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International Journal of Remote Sensing Volume 42, 2021 - Issue 10
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Research Article

Exploring the potential of canopy reflectance spectra for estimating organic carbon content of aboveground vegetation in coastal wetlands

Hang Chenga School of Resource and Environmental Sciences, Wuhan University, Wuhan, ChinaORCID Iconhttps://orcid.org/0000-0001-7898-7472View further author information
ORCID Icon,
Jing Wangb College of Water Sciences, Beijing Normal University, Beijing, China;a School of Resource and Environmental Sciences, Wuhan University, Wuhan, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-6563-4555View further author information
ORCID Icon,
Yingkun Duc Academy of Agricultural Planning and Engineering, Ministry of Agriculture and Rural Affairs of the People’s Republic of China, Beijing, ChinaORCID Iconhttps://orcid.org/0000-0002-1771-2966View further author information
ORCID Icon,
Tianlin Zhaid College of Resources and Environmental Sciences, Henan Agricultural University, Zhengzhou, ChinaView further author information
,
Ying Fanga School of Resource and Environmental Sciences, Wuhan University, Wuhan, ChinaView further author information
&
Zehui Lia School of Resource and Environmental Sciences, Wuhan University, Wuhan, ChinaView further author information
Pages 3850-3872 | Received 14 Sep 2020, Accepted 04 Jan 2021, Published online: 14 Feb 2021

References

  • Barton, C. V. M. 2012. “Advances in Remote Sensing of Plant Stress.” Plant and Soil 354 (1–2): 41–44. doi:10.1007/s11104-011-1051-0.
  • Benkhettou, N., A. da Cruz, and D. F. M. Torres. 2015. “A Fractional Calculus on Arbitrary Time Scales: Fractional Differentiation and Fractional Integration.” Signal Processing 107: 230–237. doi:10.1016/j.sigpro.2014.05.026.
  • Blackburn, G. A. 1999. “Relationships between Spectral Reflectance and Pigment Concentrations in Stacks of Deciduous Broadleaves.” Remote Sensing of Environment 70 (2): 224–237. doi:10.1016/s0034-4257(99)00048-6.
  • Broge, N. H., and E. Leblanc. 2001. “Comparing Prediction Power and Stability of Broadband and Hyperspectral Vegetation Indices for Estimation of Green Leaf Area Index and Canopy Chlorophyll Density.” Remote Sensing of Environment 76 (2): 156–172. doi:10.1016/S0034-4257(00)00197-8.
  • Byrd, K. B., J. L. O’Connell, S. Di Tommaso, and M. Kelly. 2014. “Evaluation of Sensor Types and Environmental Controls on Mapping Biomass of Coastal Marsh Emergent Vegetation.” Remote Sensing of Environment 149: 166–180. doi:10.1016/j.rse.2014.04.003.
  • Byrd, K. B., L. Ballanti, N. Thomas, D. Nguyen, J. R. Holmquist, M. Simard, and L. Windham-Myers. 2018. “A Remote Sensing-based Model of Tidal Marsh Aboveground Carbon Stocks for the Conterminous United States.” ISPRS Journal of Photogrammetry and Remote Sensing 139: 255–271. doi:10.1016/j.isprsjprs.2018.03.019.
  • Byun, C., S. H. Lee, and H. Kang. 2019. “Estimation of Carbon Storage in Coastal Wetlands and Comparison of Different Management Schemes in South Korea.” Journal of Ecology and Environment 43 (1): 1–12. doi:10.1186/s41610-019-0106-7.
  • Chen, K., C. Li, and R. N. Tang. 2017. “Estimation of the Nitrogen Concentration of Rubber Tree Using Fractional Calculus Augmented NIR Spectra.” Industrial Crops and Products 108: 831–839. doi:10.1016/j.indcrop.2017.06.069.
  • Chen, T., Q. R. Chang, J. Clevers, and L. Kooistra. 2015. “Rapid Identification of Soil Cadmium Pollution Risk at Regional Scale Based on Visible and Near-infrared Spectroscopy.” Environmental Pollution 206: 217–226. doi:10.1016/j.envpol.2015.07.009.
