A spectral parameter for the estimation of soil total nitrogen and nitrate nitrogen of winter wheat growth period,Soil Use and Management

当前位置： X-MOL 学术 › Soil Use Manag. › 论文详情

Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)

A spectral parameter for the estimation of soil total nitrogen and nitrate nitrogen of winter wheat growth period
Soil Use and Management ( IF 5.0 ) Pub Date : 2020-09-01 , DOI: 10.1111/sum.12639
Juanjuan Zhang _{1,

2} , Qinqin Wei _{1,

3} , Shuping Xiong _{1,

3} , Lei Shi _{1,

2} , Xinming Ma _{1,

2,

3} , Pan Du _{1,

3} , Jianbiao Guo _{1,

3}

Affiliation

Real-time monitoring of crop nitrogen and soil nutrient status can provide an important basis for the rational application of nitrogen during fertilization. Two field experiments were conducted in Henan Province, China, using three main wheat cultivars and four nitrogen levels, across two consecutive growing seasons. Canopy spectral reflectance, plant nitrogen and soil nitrogen were synchronously measured during the wheat's main growth stages. Furthermore, the quantitative relationship between the soil nitrogen and plant nitrogen concentrations was analysed, and the relationship with existing spectral parameters and several kinds of hyperspectral indices, including normalized difference spectral indices (NDVI), ratio spectral indices (RVI) and difference spectral indices (DVI), was extracted. All the combinations of two wavebands between 350 and 1 050 nm were calculated, and their quantitative relationships with soil nitrogen content were analysed. The results were used to build a remote monitoring model of soil total nitrogen and nitrate nitrogen (NO₃^--N) content by using the canopy spectral reflectance. The results showed that the correlation between soil NO₃^--N and plant nitrogen concentration was superior to the correlation between total nitrogen and plant nitrogen concentrations. After systematically analysing the quantitative relationship between wheat canopy spectra, soil total nitrogen content and NO₃^--N content, we found that the correlation with the original reflectance in the visible region was superior and that the first derivative spectrum significantly improved the correlation in the near-infrared region. Furthermore, the soil total nitrogen content, NO₃^--N content and canopy spectral data were analysed in different growth stages (jointing stage, flowering stage and filling stage). The results showed that NDVI (FD747, FD699) was the best indicator for monitoring soil total nitrogen and NO₃^--N content modelling, as the modelling decision coefficient and prediction decision coefficient were both above 0.8 for all test cases. Thus, during wheat growth, crop canopy spectroscopy can be used to estimate soil nitrogen nutrition status, and NDVI (FD747, FD699) can be used as an effective spectral parameter for estimating soil total nitrogen and NO₃^--N content.

更新日期：2020-09-01

点击分享查看原文

点击收藏

阅读更多本刊最新论文本刊介绍/投稿指南11