Dr. Hongxin Cao
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Dr. Hongxin Cao

Professor
Institute of Agricultural Resources and Environment, China

Highest Degree
Ph.D. in Agronomy from Nanjing Agricultural University, China

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Biography

Hongxin Cao is currently working as a Professor and an Associated Director at The Institute of Agricultural Resources and Environment, Institute of Agricultural Economics and Information / Engineering Center for Digital Agriculture, Jiangsu Academy of Agricultural Sciences (JAAS), China to develop crop growth models, morphological models and agricultural information technology, etc. He obtained a Ph.D in Agronomy from The University of Nanjing Agriculture Chinese in 1997. After gaining experience in crop quality cultivation and as an associated professor in finance his career focus returned to applying statistics to agriculture science, in particular crop models. He worked as an associated professor and a professor at The Institute of Crop Science Research, Shandong Academy of Agricultural Sciences, Associated lecturer and a lecturer of crop cultivation. He is a stand director and associated secretary-general of the Computer Sub-Association of China Agriculture Association of Science Society, a stand director of Jiangsu Province Agriculture Association of Science Society, a director of China Remote Sensing Application Association, a member of Special Interest Group on Information of China Agricultural Engineering Association of Science Society, a supervisor for postdoctoral station of JAAS, an advisor for postgraduate in The University of Nanjing Agriculture and The University of Yangzhou, and a member of Editorial board in 4 Journals.

Area of Interest:

Plant and Soil Sciences
100%
Crop Science
62%
Plant Analysis
90%
Plant Growth
75%
Morphology
55%