  • Chong, I. G., and C. H. Jun. 2005. “Performance of Some Variable Selection Methods When Multicollinearity Is Present.” Chemometrics and Intelligent Laboratory Systems 78 (1–2): 103–112. doi:10.1016/j.chemolab.2004.12.011.
  • Dotto, A. C., R. S. D. Dalmolin, A. Ten Caten, and S. Grunwald. 2018. “A Systematic Study on the Application of Scatter-corrective and Spectral-derivative Preprocessing for Multivariate Prediction of Soil Organic Carbon by Vis-NIR Spectra.” Geoderma 314: 262–274. doi:10.1016/j.geoderma.2017.11.006.
  • Fang, J. Y., A. P. Chen, C. H. Peng, S. Q. Zhao, and L. J. Ci. 2001. “Changes in Forest Biomass Carbon Storage in China between 1949 and 1998.” Science 292 (5525): 2320–2322. doi:10.1126/science.1058629.
  • Gao, B.-C. 1996. “NDWI—A Normalized Difference Water Index for Remote Sensing of Vegetation Liquid Water from Space.” Remote Sensing of Environment 58 (3): 257–266. doi:10.1016/s0034-4257(96)00067-3.
  • Ge, X. Y., J. Z. Wang, J. L. Ding, X. Y. Cao, Z. P. Zhang, J. Liu, and X. H. Li. 2019. “Combining UAV-based Hyperspectral Imagery and Machine Learning Algorithms for Soil Moisture Content Monitoring.” PeerJ 7. doi:10.7717/peerj.6926.
  • Gitelson, A. A., Y. J. Kaufman, and M. N. Merzlyak. 1996. “Use of a Green Channel in Remote Sensing of Global Vegetation from EOS-MODIS.” Remote Sensing of Environment 58 (3): 289–298. doi:10.1016/s0034-4257(96)00072-7.
  • Golhani, K., S. K. Balasundram, G. Vadamalai, and B. Pradhan. 2019. “Estimating Chlorophyll Content at Leaf Scale in Viroid-inoculated Oil Palm Seedlings (Elaeis Guineensis Jacq.) Using Reflectance Spectra (400 Nm – 1050 Nm).” International Journal of Remote Sensing 40 (19): 7647–7662. doi:10.1080/01431161.2019.1584930.
  • Gomez, C., P. Lagacherie, and G. Coulouma. 2008. “Continuum Removal versus PLSR Method for Clay and Calcium Carbonate Content Estimation from Laboratory and Airborne Hyperspectral Measurements.” Geoderma 148 (2): 141–148. doi:10.1016/j.geoderma.2008.09.016.
  • Guo, L., H. T. Zhang, T. Z. Shi, Y. Y. Chen, Q. H. Jiang, and M. Linderman. 2019. “Prediction of Soil Organic Carbon Stock by Laboratory Spectral Data and Airborne Hyperspectral Images.” Geoderma 337: 32–41. doi:10.1016/j.geoderma.2018.09.003.
  • Haboudane, D., J. R. Miller, N. Tremblay, P. J. Zarco-Tejada, and L. Dextraze. 2002. “Integrated Narrow-band Vegetation Indices for Prediction of Crop Chlorophyll Content for Application to Precision Agriculture.” Remote Sensing of Environment 81 (2–3): 416–426. doi:10.1016/S0034-4257(02)00018-4.
  • Hong, Y. S., S. C. Chen, Y. Zhang, Y. Y. Chen, L. Yu, Y. F. Liu, Y. L. Liu, H. Cheng, and Y. Liu. 2018. “Rapid Identification of Soil Organic Matter Level via Visible and Near-infrared Spectroscopy: Effects of Two-dimensional Correlation Coefficient and Extreme Learning Machine.” Science of the Total Environment 644: 1232–1243. doi:10.1016/j.scitotenv.2018.06.319.
  • Hong, Y. S., S. C. Chen, Y. L. Liu, Y. Zhang, L. Yu, Y. Y. Chen, Y. F. Liu, H. Cheng, and Y. Liu. 2019a. “Combination of Fractional Order Derivative and Memory-based Learning Algorithm to Improve the Estimation Accuracy of Soil Organic Matter by Visible and Near-infrared Spectroscopy.” Catena 174: 104–116. doi:10.1016/j.catena.2018.10.051.
