文章/专著

  • 辐射传输和大气校正
  • 水光学和遥感算法
  • 海-气二氧化碳通量(碳收支)
  • 上层海洋有机碳及浮游植物碳库储量
  • 有机碳输出通量
  • 陆源入海碳通量
  • 时间序列分析


辐射传输和大气校正

1. He, X., Bai, Y., Wei, J., Ding, J., Shanmugam, P., Wang, D., et al. (2017). Ocean color retrieval from MWI onboard the Tiangong-2 Space Lab: preliminary results. Optics Express, 25(20), 23955-23973.

2. He, X., Bai, Y., Zhu, Q., & Gong, F. (2010). A vector radiative transfer model of coupled ocean–atmosphere system using matrix-operator method for rough sea-surface. Journal Of Quantitative Spectroscopy & Radiative Transfer, 111(10), 1426-1448.

3. He, X., Pan, D., Bai, Y., Mao, Z., Wang, T., & Hao, Z. (2016). A Practical Method for On-Orbit Estimation of Polarization Response of Satellite Ocean Color Sensor. IEEE Transactions on Geoscience & Remote Sensing, 54(4), 1967-1976.

4. He, X., Pan, D., Yan, B., Wang, D., & Hao, Z. (2014). A new simple concept for ocean colour remote sensing using parallel polarisation radiance. Sci Rep, 4(6168), 3748.

5. Liu, J., He, X., Liu, J., Bai, Y., Wang, D., Chen, T., et al. (2017). Polarization-based enhancement of ocean color signal for estimating suspended particulate matter: radiative transfer simulations and laboratory measurements. Optics Express, 25(8), A323.

6. Mao, Z., Pan, D., Hao, Z., Chen, J., Tao, B., & Zhu, Q. (2014). A potentially universal algorithm for estimating aerosol scattering reflectance from satellite remote sensing data. Remote Sensing of Environment, 142(3), 131-140.

7. Mao, Z., Pan, D., He, X., Chen, J., Tao, B., Chen, P., et al. (2016). A Unified Algorithm for the Atmospheric Correction of Satellite Remote Sensing Data over Land and Ocean. Remote Sensing, 8(7), 536.

8. Pan, D. (2004). Study on Marine Application Potentiality of CMODIS/SZ-3. Engineering Sciences,(2), 1-5.

9. Pan, D., Xianqiang, H. E., & Mao, T. (2003). Preliminary study on the orbit cross-calibration of CMODIS by SeaWiFS. Progress in Natural Science, 13(10), 745-749.

10. Teng, L. I., Pan, D., Yan, B., Gang, L. I., Xianqiang, H. E., Chen, C. T. A., et al. (2015). Satellite remote sensing of ultraviolet irradiance on the ocean surface. Acta Oceanologica Sinica, 34(6), 101-112.

11. Xianqiang, H. E., Pan, D., Bai, Y., & Gong, F. (2006). A general purpose exact Rayleigh scattering look-up table for ocean color remote sensing. Acta Oceanologica Sinica, 25(1), 48-56.

12. Xianqiang, H. E., Pan, D. L., Yan, B., Zhu, Q. K., & Fang, G. (2007). Vector radiative transfer numerical model of coupled ocean-atmosphere system using matrix-operator method. Science in China, 50(3), 442-452.

13. Xianqiang He*, Knut Stamnes, Yan Bai, Wei Li, Difeng Wang. Effects of Earth curvature on atmospheric correction for ocean color remote sensing. Remote Sensing of Environment, 209,118–133,2018.

14. Xuchen Jin, Delu Pan, Xianqiang He*, Yan Bai, Palanisamy Shanmugam, Fang Gong, Qiankun Zhu. A vector radiative transfer model for sea surface salinity retrieval from space: a non-raining case. International Journal of Remote Sensing, 2018, DOI: 10.1080/01431161.2018.1488283.

15. He, X., Bai, Y., Pan, D., Tang, J., & Wang, D. (2012). Atmospheric correction of satellite ocean color imagery using the ultraviolet wavelength for highly turbid waters. Optics Express, 20(18), 20754-20770.

16. Wei, J. A., Wang, D., Gong, F., He, X., & Bai, Y. (2017). The Influence of Increasing Water Turbidity on Sea Surface Emissivity. IEEE Transactions on Geoscience & Remote Sensing, PP(99), 1-15.