Research Publications in Numbers

Books
3
Chapters
3
Articles
150
Abstracts
5

Selected Publications

  1. Yin, J., Y. Yang, H. Cao and Z. Zhang, 2015. Greenhouse environmental monitoring and closed-loop control with crop growth model based on wireless sensors network. Trans. Inst. Meas. Control, 37: 50-62.
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  2. Cao, H., Y.W. Yang, Y. Liu, Z.Y. Zhang, Y.L. Chen, Y.X. Liu, and K.Y. Fu, 2014. Model-based low-cost intellectualized network monitoring and controlling for protected cultivation. Sensor Lett., 12: 776-782.
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  3. Cao, H.X., L.I.U. Yan, Y.X. Liu, J.S. Hanan, Y.B. Yue, D.W. Zhu, and X.F. Wei, 2012. Comparison of crop model validation methods. J. Integr. Agric., 11: 1274-1285.
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  4. Cao, H.X., L.I.U. Yan, Y.X. Liu, J.S. Hanan, Y.B. Yue, D.W. Zhu, and X.F. Wei, 2012. Biomass-based rice Oryza sativa L. Aboveground architectural parameter models. J. Integr. Agric., 11: 1621-1632.
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  5. Yue, Y.B., Y. Zhu and H.X. Cao, 2011. Study of main morphological characteristics models of silique in rapeseed (Brassica napus L.) under different cultivars and fertilizers. Jiangsu Agric. Sci., 1: 438-440.
  6. Yue, Y.B., Y. Zhu and H.X. Cao, 2011. Models and opengl-based visual technology for rapeseed (Brassica napus L.) flower. Jiangsu J. Agric. Sci., 27: 264-270.
  7. Liu, Y.X., Y.B. Yue, Y. Liu, H.X. Cao and D.K. Ge et al., 2011. Quantitative analysis of relationship between morphologic characters of leaf and root system in rice (Oryza sativa L.). Jiangsu J. Agric. Sci., 27: 461-468.
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  8. Liu, Y.X., Y.B. Yue, Y. Liu, H.X. Cao and D.K. Ge et al., 2011. Biomass-based dynamic model for rice root system. Jiangsu J. Agric. Sci., 27: 704-709.
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  9. Cao, H.X., Z.S. Lao, G.D. Ke, L.Y. Xia and L. Yan et al., 2011. Discussion on development of crop models. Sci. Agric. Sinica, 44: 3520-3528.
  10. Cao, H., C. Zhang, B. Zhang, S. Zhao and D. Ge et al., 2011. Research and application of cultivation-simulation-optimization decision making system for rapeseed (Brassica napus L.). IFIP Adv. Inf. Commun. Technol., 345: 441-456.
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  11. Liu, Y.X., Y.B. Yue, Y. Liu, H.X. Cao and D.K. Ge et al., 2010. Quantitative research of dynamic models of the main geometric parameters of rice root system of different varieties under different nitrogen conditions. Sci. Agric. Sinica, 43: 1782-1790.
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  12. Liu, Y.X., Y.B. Yue, Y. Liu, H.X. Cao and D.K. Ge et al., 2010. Quantitative relationships between the main geometric properties of root system and the yield per plant in rice. Jiangsu J. Agric. Sci., 26: 456-461.
  13. Cao, H.X., D.K. Ge, S.L. Zhao, Y.X. Liu and Y. Liu et al., 2010. Dynamic model of optimum total shoot number (tsn) of w heat under different yielding levels. J. Triticeae Crops, 1: 183-187.
  14. Sun, J.Y., Y. Huang, H.X. Cao and Y.G. Jiao, 2009. Correlation between canopy spectral vegetation index and above-ground biomass in rapeseed (Brassica napus L.). Guangxi Agric. Sci., 40: 716-723.
  15. Sun, J.Y., H.X. Cao and Y. Huang, 2009. Correlation between canopy spectral vegetation index and leaf stomatal conductance in rapeseed (Brassica napus L.). ACTA Agronomica Sinica, 35: 1131-1138.
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  16. Liu, Y., J.F. Lu and H.X. Cao, 2009. Main geometrical parameter models of rice blade based on biomass. Sci. Agric. Sinica, 42: 4093-4099.
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  17. Ge, D.K., H.X. Cao, L.R. Xia, X.Q. Wu and X.Y. Li et al., 2009. Effects of farmland shelterbelt nets on photosynthesis and grain yield of rice and paddy field microclimate in Northern Jiangsu. Jiangsu J. Agric. Sci., 25: 945-951.
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  18. Wang, B.Q. and H.X. Cao, 2008. Simulation for dry matter and leaf area of rape population in the middle reaches of yangtze river. Shandong Agric. Sci., 6: 27-30.
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  19. Sun, J.Y., H.X. Cao and Y. Huang, 2008. Research advances of spectral technology in monitoring the growth and nutrition information of crop. J. Introduction Chin. Agric. Sci. Tech., 10: 18-24.
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  20. Cao, H.X., 2008. Advances in researches on plant morphological structure simulation and visualization. Sci. Agrieultura Sin., 41: 669-677.
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  21. Cao, H.X. and Y.W. Yang, 2008. Digital design of rice cultivation based on Web and simulation model. Trans. Csae, 24: 137-139.
  22. Cao, H.X. and Y.H. Dong, 2008. Dynamic model of optimum total shoot number(tsn) of wheat under different yielding levels. J. Triticeae Crops, 28: 243-248.
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  23. Yan, T.L. and H.X. Cao, 2007. Development of expert system joined with models for management and decision making of grape. Agric. Network Inf., 2: 9-13.
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  24. Cao, H.X. and Y.W. Yang, 2007. Researches of PDA-based terminal system for agricultural information. Sci. Agrieultura Sin., 40: 82-86.
  25. Wang, J.L., H.X. Cao and X.X. Duan, 2006. Gaseous N Losses from agricultural crops. Newsletter Plant Physiol., 42: 1-6.