  • Hong, Y. S., Y. L. Liu, Y. Y. Chen, Y. F. Liu, L. Yu, Y. Liu, and H. Cheng. 2019b. “Application of Fractional-order Derivative in the Quantitative Estimation of Soil Organic Matter Content through Visible and Near-infrared Spectroscopy.” Geoderma 337: 758–769. doi:10.1016/j.geoderma.2018.10.025.
  • Hubert, M., P. J. Rousseeuw, and K. Vanden Branden. 2005. “ROBPCA: A New Approach to Robust Principal Component Analysis.” Technometrics 47 (1): 64–79. doi:10.1198/004017004000000563.
  • Huete, A. R., H. Q. Liu, K. Batchily, and W. Van Leeuwen. 1997. “A Comparison of Vegetation Indices over A Global Set of TM Images for EOS-MODIS.” Remote Sensing of Environment 59 (3): 440–451. doi:10.1016/s0034-4257(96)00112-5.
  • Jensen, D., K. C. Cavanaugh, M. Simard, G. S. Okin, E. Castaneda-Moya, A. McCall, and R. R. Twilley. 2019a. “Integrating Imaging Spectrometer and Synthetic Aperture Radar Data for Estimating Wetland Vegetation Aboveground Biomass in Coastal Louisiana.” Remote Sensing 11 (21): 2533. doi:10.3390/rs11212533.
  • Jensen, D., M. Simard, K. Cavanaugh, Y. W. Sheng, C. G. Fichot, T. Pavelsky, and R. Twilley. 2019b. “Improving the Transferability of Suspended Solid Estimation in Wetland and Deltaic Waters with an Empirical Hyperspectral Approach.” Remote Sensing 11 (13): 1629. doi:10.3390/rs11131629.
  • Jin, X. L., K. S. Song, J. Du, H. J. Liu, and Z. D. Wen. 2017. “Comparison of Different Satellite Bands and Vegetation Indices for Estimation of Soil Organic Matter Based on Simulated Spectral Configuration.” Agricultural and Forest Meteorology 244: 57–71. doi:10.1016/j.agrformet.2017.05.018.
  • Kemper, T., and S. Sommer. 2002. “Estimate of Heavy Metal Contamination in Soils after a Mining Accident Using Reflectance Spectroscopy.” Environmental Science & Technology 36 (12): 2742–2747. doi:10.1021/es015747j.
  • Kharintsev, S. S., and M. K. Salakhov. 2004. “A Simple Method to Extract Spectral Parameters Using Fractional Derivative Spectrometry.” Spectrochimica Acta. Part A, Molecular and Biomolecular Spectroscopy 60 (8–9): 2125–2133. doi:10.1016/j.saa.2003.11.013.
  • Li, Y. L., Y. Liu, S. W. Wu, C. K. Wang, A. A. Xu, and X. Z. Pan. 2017. “Hyper-spectral Estimation of Wheat Biomass after Alleviating of Soil Effects on Spectra by Non-negative Matrix Factorization.” European Journal of Agronomy 84: 58–66. doi:10.1016/j.eja.2016.12.003.
  • Li, Z. H., X. L. Jin, C. J. Zhao, J. H. Wang, X. G. Xu, G. J. Yang, C. J. Li, and J. X. Shen. 2015. “Estimating Wheat Yield and Quality by Coupling the DSSAT-CERES Model and Proximal Remote Sensing.” European Journal of Agronomy 71: 53–62. doi:10.1016/j.eja.2015.08.006.
  • Marshak, A., Y. Knyazikhint, A. B. Davis, W. J. Wiscombe, and P. Pilewskie. 2000. “Cloud-vegetation Interaction: Use of Normalized Difference Cloud Index for Estimation of Cloud Optical Thickness.” Geophysical Research Letters 27 (12): 1695–1698. doi:10.1029/1999GL010993.
  • Osland, M. J., C. A. Gabler, J. B. Grace, R. H. Day, M. L. McCoy, J. L. McLeod, A. S. From, N. M. Enwright, L. C. Feher, C. L. Stagg, and S. B. Hartley. 2018. “Climate and plant controls on soil organic matter in coastal wetlands.„ Global Change Biology 24 (11): 5361–5379. doi:doi:10.1111/gcb.14376
  • Peñuelas, J., J. A. Gamon, A. L. Fredeen, J. Merino, and C. B. Field. 1994. “Reflectance Indices Associated with Physiological Changes in Nitrogen- and Water-limited Sunflower Leaves.” Remote Sensing of Environment 48 (2): 135–146. doi:10.1016/0034-4257(94)90136-8.
