegler AD, Fox JM, Chen HF, Su YF, Xu JC. 2015. Current trends of rubber plantation expansion may threaten biodiversity and livelihoods. Global Environmental Change-Human and Policy Dimensions. 34:48–58.
  • Beckschäfer P. 2017. Obtaining rubber plantation age information from very dense landsat tm & etm + time series data and pixel-based image compositing. Remote Sens Environ. 196:89–100.
  • Cao M, Zhang JH. 1997. Tree species diversity of tropical forest vegetation in xishuangbanna, SW china. Biodivers Conserv. 6 (7):995–1006.
  • Cao M, Zhang JH, Feng ZL, Deng JW, Deng XB. 1996. Tree species composition of a seasonal rain forest in xishuangbanna, Southwest China. Trop Ecol. 37:183–192.
  • Chen B, Xiao X, Li X, Pan L, Doughty R, Ma J, Dong J, Qin Y, Zhao B, Wu Z, et al. 2017. A mangrove forest map of China in 2015: analysis of time series landsat 7/8 and Sentinel-1a imagery in Google earth engine cloud computing platform. ISPRS J Photogramm Remote Sens. 131:104–120.
  • Chen BQ, Li XP, Xiao XM, Zhao B, Dong JW, Kou WL, Qin YW, Yang C, Wu ZX, Sun R, et al. 2016. Mapping tropical forests and deciduous rubber plantations in Hainan Island, China by integrating Palsar 25-m and multi-temporal landsat images. Int J Appl Earth Obs Geoinf. 50:117–130.
  • Chen M-F, Tzeng G-H, Ding CG. 2008. Combining fuzzy ahp with mds in identifying the preference similarity of alternatives. Appl Soft Comput. 8 (1):110–117.
  • Dong J, Xiao X, Chen B, Torbick N, Jin C, Zhang G, Biradar C. 2013. Mapping deciduous rubber plantations through integration of palsar and multi-temporal landsat imagery. Remote Sens Environ. 134:392–402.
  • Fan H, Fu XH, Zhang Z, Wu Q. 2015. Phenology-based vegetation index differencing for mapping of rubber plantations using landsat oli data. Remote Sensing. 7 (5):6041–6058.
  • Foga S, Scaramuzza PL, Guo S, Zhu Z, Dilley RD, Beckmann T, Schmidt GL, Dwyer JL, Hughes MJ, Laue B. 2017. Cloud detection algorithm comparison and validation for operational landsat data products. Remote Sens Environ. 194:379–390.
  • Fox J, Castella JC. 2013. Expansion of rubber (Hevea brasiliensis) in mainland southeast asia: what are the prospects for smallholders. J Peasant Stud. 40 (1):155–170.
  • Fujiki S, Okada K-I, Nishio S, Kitayama K. 2016. Estimation of the stand ages of tropical secondary forests after shifting cultivation based on the combination of worldview-2 and time-series landsat images. ISPRS J Photogramm Remote Sens. 119:280–293.
  • Gao BC, Kaufman YJ. 2003. Water vapour retrievals using moderate resolution imaging spectroradiometer (modis) near-infra-red channels. J Geophys Res Atmos. 108 (D13).
  • Gao S, Liu X, Bo Y, Shi Z, Zhou H. 2019. Rubber identification based on blended high spatio-temporal resolution optical remote sensing data: a case study in Xishuangbanna. Remote Sensing. 11(5):496.
  • García MJL, Caselles V. 1991. Mapping burns and natural reforestation using thematic mapper data. Geocarto Int. 6 (1):31–37.
  • Gorelick N, Hancher M, Dixon M, Ilyushchenko S, Thau D, Moore R. 2017. Google earth engine: planetary-scale geospatial analysis for everyone. Remote Sens Environ. 202:18–27.
  • Guardiola-Claramonte M, Troch PA, Ziegler AD, Giambelluca TW, Durcik M, Vogler JB, Nullet MA. 2010. Hydrologic effects of the expansion of rubber (Hevea brasiliensis) in a tropical catchment. Ecohydrology. 3 (3):306–314.