水光学和遥感算法

1. Bai, Y., Pan, D., Cai, W. J., He, X., Wang, D., Tao, B., & Zhu, Q. (2013). Remote sensing of salinity from satellite‐derived CDOM in the Changjiang River dominated East China Sea. Journal of Geophysical Research Oceans, 118(1), 227-243.

2. Chen, J., He, X., Zhou, B., & Pan, D. (2017). Deriving colored dissolved organic matter absorption coefficient from ocean color with a neural quasi‐analytical algorithm. Journal of Geophysical Research-Oceans, 122(1).

3. Chen, J., Ni, X., Liu, M., Chen, J., Mao, Z., Jin, H., & Pan, D. (2015). Monitoring the occurrence of seasonal low‐oxygen events off the Changjiang Estuary through integration of remote sensing, buoy observations, and modeling. Journal of Geophysical Research Oceans, 119(8), 5311-5322.

4. Chen, P., Pan, D., & Mao, Z. (2015). Application of a laser fluorometer for discriminating phytoplankton species. Optics & Laser Technology, 67(67), 50-56.

5. Chen, P., Pan, D., Wang, T., Mao, Z., & Zhang, Y. (2017). Coastal and inland water monitoring using a portable hyperspectral laser fluorometer. Marine Pollution Bulletin.

6. He, X., Bai, Y., Pan, D., Huang, N., Dong, X., Chen, J., et al. (2013). Using geostationary satellite ocean color data to map the diurnal dynamics of suspended particulate matter in coastal waters. Remote Sensing of Environment, 133(12), 225-239.

7. Hu, Z., Pan, D., He, X., & Bai, Y. (2016). Diurnal Variability of Turbidity Fronts Observed by Geostationary Satellite Ocean Color Remote Sensing. Remote Sensing, 8(2), 147.

8. Hu, Z., Pan, D., He, X., Song, D., Huang, N., Bai, Y., et al. (2017). Assessment of the MCC method to estimate sea surface currents in highly turbid coastal waters from GOCI. International Journal of Remote Sensing, 38(2), 572-597.

9. Hu, Z., Wang, D. P., He, X., Li, M., Wei, J., Pan, D., & Bai, Y. (2017). Episodic surface intrusions in the Yellow Sea during relaxation of northerly winds. Journal of Geophysical Research, 122.

10. Hu, Z., Wang, D. P., Pan, D., He, X., Miyazawa, Y., Bai, Y., et al. (2016). Mapping surface tidal currents and Changjiang plume in the East China Sea from Geostationary Ocean Color Imager. Journal of Geophysical Research Oceans, 121(3).

11. Li, H., He, X., Bai, Y., Gong, F., & Zhu, Q. (2017). Assessment of satellite-based chlorophyll-a retrieval algorithms for high solar zenith angle conditions. Journal of Applied Remote Sensing, 11(1), 012004.

12. Mao, Z., Stuart, V., Pan, D., Chen, J., Gong, F., Huang, H., & Zhu, Q. (2010). Effects of phytoplankton species composition on absorption spectra and modeled hyperspectral reflectance. Ecological Informatics, 5(5), 359-366.

13. Peng, C., Pan, D., Mao, Z., & Tao, B. (2015). Detection of water quality parameters in Hangzhou Bay using a portable laser fluorometer. Marine Pollution Bulletin, 93(1-2), 163-171.

14. Tao, B., Mao, Z., Lei, H., Pan, D., Bai, Y., Zhu, Q., & Zhang, Z. (2017). A semianalytical MERIS green‐red band algorithm for identifying phytoplankton bloom types in the East China Sea. Journal of Geophysical Research Oceans, 122(3).

15. Tao, B., Mao, Z., Lei, H., Pan, D., Shen, Y., Bai, Y., et al. (2015). A novel method for discriminating Prorocentrum donghaiense from diatom blooms in the East China Sea using MODIS measurements. Remote Sensing of Environment, 158, 267-280.

16. Tao, B., Pan, D., Mao, Z., Shen, Y., Zhu, Q., & Chen, J. (2013). Optical detection of Prorocentrum donghaiense blooms based on multispectral reflectance. Acta Oceanologica Sinica, 32(10), 48-56.

17. Wang, D., Gong, F., Pan, D., Hao, Z., & Zhu, Q. (2010). Introduction to the airborne marine surveillance platform and its application to water quality monitoring in China. Acta Oceanologica Sinica, 29(2), 33-39.