  • Rouse, J. W., Jr, R. H. Haas, J. A. Schell, and D. W. Deering. 1974. “Monitoring Vegetation Systems in the Great Plains with ERTS.” Third Earth Resources Technology Satellite–1 Symposium, Goddard Space Flight Center, Washington D.C. NASA special publication 351: 309–317.
  • Safari, A., and H. Sohrabi. 2020. “Integration of Synthetic Aperture Radar and Multispectral Data for Aboveground Biomass Retrieval in Zagros Oak Forests, Iran: An Attempt on Sentinel Imagery.” International Journal of Remote Sensing 41 (20): 8069–8095. doi:10.1080/01431161.2020.1771789.
  • Schmitt, J. M. 1998. “Fractional Derivative Analysis of Diffuse Reflectance Spectra.” Applied Spectroscopy 52 (6): 840–846. doi:10.1366/0003702981944580.
  • Shi, T. Z., H. Z. Liu, J. J. Wang, Y. Y. Chen, T. Fei, and G. F. Wu. 2014a. “Monitoring Arsenic Contamination in Agricultural Soils with Reflectance Spectroscopy of Rice Plants.” Environmental Science & Technology 48 (11): 6264–6272. doi:10.1021/es405361n.
  • Shi, T. Z., H. Z. Liu, Y. Y. Chen, J. J. Wang, and G. F. Wu. 2016a. “Estimation of Arsenic in Agricultural Soils Using Hyperspectral Vegetation Indices of Rice.” Journal of Hazardous Materials 308: 243–252. doi:10.1016/j.jhazmat.2016.01.022.
  • Shi, T. Z., J. J. Wang, Y. Y. Chen, and G. F. Wu. 2016b. “Improving the Prediction of Arsenic Contents in Agricultural Soils by Combining the Reflectance Spectroscopy of Soils and Rice Plants.” International Journal of Applied Earth Observation and Geoinformation 52: 95–103. doi:10.1016/j.jag.2016.06.002.
  • Shi, T. Z., Y. Y. Chen, Y. L. Liu, and G. F. Wu. 2014b. “Visible and Near-infrared Reflectance spectroscopy-An Alternative for Monitoring Soil Contamination by Heavy Metals.” Journal of Hazardous Materials 265: 166–176. doi:10.1016/j.jhazmat.2013.11.059.
  • Sims, D. A., and J. A. Gamon. 2002. “Relationships between Leaf Pigment Content and Spectral Reflectance across a Wide Range of Species, Leaf Structures and Developmental Stages.” Remote Sensing of Environment 81 (2–3): 337–354. doi:10.1016/s0034-4257(02)00010-x.
  • Tian, Y. C., X. Yao, J. Yang, W. X. Cao, and Y. Zhu. 2011. “Extracting Red Edge Position Parameters from Ground- and Space-based Hyperspectral Data for Estimation of Canopy Leaf Nitrogen Concentration in Rice.” Plant Production Science 14 (3): 270–281. doi:10.1626/pps.14.270.
  • Tucker, C. J. 1979. “Red and Photographic Infrared Linear Combinations for Monitoring Vegetation.” Remote Sensing of Environment 8 (2): 127–150. doi:10.1016/0034-4257(79)90013-0.
  • Vapnik, V. 1998. “Statistical Learning Theory.” In: Encyclopedia of the Sciences of Learning 41 (4): 3185.
  • Vapnik, V. N. 1999. “An Overview of Statistical Learning Theory.” IEEE Transactions on Neural Networks 10 (5): 988–999. doi:10.1109/72.788640.
  • Verboven, S., and M. Hubert. 2005. “LIBRA: A MATLAB Library for Robust Analysis.” Chemometrics and Intelligent Laboratory Systems 75 (2): 127–136. doi:10.1016/j.chemolab.2004.06.003.
