Advanced search
Publication Cover
Geo-spatial Information Science Volume 19, 2016 - Issue 4
Submit an article Journal homepage
1,476
Views
5
CrossRef citations to date
0
Altmetric
Articles

Developing water quality retrieval models with in situ hyperspectral data in Poyang Lake, China

Fangyuan ChenSchool of Resource and Environmental Sciences, Wuhan University, Wuhan, ChinaCorrespondence[email protected]
,
Di XiaoSchool of Resource and Environmental Sciences, Wuhan University, Wuhan, China
&
Zhuochao LiState-owned Assets Supervision and Administration Commission of Caidian District, Wuhan, China
Pages 255-266 | Received 02 Nov 2015, Accepted 12 Jul 2016, Published online: 07 Dec 2016

References

  • Allan, M. G., D. P. Hamilton, B. J. Hicks, and L. Brabyn. 2011. “Landsat Remote Sensing of Chlorophyll a Concentrations in Central North Island Lakes of New Zealand.” International Journal of Remote Sensing 32 (7): 2037–2055.10.1080/01431161003645840
  • Brezonik, P., K. D. Menken, and M. Bauer. 2005. “Landsat-based Remote Sensing of Lake Water Quality Characteristics, Including Chlorophyll and Colored Dissolved Organic Matter (CDOM).” Lake and Reservoir Management 21 (4): 373–382.10.1080/07438140509354442
  • Carpenter, D. J., and S. M. Carpenter. 1983. “Modeling Inland Water Quality Using Landsat Data.” Remote Sensing of Environment 13 (4): 345–352.10.1016/0034-4257(83)90035-4
  • Cawley, G. C., and N. L. C. Talbot. 2004. “Fast Exact Leave-one-out Cross-validation of Sparse Least-squares Support Vector Machines.” Neural Networks 17 (10): 1467–1475.10.1016/j.neunet.2004.07.002
  • Chen, S., L. Fang, H. Li, W. Chen, and W. Huang. 2011. “Evaluation of a Three-band Model for Estimating Chlorophyll-a Concentration in Tidal Reaches of the Pearl River Estuary, China.” ISPRS Journal of Photogrammetry and Remote Sensing 66 (3): 356–364.10.1016/j.isprsjprs.2011.01.004
  • Chen, X., Z. Wu, L. Tian, L. Chen, and Y. Ye. 2007. “Inversion Model for Dynamic Monitoring of Suspended Sediment: A Case Study on Poyang Lake.” [ In Chinese.] Science & Technology Review 25 (6): 19–22.
  • CLOUTIS, E. A. 1996. “Hyperspectral Geological Remote Sensing: Evaluation of Analytical Techniques.” International Journal of Remote Sensing 17 (12): 2215–2242.10.1080/01431169608948770
  • Craven, P., and G. Wahba. 1978. “Smoothing Noisy Data with Spline Functions: Estimating the Correct Degree of Smoothing by the Method of Generalized Cross-validation.” Numerische Mathematik 31 (4): 377–403.10.1007/BF01404567
  • Cui, L., G. Wu, and Y. Liu. 2009. “Monitoring the Impact of Backflow and Dredging on Water Clarity Using MODIS Images of Poyang Lake, China.” Hydrological Processes 23 (2): 342–350.10.1002/hyp.v23:2
  • Cui, L., Y. Zhai, and G. Wu. 2013. “Dredging Being Moved Southward Enlarges the Impacted Region in Poyang Lake – The Evidences from Multi-remote Sensing Images.” [ In Chinese.] Acta Ecologica Sinica 33 (11): 3520–3525.
  • Dekker, A. G., T. J. Malthus, M. M. Wijnen, and E. Seyhan. 1992. “Remote Sensing as a Tool for Assessing Water Quality in Loosdrecht lakes.” Hydrobiologia 233 (1): 137–159.10.1007/BF00016102
  • Deng, X., Y. Zhao, F. Wu, Y. Lin, Q. Lu, and J. Dai. 2011. “Analysis of the Trade-off Between Economic Growth and the Reduction of Nitrogen and Phosphorus Emissions in the Poyang Lake Watershed, China.” Ecological Modelling 222 (2): 330–336.10.1016/j.ecolmodel.2010.08.032
  • Doerffer, R., and H. Schiller. 2007. “The MERIS Case 2 Water Algorithm.” International Journal of Remote Sensing 28 (3): 517–535.10.1080/01431160600821127
  • Doxaran, D., N. Cherukuru, and S. J. Lavender. 2006. “Apparent and Inherent Optical Properties of Turbid Estuarine Waters: Measurements, Empirical Quantification Relationships, and Modeling.” Applied Optics 45 (10): 2310–2324.10.1364/AO.45.002310
  • Duan, H. T., R. H. Ma, J. P. Xu, Y. Z. Zhang, and B. Zhang. 2010a. “Comparison of Different Semi-empirical aLgorithms to Estimate Chlorophyll-a Concentration in Inland Lake Water.” Environmental Monitoring and Assessment 170 (1–4): 231–244.10.1007/s10661-009-1228-7
  • Duan, H. T., R. H. Ma, Y. Z. Zhang, S. A. Loiselle, J. P. Xu, C. L. Zhao, L. Zhou, and L. L. Shang. 2010b. “A New Three-band Algorithm For Estimating Chlorophyll Concentrations In Turbid Inland Lakes.” Environmental Research Letters 5 (4): 044009.10.1088/1748-9326/5/4/044009
  • Feng, L., C. Hu, X. Chen, L. Tian, and L. Chen. 2012. “Human Induced Turbidity Changes in Poyang Lake between 2000 and 2010: Observations from MODIS.” Journal of Geophysical Research: Oceans 117 (C7): C07006.