  • Hang X, Luo XC, Cao Y, Li YC. 2020. [Ecological quality assessment and the impact of urbanisation based on RSEI model for Nanjing, Jiangsu Province, China]. Ying Yong Sheng Tai Xue Bao. 31 (1):219–229.
  • Hansen MC, Potapov PV, Goetz SJ, Turubanova S, Tyukavina A, Krylov A, Kommareddy A, Egorov A. 2016. Mapping tree height distributions in sub-Saharan Africa using Landsat 7 and 8 data. Remote Sens Environ. 185:221–232.
  • Hu X, Xu H. 2018. A new remote sensing index for assessing the spatial heterogeneity in urban ecological quality: a case from Fuzhou City, China. Ecol Indic. 89:11–21.
  • Huete A, Didan K, Miura T, Rodriguez EP, Gao X, Ferreira LG. 2002. Overview of the radiometric and biophysical performance of the modis vegetation indices. Remote Sens Environ. 83 (1–2):195–213.
  • Jimenez-Munoz JC, Cristobal J, Sobrino JA, Soria G, Ninyerola M, Pons X, Pons X. 2009. Revision of the single-channel algorithm for land surface temperature retrieval from landsat thermal-infra-red data. IEEE Trans Geosci Remote Sensing. 47 (1):339–349.
  • Jimenez-Munoz JC, Sobrino JA, Skokovic D, Mattar C, Cristobal J. 2014. Land surface temperature retrieval methods from landsat-8 thermal infra-red sensor data. IEEE Geosci Remote Sensing Lett. 11 (10):1840–1843.
  • Jing YQ, Zhang F, He YF, Kung HT, Johnson VC, Arikena M. 2020. Assessment of spatial and temporal variation of ecological environment quality in ebinur lake wetland national nature reserve, Xinjiang, China. Ecol Indic. 110:105874.
  • Kitajima K, Mulkey SS, Wright SJ. 1997. Decline of photosynthetic capacity with leaf age in relation to leaf longevities for five tropical canopy tree species. Am J Bot. 84 (5):702–708.
  • Kou WL, Xiao XM, Dong JW, Gan S, Zhai DL, Zhang GL, Qin YW, Li L. 2015. Mapping deciduous rubber plantation areas and stand ages with palsar and landsat images. Remote Sensing. 7 (1):1048–1073.
  • Kumar L, Mutanga O. 2018. Google earth engine applications since inception: usage, trends, and potential. Remote Sensing. 10 (10):1509.
  • Li HM, Aide TM, Ma YX, Liu WJ, Cao M. 2007. Demand for rubber is causing the loss of high diversity rain forest in sw china. Biodivers Conserv. 16 (6):1731–1745.
  • Li HM, Ma YX, Aide TM, Liu WJ. 2008. Past, present and future land-use in Xishuangbanna, China and the implications for carbon dynamics. For Ecol Manage. 255 (1):16–24.
  • Li HM, Ma YX, Liu WJ, Liu WJ. 2012. Soil changes induced by rubber and tea plantation establishment: comparison with tropical rain forest soil in Xishuangbanna, SW China. Environ Manage. 50 (5):837–848.
  • Li J, Song C, Cao L, Zhu F, Meng X, Wu J. 2011. Impacts of landscape structure on surface urban heat islands: a case study of Shanghai, China. Remote Sens Environ. 115 (12):3249–3263.
  • Li P, Zhang J, Feng Z. 2015. Mapping rubber tree plantations using a landsat-based phenological algorithm in Xishuangbanna, Southwest China. Remote Sensing Lett. 6 (1):49–58.
  • Li Z, Fox JM. 2011. Integrating mahalanobis typicalities with a neural network for rubber distribution mapping. Remote Sensing Lett. 2 (2):157–166.
  • Li Z, Fox JM. 2012. Mapping rubber tree growth in mainland Southeast Asia using time-series modis 250 m ndvi and statistical data. Appl Geogr. 32 (2):420–432.
  • Liu C, Guenard B, Blanchard B, Peng YQ, Economo EP. 2016. Reorganisation of taxonomic, functional, and phylogenetic ant biodiversity after conversion to rubber plantation. Ecol Monogr. 86 (2):215–227.