  • Viscarra Rossel, R. A., and T. Behrens. 2010. “Using Data Mining to Model and Interpret Soil Diffuse Reflectance Spectra.” Geoderma 158 (1–2): 46–54. doi:10.1016/j.geoderma.2009.12.025.
  • Wang, S. Q., C. H. Zhou, J. Y. Liu, H. Q. Tian, K. A. Li, and X. M. Yang. 2002. “Carbon Storage in Northeast China as Estimated from Vegetation and Soil Inventories.” Environmental Pollution 116: S157–S165. doi:10.1016/s0269-7491(01)00269-x.
  • Wang, X. P., F. Zhang, H. T. Kung, and V. C. Johnson. 2018a. “New Methods for Improving the Remote Sensing Estimation of Soil Organic Matter Content (SOMC) in the Ebinur Lake Wetland National Nature Reserve (ELWNNR) in Northwest China.” Remote Sensing of Environment 218: 104–118. doi:10.1016/j.rse.2018.09.020.
  • Wang, X. P., F. Zhang, J. L. Ding, H. T. Kung, A. Latif, and V. C. Johnson. 2018b. “Estimation of Soil Salt Content (SSC) in the Ebinur Lake Wetland National Nature Reserve (ELWNNR), Northwest China, Based on a Bootstrap-BP Neural Network Model and Optimal Spectral Indices.” Science of the Total Environment 615: 918–930. doi:10.1016/j.scitotenv.2017.10.025.
  • Wang, X. X., X. M. Xiao, Z. H. Zou, L. Y. Hou, Y. W. Qin, J. W. Dong, R. B. Doughty, B. Q. Chen, X. Zhang, Y. Chen, J. Ma, B. Zhao, and B. Li. 2020. “Mapping coastal wetlands of China using time series Landsat images in 2018 and Google Earth Engine.„ ISPRS Journal of Photogrammetry and Remote Sensing 163: 312–326. doi:doi:10.1016/j.isprsjprs.2020.03.014
  • Wu, C. S., Q. X. Tong, L. F. Zheng, and W. D. Liu. 2000. “Correlation Analysis between Spectral Data and Chlorophyll of Rice and Maize.” Journal of Basic Science and Engineering 8 (1): 31–37. doi:10.16058/j..1005-0930.2000.01.005.
  • Xing, Z., X. S. Hou, Y. X. Tang, R. H. He, B. K. Mintah, M. Dabbour, and H. L. Ma. 2018. “Monitoring of Polypeptide Content in the Solid-state Fermentation Process of Rapeseed Meal Using NIRS and Chemometrics.” Journal of Food Process Engineering 41 (7): e12853. doi:10.1111/jfpe.12853.
  • Yao, X., N. Wang, Y. Liu, T. Cheng, Y. C. Tian, Q. Chen, and Y. Zhu. 2017. “Estimation of Wheat LAI at Middle to High Levels Using Unmanned Aerial Vehicle Narrowband Multispectral Imagery.” Remote Sensing 9 (12): 1304. doi:10.3390/rs9121304.
  • Yao, Z. Y., J. J. Liu, X. W. Zhao, D. F. Long, and L. Wang. 2015. “Spatial Dynamics of Aboveground Carbon Stock in Urban Green Space: A Case Study of Xi’an, China.” Journal of Arid Land 7 (3): 350–360. doi:10.1007/s40333-014-0082-9.
  • Zhang, X. L., Z. H. Zhang, Z. J. Xu, X. J. Hou, and Q. F. Cai. 2012. ““On the Relation between Carbon Storage and Reinforced Fixation of the Coastal Wetland Vegetation in the Yellow River Delta Area.” Journal of Safety and Environment 12 (6): 145–149. doi:10.3969/j..1009-6094.2012.06.031.
  • Zhou, C., K. Wong, and J. H. Zhao. 2018. “Coastal Wetland Vegetation in Response to Global Warming and Climate Change.” Sea Level Rise and Coastal Infrastructure InTech: 61–81. doi:10.5772/intechopen.73509.
  • Zhu, H. G., P. Qin, and H. Wang. 2004. “Functional Group Classification and Target Species Selection for Yancheng Nature Reserve, China.” Biodiversity and Conservation 13 (7): 1335–1353. doi:10.1023/b:bioc.0000019401.52391.a9.

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