  26. Cao, H.X., 2006. Researches and application of crop model series in China. Agric. Network Inf., 5: 45-48.
  27. Cao, H.X. and C.L. Zhang, 2006. Researches of simulation models of rape (Brassica napus L.) growth and development. Acta Agronomica Sin., 32: 1530-1536.
  28. Dai, X.H., S.J. Wang and H.X. Cao, 2005. Effect of ecological condition and culture techniques on the yield and protein content of spring wheat. J. Agric. Sci., 26: 7-11.
  29. Cao, H.X., S.L. Zhao, S.J. Wang and Y.S. Zhai, 2005. Effect of combining basals with spraying nitrogen during the later period on yield, quality and the plant nitrogen status of winter wheat. J. Triticeae Crops, 25: 44-50.
  30. Cao, H.X. and C.L. Zhang, 2005. Discussing of frame and technological systems for digital cultivation. Farming Culture, 3: 4-7.
  31. Wang, F.H., X.Q. Wang, D.C. Ren and H.X. Cao, 2004. Study on ridge culture technique in irrigated winter wheat. J. Triticeae Crops, 24: 68-72.
  32. Cao, H.X., X.S. Chu and Y.A. Guan, 2004. Harvest and experience of visiting CIMMYT. Shandong Agric. Sci., 181: 23-245.
  33. Cao, H.X., S.J. Wang and X.H. Dai, 2004. Researches on modeling of cultivation technique systems of 500 kg 666.7m2 yield in different climate year types and soil types for spring wheat. J. Triticeae Crops, 24: 71-79.
  34. Cao, H.X., J.L. Wang and H.W. Zheng, 2004. Developing digital agriculture and promoting rural informationalization. Agric. Network Inf., 1: 17-20.
  35. Wang, X.Q., F.H. Wang, D.C. Ren and H.X. Cao, 2003. Micro-climatic effect of raised-bed planting of wheat and its influence on plant development and yield. Chinese J. Agrometeorol., 24: 5-8.
  36. Cao, H.X., S.J. Wang and X.H. Dai, 2003. Effects of soil basic fertility and fertilizer and water on yield and quality and nitrogen content and nitrate reductase in leaf in spring wheat. J. Triticeae Crops, 23: 52-56.
  37. Cao, H.X., 2003. Researches of GIS on ecological distribution and evaluation for good quality and end-uses wheat. Res. Agric. Dev, Eastern China, 58: 22-23.
  38. Cao, H.X. and Y.H. Dong, 2003. Researches for application of crop simulation technology in w heat cultivation. Sci. Agric. Sin., 36: 342-348.
  39. Wang, F.H., X.Q. Wang, D.C. Ren and H.X. Cao, 2001. Mechanism of yielding increasing for crop bed-planting culture and its research reviews. Shandong Agric. Sci., 3: 41-45.
  40. Wang, F.H., X.Q. Wang and H.X. Cao, 2001. Effect of deep tillage before winter coming on vertical distribution of root activity and senescence of flag leaf in wheat plant. J. Shandong Agric. Univ., 32: 503-509.
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  41. Cao, H.X., D.C. Ren, Y.H. Dong and X.Q. Wang, 2001. Idea and countermeasure for agricultural development with intelligentizing in Shandong Province. Comput. Agric., 8: 26-27.
  42. Cao, H.X., D.C. Ren, X.Q. Wang and Y.H. Dong, 2001. Summarizing of research for computer simulation and decision making for crop growth and development processes. Shandong Agric. Sci., 3: 51-54.
  43. Ren, D.C., F.H. Wang, X.Q. Wang and H.X. Cao, 2000. Yielding increasing effects of bed-planting for winter wheat with high-yielding and its culture techniques. Farming Culture, 5: 10-11.
  44. Cao, H.X. and S.J. Liu, 2000. Researches of decision making system for crop ecological and equilibrium fertilizing. Comput. Agric., 11: 8-12.
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  45. Cao, H.X. and S.J. Liu, 2000. Researches of decision making system for crop ecological and equilibrium fertilizing, in: The centurial retrospect and prospect of information technology in agriculture. China Agric. Sci. Pub. House Beijing China, 160: 373-377.
  46. Cao, H.X. and S.J. Liu, 2000. Modeling for canopy leaf area for wheat. J. Shenyang Agric. Univ., 31: 246-248.
  47. Wang, F.H., S.J. Liu, X.Q. Wang, D.C. Ren and H.X. Cao, 1999. Eco-physiological effect of wheat bed-planting culture techniques. Shandong Agric. Sci., 4: 1-7.
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  48. Cao, H.X., L.R. Sun and L.Z. Gao, 1999. Simulation on soil nitrogen dynamic during wheat growing season in the lower valley of the yangtze river. Chin. J. Agrometeorol., 20: 35-38.
  49. Cao, H.X., L.R. Sun and L.Z. Gao, 1998. Modeling soil moisture content during winter wheat growing season in the lower yangtze river of China. J. Nanjing Agric. Univ., 21: 25-30.
  50. Wang, S.J., J.F. Huang, G. Ge, W.X. Liu and H.X. Cao, 1997. The research and study on high-yielding spring wheat with the object of 500 KG per mu in the large area of Ningxia irrigation region drawing water from the yellow river. J. Ningxia Agric. Coll., 18: 1-10.
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  51. Wang, S.J. and H.X. Cao, 1996. The effect of varietal character and agronomic practice on SDS sedimentation value of wheat meal. J. Ningxia Agric. Coll., 17: 1-6.
  52. Cao, H.X., S.J. Wang and Y.S. Zhou, 1995. Effects of balanced fertilization technique including many kinds of nutrition element on plant nutrition and grain yield of spring wheat. J. Ningxia Agric. Coll., 16: 18-25.
  53. Cao, H.X. and S.J. Wang, 1995. Effects of the basic fertility levels and the foliar spraying of nitrogen in late developmental period on grain yield and quality of different spring wheat varieties. J. Ningxia Agric. Coll., 16: 13-20.
  54. Dang, X.B., H.M. Han and H.X. Cao, 1994. Path analysis relative to yield characters of sweet potato mulched by film. J. Ningxia Agric. Coll., 15: 7-13.
  55. Cao, H.X. and Y.S. Zhai, 1991. Effects of the basic fertility levels on grain yield and quality of winter wheat varieties. J. Shaanxi Agric. Sci., 4: 16-17.