  • Feng, L., C. M. Hu, X. X. Han, X. L. Chen, and L. Qi. 2015. “Long-term Distribution Patterns of Chlorophyll-a Concentration in China’s Largest Freshwater Lake: MERIS Full-resolution Observations with a Practical Approach.” Remote Sensing 7 (1): 275–299. doi:10.3390/rs70100275.
  • Giardino, C., V. E. Brando, A. G. Dekker, N. Strömbeck, and G. Candiani. 2007. “Assessment of Water Quality in Lake Garda (Italy) Using Hyperion.” Remote Sensing of Environment 109 (2): 183–195.10.1016/j.rse.2006.12.017
  • Giardino, C., M. Bresciani, P. Villa, and A. Martinelli. 2010. “Application of Remote Sensing in Water Resource Management: The Case Study of Lake Trasimeno, Italy.” Water Resources Management 24 (14): 3885–3899.10.1007/s11269-010-9639-3
  • Gitelson, A. A., D. Gurlin, W. J. Moses, and T. Barrow. 2009. “A Bio-optical Algorithm for the Remote Estimation of the Chlorophyll- a Concentration in Case 2 Waters.” Environmental Research Letters 4 (4): 045003.10.1088/1748-9326/4/4/045003
  • Gilerson, A. A., A. A. Gitelson, J. Zhou, D. Gurlin, W. Moses, I. Ioannou, and S. A. Ahmed. 2010. “Algorithms for Remote Estimation of Chlorophyll-a in Coastal and Inland Waters Using Red and Near Infrared Bands.” Optics Express 18 (23): 24109–24125.10.1364/OE.18.024109
  • Govender, M., K. Chetty, and H. Bulcock. 2007. “A Review of Hyperspectral Remote Sensing and Its Application in Vegetation and Water Resource Studies.” Water SA 33 (2): 145–151.
  • Gurlin, D., A. A. Gitelson, and W. J. Moses. 2011. “Remote Estimation of Chl-a Concentration in Turbid Productive Waters – Return to a Simple Two-band NIR-Red Model?” Remote Sensing of Environment 115 (12): 3479–3490. doi:10.1016/j.rse.2011.08.011.
  • Huang, J. C., J. F. Gao, and Y. J. Zhang. 2015. “Combination of Artificial Neural Network and Clustering Techniques for Predicting Phytoplankton Biomass of Lake Poyang, China.” Limnology 16 (3): 179–191. doi:10.1007/s10201-015-0454-7.
  • Huang, X. 1999. Eco-Investigation, Observation and Analysis of Lakes. [ In Chinese.] Beijing: Standard Press of China.
  • Jin, X., H. Liu, and Q. Tu. 1990. Eutrophication of Lakes in China. [ In Chinese.] Beijing: Chinese Environment Science Press.
  • Jorgensen, S. E., H. Loffler, W. Rast, and M. Straskraba. 2005. Lake and Reservoir Management, Volume 54 (Developments in Water Science). Amsterdam: Elsevier Publishers.