  • Liu P, Wen H, Harich FK, He C, Wang L, Guo X, Zhao J, Luo A, Yang H, Sun X, et al. 2017a. Conflict between conservation and development: cash forest encroachment in Asian elephant distributions. Sci Rep. 7 (1):6404.
  • Liu SL, Yin YJ, Liu XH, Cheng FY, Yang JJ, Li JR, Dong SK, Zhu AN. 2017b. Ecosystem services and landscape change associated with plantation expansion in a tropical rainforest region of southwest china. Ecol Modell. 353:129–138.
  • Mahdi IM, Alreshaid K. 2005. Decision support system for selecting the proper project delivery method using analytical hierarchy process (AHP). Int J Project Manage. 23 (7):564–572.
  • Mann CC. 2009. Addicted to rubber. Science. 325 (5940):564–566.
  • Masek JG, Vermote EF, Saleous NE, Wolfe R, Hall FG, Huemmrich KF, Gao F, Kutler J, Lim T-K. 2006. A landsat surface reflectance dataset for North America, 1990-2000. IEEE Geosci Remote Sensing Lett. 3 (1):68–72.
  • Meng Y, Zhao GX. 2009. Evaluation of ecological environment status in Hekou District based on satellite remote sensing data: taking Kenli county of the yellow river delta as an example. China Environ Sci. 29 (02):163–167.
  • Min S, Waibel H, Cadisch G, Langenberger G, Bai JF, Huang JK. 2017. The economics of smallholder rubber farming in a mountainous region of Southwest China: elevation, ethnicity, and risk. Mt Res Dev. 37 (3):281–293.
  • Mohd HMH, Tuan MTM. 2018. The viability of remote sensing for extracting rubber smallholding information: a case study in Malaysia. Egypt J Remote Sensing Space Sci. 23 (1):35–47.
  • Mongkolsawat C, Putklang W. 2010. An approach for estimating area of rubber plantation: integrating satellite and physical data over the northeast thailanded. Proceedings of the 31th Asian Conference on Remote Sensing, Vietnam. p. 1–5.
  • Mongkolsawat C, Putklang W. 2012. Rubber tree expansion in forest reserve and paddy field across the greater Mekong sub-region, Northeast Thailand based on remotely sensed imageryed. The 33rd Asian Conference on Remote Sensing, Pattaya, Thailand. p. 214–219.
  • Montanaro M, Gerace A, Lunsford A, Reuter D. 2014. Stray light artefacts in imagery from the landsat 8 thermal infra-red sensor. Remote Sensing. 6 (11):10435–10456.
  • Niu YQ, Wang SL. 2017. Research on coupling relationship between fragile ecologicalenvironment and poverty in Gansu province. Acta Ecol Sin. 37 (19):6431–6439.
  • Parastatidis D, Mitraka Z, Chrysoulakis N, Abrams M. 2017. Online global land surface temperature estimation from landsat. Remote Sensing. 9 (12):1208.
  • Qin YW, Xiao XM, Dong JW, Chen BQ, Liu F, Zhang GL, Zhang Y, Wang J, Wu XC. 2017. Quantifying annual changes in built-up area in complex urban-rural landscapes from analyses of palsar and landsat images. ISPRS J Photogramm Remote Sens. 124:89–105.
  • Qiu J. 2009. Where the rubber meets the garden. Nature. 457 (7227):246–247.
  • Qiu J. 2010. China drought highlights future climate threats. Nature. 465 (7295):142–143.
  • Ramanathan R, Ganesh LS. 1995. Energy resource allocation incorporating qualitative and quantitative criteria: an integrated model using goal programming and AHP. Socio-Econ Plan Sci. 29 (3):197–218.
  • Saaty TL. 1977. A scaling method for priorities in hierarchical structures. J Math Psychol. 15 (3):234–281.
  • Saaty TL. 1990. How to make a decision: the analytic hierarchy process. Eur J Oper Res. 48 (1):9–26.
  • Senf C, Pflugmacher D, Van Der Linden S, Hostert P. 2013. Mapping rubber plantations and natural forests in Xishuangbanna (Southwest China) using multi-spectral phenological metrics from modis time series. Remote Sensing. 5(6):2795–2812.
