References
- FarquharGD, EhleringerJR, & HubickKT (1989). Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology, 40, 503–537. doi:10.1146/annurev.pp.40.060189.002443.
- FarquharGD, Von caemmererS., & BerryJA (1980). A biochemical model of photosynthetic co2 assimilation in leaves of c3 species. Planta, 149, 78–90. doi:10.1007/BF00386231.
- GatesDM, KeeganHJ, SchleterJC, & WeidnerVR (1965). Spectral properties of plants. Applied Optics, 4, 11–20. doi:10.1364/AO.4.000011.
- GausmanH. (1977). Reflectance of leaf components. Remote Sensing of Environment, 6(1), 1–9. doi:10.1016/0034-4257(77)90015-3.
- GuZ. (2012). The prediction of barley grain protein content based on Hyperspectral data. Spectroscopy and Spectral Analysis, 2, 435–438.
- GuoC., FengY., ZhangX., & HuangS. (1985). Studies on model system primary process in photosynthesis (1) the photophysical properties of covalently linked porphyrin-anthraquinone derivaties. Acta Biophysica Sinica, 1, 272–278.
- HongF., WeiZ., & ZhaoG. (2001). Determination of coordination structure on metal-substituted chlorophyll a by Spectroscopy. Progress in Biochemistry and Biophysics, 28, 381–386.
- LiB., LiM., ZhouX., ZhangL., & ZhangH. (2010). Hyperspectral estimation models for nitrogen contents of apple leaves. Journal of Remote Sensing, 14, 761–773, (in Chinese with English abstract).
- LiF., MiaoY., ChenX., ZhangH., JiaL., & BarethG. (2010). Estimation winter wheat biomass and nitrogen status using an active crop sensor. Intelligent Automation and Soft Computing, 16, 1219–1228.
- LiM. (2006). Spectral analysis technology and application. Beijing: Science Press.
- MackinneyG. (1941). Absorption of light by chlorophyll solutions. Journal of Biological Chemistry, 140, 315–322.
- St-jacquesC., & BellefleurP. (1991). Determining leaf nitrogen concentration of broadleaf tree seedlings by reflectance measurements. Tree Physiology, 8, 391–398. doi:10.1093/treephys/8.4.391.
- ThomasJR, & OertherGF (1972). Estimating nitrogen content of sweet pepper leaves by reflectance measurements1. Agronomy Journal, 64, 11–13. doi:10.2134/agronj1972.00021962006400010004x.
- TsayM., GjerstadD., & GloverR. (1982). Tree leaf reflectance: A promising technique to rapidly determine nitrogen and chlorophyll content. Canadian Journal of Forest Research-revue canadienne de recherché forestiere, 12, 788–792.
- WangL., BaiY., LuY., & WangH. (2010). Nitrogen nutrition diagnosis for corn using different spectral parameters. Transactions of the Chinese Society of Agricultural Machinery, 26, 218–223, (in Chinese with English abstract).
- WoolleyJT (1971). Reflectance and transmittance of light by leaves. Plant Physiology, 47, 656–662. doi:10.1104/pp.47.5.656.
- YaoX., ZhuY., FengW., TianY., & CaoW. (2009). Exploring novel Hyperspectral band and key index for leaf nitrogen accumulation in wheat. Spectroscopy and Spectral Analysis, 8, 2191–2195.
- ZhangD., WangX., MaW., & ZhaoC. (2012). Research vertical distribution of chlorophyll content of wheat leaves using imaging hyperspectra. Intelligent Automation & Soft Computing, 18, 1111–1120. doi:10.1080/10798587.2008.10643315.
- ZhangQ. (2000). Photoreaction of photosynthesis. Plants, 4, 36–37.
- ZhangQ. (2000). Photoreaction of photosynthesis. Plants, 5, 34–35.
- ZhouW. (1998). Spectral analysis of chlorophylla. Journal of Shangdong Normal University (Natural Science), 13, 228–232.