18. Tao, B., Mao, Z., Pan, D., Shen, Y., Zhu, Q., & Chen, J. (2013). Influence of bio-optical parameter variability on the reflectance peak position in the red band of algal bloom waters. Ecological Informatics, 16(16), 17-24.

海-气二氧化碳通量(碳收支)

1. Bai, Y., Cai, W., He, X., Zhai, W., Pan, D., Dai, M., & Yu, P. (2015). A mechanistic semi‐analytical method for remotely sensing sea surface pCO2 in river‐dominated coastal oceans: A case study from the East China Sea. Journal of Geophysical Research, 120(3), 2331-2349.

2. Chen, C. T. A., Huang, T. H., Chen, Y. C., Bai, Y., He, X., & Kang, Y. (2013). Air-sea exchanges of CO2 in the world's coastal seas. Biogeosciences,10,10(2013-10-15), 10(10), 6509-6544.

3. Chen, C. T. A., Huang, T. H., Fu, Y. H., Bai, Y., & He, X. (2012). Strong sources of CO₂ in upper estuaries become sinks of CO₂ in large river plumes. Current Opinion in Environmental Sustainability, 4(2), 179-185.

4. Song, X., Bai, Y., Cai, W. J., Chen, C. T., Pan, D., He, X., & Zhu, Q. (2015). Remote Sensing of Sea Surface pCO2 in the Bering Sea in Summer Based on a Mechanistic Semi-Analytical Algorithm (MeSAA). Remote Sensing, 8(7), 558.

5. Yu, T., Pan, D., Bai, Y., He, Y., Li, D., & Liang, C. (2016). A quantitative evaluation of the factors influencing the air-sea carbon dioxide transfer velocity. Acta Oceanologica Sinica, 35(11), 68-78.

6. LÜ Hang-yu, BAI Yan, LI Qian, et al. Satellite remote sensing retrieval of aquatic pCO2 in summer in the Pearl River Estuary. Journal of Marine Sciences,2018,36(2):1-11, doi:10.3969/j.issn.1001-909X.2018.02.001.(In Chinese)

上层海洋有机碳及浮游植物碳库储量

1. Liu, Q., Pan, D., Bai, Y., Wu, K., Chen, C. T. A., Liu, Z., & Zhang, L. (2015). Estimating dissolved organic carbon inventories in the East China Sea using remote‐sensing data. Journal of Geophysical Research Oceans, 119(10), 6557-6574.

2. Liu, Q., Pan, D., Bai, Y., Wu, K., Chen, C. A., Sun, J., & Zhang, L. (2013). The satellite reversion of dissolved organic carbon (DOC) based on the analysis of the mixing behavior of DOC and colored dissolved organic matter: the East China Sea as an example. Acta Oceanologica Sinica, 32(2), 1-11.

3. Li, T., Bai, Y., Li, G., He, X., Chen, C. A., Gao, K., & Liu, D. (2015). Effects of ultraviolet radiation on marine primary production with reference to satellite remote sensing. Frontiers of Earth Science, 9(2), 237-247.

4. Pan, D., Guan, W., Yan, B., & Huang, H. (2005). Ocean primary productivity estimation of China Sea by remote sensing. Progress In Natural Science, 15(7), 627-632.

有机碳输出通量

1. Li, T., Bai, Y., He, X., Chen, X., Chen, C.-T., Tao, B., et al. (2018). The Relationship between POC Export Efficiency and Primary Production: Opposite on the Shelf and Basin of the Northern South China Sea. Sustainability, 10(10), 3634.

2. Li, T., Bai, Y., He, X., Xie, Y., Chen, X., Gong, F., & Pan, D. (2018). Satellite‐based estimation of particulate organic carbon export in the northern South China Sea. Journal of Geophysical Research: Oceans. https://doi.org/10.1029/2018JC014201.

3. Cui, Q., X. He, Q. Liu, Y. Bai, C. T. A. Chen, X. Chen and D. Pan. Estimation of lateral DOC transport in marginal sea based on remote sensing and numerical simulation. Journal of Geophysical Research: Oceans, 2018, doi: 10.1029/2018JC014079.

陆源入海碳通量

1. Bai, Y., Huang, T. H., He, X., Wang, S. L., Hsin, Y. C., Wu, C. R., et al. (2015). Intrusion of the Pearl River plume into the main channel of the Taiwan Strait in summer. Journal Of Sea Research, 95, 1-15.