  • Shan W, Jin XB, Ren J, Wang YC, Xu ZG, Fan YT, Gu ZM, Hong CQ, Lin JH, Zhou YK. 2019. Ecological environment quality assessment based on remote sensing data for land consolidation. J Clean Prod. 239:118126.
  • Song HM, Xue L. 2016. [Dynamic monitoring and analysis of ecological environment in Weinan City, Northwest China based on RSEI model]. Ying Yong Sheng Tai Xue Bao. 27 (12):3913–3919.
  • Song MJ, Luo YY, Duan LM. 2019. Evaluation of ecological environment in the xinlin gol steppe based on modified remote sensing ecological index model. Arid Zone Res. 36 (06):1521–1527.
  • Tsai YH, Stow D, Chen HL, Lewison R, An L, Shi L. 2018. Mapping vegetation and land use types in Fanjingshan National Nature Reserve using Google earth engine. Remote Sensing. 10 (6):927.
  • Tucker CJ. 1979. Red and photographic infra-red linear combinations for monitoring vegetation. Remote Sens Environ. 8 (2):127–150.
  • Vermote E, Roger JC, Franch B, Skakun S. 2018. LASRC (land surface reflectance code): overview, application and validation using modis, viirs, landsat and sentinel 2 data's. IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium. p. 8173–8176.
  • Vogelmann JE, Rock BN. 1988. Assessing forest damage in high-elevation coniferous forests in Vermont and New Hampshire using thematic mapper data. Remote Sens Environ. 24 (2):227–246.
  • Wang JE, Xiao XM, Qin YW, Dong JW, Geissler G, Zhang GL, Cejda N, Alikhani B, Doughty RB. 2017a. Mapping the dynamics of eastern redcedar encroachment into grasslands during 1984-2010 through palsar and time series landsat images. Remote Sens Environ. 190:233–246.
  • Wang Y, Gong HL, Li XJ. 2008. Monitoring and analysis of ecological environment quality in Beijing based on GIS. Remote Sensing Land Resour. 1 (01):91–96.
  • Wang Y, Liu Z, Yao J, Bayin C. 2017b. Effect of climate and land use change in ebinur lake basin during the past five decades on hydrology and water resources. Water Resour. 44 (2):204–215.
  • Wen XL, Ming YL, Gao YG, Hu XY. 2020. Dynamic monitoring and analysis of ecological quality of pingtan comprehensive experimental zone, a new type of sea island city, based on RSEI. Sustainability. 12 (1):1–14.
  • Xiao C, Li P, Feng Z. 2019a. Monitoring annual dynamics of mature rubber plantations in xishuangbanna during 1987-2018 using landsat time series data: a multiple normalisation approach. Int J Appl Earth Obs Geoinf. 77:30–41.
  • Xiao C, Li P, Feng Z, Liu X. 2019b. An updated delineation of stand ages of deciduous rubber plantations during 1987-2018 using landsat-derived bi-temporal thresholds method in an anti-chronological strategy. Int J Appl Earth Obs Geoinf. 76:40–50.
  • Xiao C, Li P, Feng Z, Liu Y, Zhang X. 2020. Sentinel-2 red-edge spectral indices (RESI) suitability for mapping rubber boom in luang namtha province, Northern Lao PDR. Int J Appl Earth Obs Geoinf. 93:102176.
  • Xiao CW, Li P, Feng ZM. 2019c. How did deciduous rubber plantations expand spatially in China's Xishuangbanna dai autonomous prefecture during 1991-2016? Photogramm Eng Remote Sensing. 85 (9):687–697.
  • Xiao CW, Li P, Feng ZM, Lin YM, You Z, Yang YZ. 2019d. Mapping rubber plantations in xishuangbanna, southwest china based on the re-normalisation of two landsat-based vegetation-moisture indices and meteorological data. Geocarto Int. 1–15.doi:https://doi.org/10.1080/10106049.2019.1687592
  • Xiao X, Hollinger D, Aber J, Goltz M, Davidson EA, Zhang Q, Moore B. 2004. Satellite-based modelling of gross primary production in an evergreen needleleaf forest. Remote Sens Environ. 89 (4):519–534.
