智能手机图像参数与玉米氮素营养状况关联解析

doi:10.13292/j.1000-4890.202108.034

摘要/Abstract

摘要： 发展便携的作物氮素营养诊断方法，可以有效监测玉米营养状况，精准实现氮肥施用量推荐，快速完成水肥一体化条件下滴灌玉米各生育时期氮肥追施。本研究利用智能手机照相技术获取2年不同施氮量下玉米四叶期至乳熟期冠层RGB图像，计算得到7种通用的色彩参数，分析色彩参数与植株氮浓度（N_P）的相关关系，构建植株氮浓度与手机图像色彩参数模型，利用决定系数（R²）、均方根误差（RMSE）、平均相对误差（nRMSE）进行模型精度评价。结果表明：玉米植株氮浓度随施氮量增加而增加；六叶期植株氮浓度与图像蓝光标准化值（NBI）呈显著正相关，与归一化差异黄度指数（NDYI）呈显著负相关；抽雄期植株氮浓度与图像绿光标准化值（NGI）、红绿蓝植被指数（RGBVI）、归一化差异黄度指数（NDYI）均呈极显著负相关，与蓝光标准化值（NBI）呈极显著正相关；六叶期植株氮浓度与色彩参数NDYI拟合效果最优，决定系数为0.796和0.821（2年），变异系数为2.14%和2.32%；抽雄期植株氮浓度与色彩参数NBI拟合最优，决定系数为0.836和0.773，变异系数为2.49%和2.21%；六叶期植株氮素营养诊断模型为N_P=5.38×NDYI^-1.09（R²=0.736）；抽雄期植株氮素营养诊断模型为N_P=2.07×10³×NBI^3.31（R²=0.791）；模型检验结果R²分别为0.734、0.790，RMSE为0.363、0.746，nRMSE为1.52%、4.01%，均方根误差和标准均方根误差较小，预测模型精度较高，因此，利用智能手机图像参数可定量估测宁夏滴灌玉米植株氮浓度，为作物氮素营养诊断提供理论参考。

关键词: 玉米, 手机图像, 色彩参数, 关联解析, 氮营养诊断

Abstract: The development of portable diagnostic methods for monitoring crop nitrogen nutrition can effectively monitor the nutritional status of maize, accurately recommend nitrogen fertilization rate, and quickly complete the nitrogen topdressing at different growth stages of drip-irrigation maize under the condition of integrated water and fertilizer. We used smartphone camera to obtain RGB images of maize under different nitrogen treatments from four-leaf stage to milkripe stage for two years, and calculated seven common color parameters. We analyzed the correlation between color parameters and plant nitrogen concentration (N_P), constructed the model of plant nitrogen concentration and color parameter of smartphone image, and evaluated the accuracy of the model by the determination coefficient (R²),root mean square error (RMSE) and mean relative error (nRMSE). The results showed that nitrogen concentration of maize increased with increasing nitrogen application rates. In the six leaf stage, plant nitrogen concentration had a significant positive correlation with the normalized blueness intensity (NBI) and a significant negative correlation with the normalized difference yellowness index (NDYI). In the tasseling stage, plant nitrogen concentration was significantly negatively correlated with the normalized greenness index (NGI), red-green-blue vegetation index (RGBVI), and NDYI, while significantly positively correlated with the NBI. The relationship between plant nitrogen concentration and NDYI had the optimal fitting effect in the six-leaf stage, with the determination coefficients being 0.796 and 0.821 and the variation coefficients being 2.14% and 2.32% in the two years. At the tasseling stage, the fitting effect of the relationship between plant nitrogen concentration and NBIwas the best, with the determination coefficients of 0.836 and 0.773 and the variation coefficients of2.49% and 2.21% in the two years. The nitrogen nutrition diagnosis model for the plants was as follows: N_P=5.38×NDYI^-1.09 (R²=0.736) in six-leaf stage and N_P=2.07×10³×NBI^3.31 (R²=0.791)in tasseling stage. The model validation results showed that R² were0.734 and 0.790, RMSE were 0.363 and 0.746, nRMSE were 1.52% and 4.01%, respectively. TheRMSE and nRMSE values were relatively small, indicating that the model prediction accuracy was relatively high. Therefore, smartphone image parameters can be used to estimate nitrogen concentration of maize plants under drip irrigation in Ningxia, providing a theoretical basis for crop nitrogen nutrition diagnosis.

Key words: maize, smartphone image, color parameter, correlation analysis, nitrogen nutrition diagnosis.

魏雪, 贾彪, 兰宇, 马胜利, 马健祯, 蒋鹏, 孙权. 智能手机图像参数与玉米氮素营养状况关联解析[J]. 生态学杂志, 2021, 40(8): 2656-2664.

WEI Xue, JIA Biao, LAN Yu, MA Sheng-li, MA Jian-zhen, JIANG Peng, SUN Quan. Correlation analysis between smartphone image parameters and nitrogen nutrition states of maize.[J]. Chinese Journal of Ecology, 2021, 40(8): 2656-2664.

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智能手机图像参数与玉米氮素营养状况关联解析

Correlation analysis between smartphone image parameters and nitrogen nutrition states of maize.

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