  • Kallio, K., T. Kutser, T. Hannonen, S. Koponen, J. Pulliainen, J. Vepsäläinen, and T. Pyhälahti. 2001. “Retrieval of Water Quality from Airborne Imaging Spectrometry of Various Lake Types in Different Seasons.” Science of The Total Environment 268 (1-3): 59–77.10.1016/S0048-9697(00)00685-9
  • Kilham, N. E., and D. Roberts. 2011. “Amazon River Time Series of Surface Sediment Concentration from MODIS.” International Journal of Remote Sensing 32 (10): 2659–2679.10.1080/01431161003713044
  • Kirk, J. T. O. 1994. Light and Photosynthesis in Aquatic Ecosystems. New York: Cambridge University Press.10.1017/CBO9780511623370
  • Kishino, M., A. Tanaka, and J. Ishizaka. 2005. “Retrieval of Chlorophyll a, Suspended Solids, and Colored Dissolved Organic Matter in Tokyo Bay Using ASTER Data.” Remote Sensing of Environment 99 (1–2): 66–74.10.1016/j.rse.2005.05.016
  • Li, Y. M., Q. Wang, C. Q. Wu, S. H. Zhao, X. Xu, Y. F. Wang, and C. C. Huang. 2012. “Estimation of Chlorophyll a Concentration Using NIR/Red Bands of MERIS and Classification Procedure in Inland Turbid Water.” IEEE Transactions on Geoscience and Remote Sensing 50 (3): 988–997.10.1109/TGRS.2011.2163199
  • Ma, R., H. Duan, J. Tang, and Z. Chen. 2010. Remote Sensing of Lake Water Environment. [ In Chinese.] Beijing: Science Press.
  • Ma, R., J. Tang, and J. Dai. 2006a. “Bio-Optical Model with Optimal Parameter Suitable for Taihu Lake in Water Colour Remote Sensing.” International Journal of Remote Sensing 27 (19): 4305–4328.10.1080/01431160600857428
  • Ma, R. H., J. Tang, J. Dai, Y. Zhang, and Q. Song. 2006b. “Absorption and Scattering Properties of Water Body in Taihu Lake, China: Absorption.” International Journal of Remote Sensing 27 (19): 4277–4304.10.1080/01431160600851835
  • Ma, R., J. Tang, H. Duan, and D. Pan. 2009. “Progress in Lake Water Color Remote Sensing.” [ In Chinese.] Journal of Lake Science 21 (2): 143–158.
  • Moses, W. J., A. A. Gitelson, S. Berdnikov, and V. Povazhnyy. 2009a. “Estimation of Chlorophyll- a Concentration in Case II Waters Using MODIS and MERIS Data-successes and Challenges.” Environmental Research Letters 4 (4): 045005.10.1088/1748-9326/4/4/045005
  • Moses, W. J., A. A. Gitelson, S. Berdnikov, and V. Povazhnyy. 2009b. “Satellite Estimation of Chlorophyll-a Concentration Using the Red and NIR Bands of MERIS-The Azov Sea Case Study.” IEEE Geoscience and Remote Sensing Letters 6 (4): 845–849.10.1109/LGRS.2009.2026657
  • Mueller, J. L., G. S. Fargion, and C. R. McClain, eds. 2003. Ocean Optics Protocols for Satellite Ocean Color Sensor Validation, Revision 4, Volume I-IV. Maryland, US: NASA Goddard Space Flight Center. http://oceancolor.gsfc.nasa.gov/cms/techdocs.
  • Nas, B., H. Karabork, S. Ekercin, and A. Berktay. 2009. “Mapping Chlorophyll-a Through In-Situ Measurements and Terra ASTER Satellite Data.” Environmental Monitoring and Assessment 157 (1–4): 375–382.10.1007/s10661-008-0542-9
  • O’Sullivan, P. E., and C. S. Reynolds, eds. 2005. The Lakes Handbook (Volume II): Lake Restoration and Rehabilitation. Oxford, UK: Blackwell Publishing.
  • Odermatt, D., C. Giardino, and T. Heege. 2010. “Chlorophyll Retrieval With MERIS Case-2-Regional in Perialpine Lakes.” Remote Sensing of Environment 114 (3): 607–617.10.1016/j.rse.2009.10.016
  • Onderka, M., and P. Pekárová. 2008. “Retrieval of Suspended Particulate Matter Concentrations in the Danube River from Landsat ETM Data.” Science of The Total Environment 397 (1–3): 238–243.10.1016/j.scitotenv.2008.02.044
  • Randolph, K., J. Wilson, L. Tedesco, L. Li, D. L. Pascual, and E. Soyeux. 2008. “Hyperspectral Remote Sensing of Cyanobacteria in Turbid Productive Water Using Optically Active Pigments, Chlorophyll a and Phycocyanin.” Remote Sensing of Environment 112 (11): 4009–4019.10.1016/j.rse.2008.06.002
  • Rundquist, D. C., L. Han, J. F. Schalles, and J. S. Peake. 1996. “Remote Measurement of Algal Chlorophyll in Surface Waters, the Case for the First Derivative of Reflectance near 690 nm.” Photogrammetric Engineering and Remote Sensing 62 (2): 195–200.
  • Song, C., and L. ke. 2015. “Bathymetrical Influences on Spatial and Temporal Characteristics of Chlorophyll-a Concentrations in the Southern Ocean from 2002 to 2012 (October to March) Using MODIS.” Geo-spatial Information Science 18 (4): 200–211.10.1080/10095020.2015.1126934
  • Sun, D. Y., Y. M. Li, and Q. Wang. 2009. “A Unified Model for Remotely Estimating Chlorophyll a in Lake Taihu, China, Based on SVM and In Situ Hyperspectral Data.” IEEE Transactions on Geoscience and Remote Sensing 47 (8): 2957–2965.