  • Xiong Y, Zeng GM, Chen GQ, Tang L, Wang KL, Huang DY. 2007. Combining ahp with GIS in synthetic evaluation of eco-environment quality - a case study of hunan province, China. Ecol Modell. 209 (2-4):97–109.
  • Xu H. 2008. A new index for delineating built-up land features in satellite imagery. Int J Remote Sens. 29 (14):4269–4276.
  • Xu H, Wang M, Shi T, Guan H, Fang C, Lin Z. 2018. Prediction of ecological effects of potential population and impervious surface increases using a remote sensing based ecological index (rsei). Ecol Indic. 93:730–740.
  • Xu HQ. 2013. A remote sensing index for assessment of regional ecological changes. China Environ Sci. 33 (05):889–897.
  • Xu JC, Fox J, Vogler JB, Zhang PF, Fu YS, Yang LX, Jie Q, Leisz S. 2005. Land-use and land-cover change and farmer vulnerability in xishuangbanna prefecture in Southwestern China. Environ Manag. 36 (3):404–413.
  • Xu K, Guan K, Peng J, Luo Y, Wang S. 2019. Deepmask: an algorithm for cloud and cloud shadow detection in optical satellite remote sensing images using deep residual network. arXiv preprint arXiv. 1911.03607 :1–17.
  • Xu W, Huang S, Wu C, Xiong Y, Wang L, Lu N, Kou W. 2020. The pruning phenological phase-based method for extracting tea plantations by field hyperspectral data and landsat time series imagery. Geocarto Int. 1–21.doi:https://doi.org/10.1080/10106049.2020.1801859
  • Yan-Ping C, Zhao-Lu W. 2009. Ecological issues and loss risk of cold-resistant rubber germplasm resource in xishuangbanna. Ying Yong Sheng Tai Xue Bao = J Appl Ecol. 20 (7):1613–1616.
  • Yi ZF, Cannon CH, Chen J, Ye CX, Swetnam RD. 2014. Developing indicators of economic value and biodiversity loss for rubber plantations in Xishuangbanna, Southwest China: a case study from Menglun township. Ecol Indic. 36:788–797.
  • Zha Y, Gao J, Ni S. 2003. Use of normalised difference built-up index in automatically mapping urban areas from tm imagery. Int J Remote Sens. 24 (3):583–594.
  • Zhang J-Q, Corlett RT, Zhai D. 2019a. After the rubber boom: good news and bad news for biodiversity in Xishuangbanna, Yunnan, China. Reg Environ Change. 19 (6):1713–1724.
  • Zhang JH, Cao M. 1995. Tropical forest vegetation of Xishuangbanna, SW China and its secondary changes, with special reference to some problems in local nature conservation. Biol Conserv. 73(3):229–238.
  • Zhang L, Liu L, Xia Z, Li W, Fan Q. 2016. Sparse trajectory prediction based on multiple entropy measures. Entropy. 18 (9):327.
  • Zhang TY, Wang L, Wang H, Peng L. 2017. Remote sensing monitoring of ecological environment in salinized irrigation areas of Manas river basin. Acta Ecol Sin. 37 (09):3009–3018.
  • Zhang WQ, Sun CJ, Li XG. 2019b. Vegetation cover change and ecological effect assessment in the loess plateau of southwest Shanxi province based on remote sensing image. J Nat Resour. 34 (08):1748–1758.
  • Zhu X, Chen J, Gao F, Chen X, Masek JG. 2010. An enhanced spatial and temporal adaptive reflectance fusion model for complex heterogeneous regions. Remote Sens Environ. 114 (11):2610–2623.
  • Zhu Z, Wang S, Woodcock CE. 2015. Improvement and expansion of the fmask algorithm: cloud, cloud shadow, and snow detection for landsats 4–7, 8, and sentinel 2 images. Remote Sens Environ. 159:269–277.
  • Ziegler AD, Fox JM, Xu JC. 2009. Agriculture. The rubber juggernaut. Science. 324(5930):1024–1025.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.