2. Chen, C. T. A., Kandasamy, S., Chang, Y. P., Bai, Y., He, X., Lu, J. T., & Gao, X. (2016). Geochemical evidence of the indirect pathway of terrestrial particulate material transport to the Okinawa Trough. Quaternary International, 441, 51-61.

3. Chen, C. T. A., Yeh, Y. T., Yanagi, T., Bai, Y., He, X., & Huang, T. H. (2016). The tug‐of‐war between the West Philippine Sea and South China Sea Tropical Waters and Intermediate Waters in the Okinawa Trough. Journal of Geophysical Research Oceans, 121(3), 1736-1754.

4. He, X., Bai, Y., Chen, C. T. A., Hsin, Y. C., Wu, C. R., Zhai, W., et al. (2015). Satellite views of the episodic terrestrial material transport to the southern Okinawa Trough driven by typhoon. Journal of Geophysical Research Oceans, 119(7), 4490-4504.

5. He, X., Xu, D., Bai, Y., Pan, D., Chen, C. T. A., Chen, X., & Gong, F. (2016). Eddy-entrained Pearl River plume into the oligotrophic basin of the South China Sea. Continental Shelf Research, 124, 117-124.

6. KANG, Yan., Pan, Delu., He, Xianqiang., Xiaoyan, CHEN., et al. (2013). Areas of the global major river plumes. Acta Oceanologica Sinica, 32(1), 79-88.

7. Liu, D., Pan, D., Bai, Y., He, X., Wang, D., Wei, J. A., & Zhang, L. (2015). Remote Sensing Observation of Particulate Organic Carbon in the Pearl River Estuary. Remote Sensing, 7(7), 8683-8704.

8. Liu, D., Pan, D., Bai, Y., He, X., Wang, D., & Zhang, L. (2015). Variation of dissolved organic carbon transported by two Chinese rivers: The Changjiang River and Yellow River. Marine Pollution Bulletin, 100(1), 60-69.

9. Tu, Q., Hao, Z., & Pan, D. (2015). Mass Deposition Fluxes of Asian Dust to the Bohai Sea and Yellow Sea from Geostationary Satellite MTSAT&58; A Case Study. Atmosphere, 6(11), 1771-1784.

时间序列分析

1. Bai, Y., He, X., Pan, D., Chen, C. T. A., Kang, Y., Chen, X., & Cai, W. J. (2015). Summertime Changjiang River plume variation during 1998–2010. Journal of Geophysical Research Oceans, 119(9), 6238-6257.

2. Chen, C., Mao, Z., Tang, F., Han, G., & Jiang, Y. (2017). Declining riverine sediment input impact on spring phytoplankton bloom off the Yangtze River Estuary from 17-year satellite observation. Continental Shelf Research, 135, 86-91.

3. Chen, J., Pan, D., Liu, M., Mao, Z., Zhu, Q., Chen, N., et al. (2017). Relationships Between Long-Term Trend of Satellite-Derived Chlorophyll-a and Hypoxia Off the Changjiang Estuary. Estuaries & Coasts, 40(4), 1-11.

4. Chen, X., Pan, D., Bai, Y., He, X., Chen, C. T. A., & Hao, Z. (2013). Episodic phytoplankton bloom events in the Bay of Bengal triggered by multiple forcings. Deep Sea Research Part I Oceanographic Research Papers, 73(3), 17-30.

5. Chen, X., Pan, D., Xianqiang, H. E., Bai, Y., & Wang, D. (2012). Upper ocean responses to category 5 typhoon Megi in the western north Pacific. Acta Oceanologica Sinica, 31(1), 51-58.

6. He, X., Bai, Y., Pan, D., Chen, C. T. A., Cheng, Q., Wang, D., & Gong, F. (2013). Satellite views of the seasonal and interannual variability of phytoplankton blooms in the eastern China seas over the past 14 yr (1998-2011). Biogeosciences, 10(7), 4721-4739. https://doi.org/10.5194/bg-10-4721-2013

7. He, X., Pan, D., Bai, Y., Wang, T., Chen, C.-T. A., Zhu, Q., et al. (2017). Recent changes of global ocean transparency observed by SeaWiFS. Continental Shelf Research, 143, 159-166.