  • Tang, S., Q. Dong, C. Chen, F. Liu, and G. Jin. 2009. “Retrieval of Suspended Sediment Concentration in the Pearl River Estuary from MERIS Using Support Vector Machines.” Proceedings of 2009 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) 3: 239–242.
  • Thiemann, S., and H. Kaufmann. 2002. “Lake Water Quality Monitoring Using Hyperspectral Airborne Data – A Semiempirical Multisensor and Multitemporal Approach for the Mecklenburg Lake District, Germany.” Remote Sensing of Environment 81 (2–3): 228–237.10.1016/S0034-4257(01)00345-5
  • Volpe, V., S. Silvestri, and M. Marani. 2011. “Remote Sensing Retrieval of Suspended Sediment Concentration in Shallow Waters.” Remote Sensing of Environment 115 (1): 44–54.10.1016/j.rse.2010.07.013
  • Wan, J., and W. Yan. 2007. “Evaluation Methods Application in and Probing into Eutrophication of Poyang Lake Area.” [ In Chinese.] Journal of Jiangxi Normal University (Natural Sciences Edition) 31 (2): 210–214.
  • Wang, J. J., and X. X. Lu. 2010. “Estimation of Suspended Sediment Concentrations Using Terra MODIS: An Example From the Lower Yangtze River, China.” Science of The Total Environment 408 (5): 1131–1138.10.1016/j.scitotenv.2009.11.057
  • Wang, T., W. Huang, L. Liu, J. Jia, and T. Shen. 2007. “Hyperspectral Monitoring Model of Eutrophication in Poyang Lake.” [ In Chinese.] Science of Surveying and Mapping 32 (4): 44–46.
  • Wu, G., L. Cui, H. Duan, T. Fei, and Y. Liu. 2011. “Absorption and Backscattering Coefficients and Their Relations to Water Constituents of Poyang Lake, China.” Applied Optics 50 (34): 6358–6368.10.1364/AO.50.006358
  • Wu, G., L. Cui, J. He, H. Duan, T. Fei, and Y. Liu. 2013. “Comparison of MODIS-based Models for Retrieving Suspended Particulate Matter Concentrations in Poyang Lake, China.” International Journal of Applied Earth Observation and Geoinformation 24: 63–72. doi:10.1016/j.jag.2013.03.001.
  • Wu, G., J. de Leeuw, A. K. Skidmore, H. H. H. Prins, and Y. Liu. 2007. “Concurrent Monitoring of Vessels and Water Turbidity Enhances the Strength of Evidence in Remotely Sensed Dredging Impact Assessment.” Water Research 41 (15): 3271–3280.10.1016/j.watres.2007.05.018
  • Xing, Q. G., C. Q. Chen, H. Y. Shi, P. Shi, and Y. Z. Zhang. 2008. “Estimation of Chlorophyll-a Concentrations in the Pearl River Estuary Using In Situ Hyperspectral Data: A Case Study.” Marine Technology Society Journal 42 (4): 22–27.10.4031/002533208787157688
  • Yacobi, Y. Z., W. J. Moses, S. Kaganovsky, B. Sulimani, B. C. Leavitt, and A. A. Gitelson. 2011. “NIR-Red Reflectance-based Algorithms for Chlorophyll-a Estimation in Mesotrophic Inland and Coastal Waters: Lake Kinneret Case Study.” Water Research 45 (7): 2428–2436.10.1016/j.watres.2011.02.002
  • Zhang, Y., S. Lin, J. Liu, X. Qian, and Y. Ge. 2010. “Time-series MODIS Image-based Retrieval and Distribution Analysis of Total Suspended Matter Concentrations in Lake Taihu (China).” International Journal of Environmental Research and Public Health 7 (9): 3545–3560.10.3390/ijerph7093545
  • Zhang, Y. L., M. L. Liu, B. Q. Qin, H. J. van der Woerd, J. S. Li, and Y. L. Li. 2009. “Modeling Remote-sensing Reflectance and Retrieving Chlorophyll-a Concentration in Extremely Turbid Case-2 Waters (Lake Taihu, China).” IEEE Transactions on Geoscience and Remote Sensing 47 (7): 1937–1948.10.1109/TGRS.2008.2011892
  • Zhen, L., F. Li, H. Huang, O. Dilly, J. Liu, Y. Wei, L. Yang, and X. Cao. 2011. “Households’ Willingness to Reduce Pollution Threats in the Poyang Lake Region, Southern China.” Journal of Geochemical Exploration 110 (1): 15–22.10.1016/j.gexplo.2011.02.003

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.